research topics related to video games

110 Video Game Topic Ideas for Essays & Examples

🔝 top 10 video game topics for 2024, 🏆 best video game topic ideas & essay examples, 🎮 good video game research topics, 🕹️ interesting gaming topics to write about, ❓ video game research questions, ✅ simple & easy video game essay topics.

Looking for video game topics for your project? Look no further! Here, we’ve collected excellent essay topics for true gaming enthusiasts. Whether you’re looking for argumentative essay ideas on video games, research topics, or questions for debate, you will find them here.

• History of Video Game Consoles
• Myths of Video Game Violence
• The Global Phenomenon of Esports
• VR Gaming and Its Future Possibilities
• How Video Games Influence Cognitive Skills
• Therapeutic Mental Health Benefits of Video Games
• Diversity and Gender Representation in Video Games
• How Multiplayer Games Impact Social Interaction
• Healthy Gaming Habits Against Video Game Addiction
• Aesthetic and Narrative Qualities of Artistic Video Games
• Product Life Cycle & Marketing of Video Game Industry One of the most important advantages of the concept of life cycle can be seen in the sphere of marketing, where if used as a tool it allows adjusting the strategies, including marketing, based on […]
• Sony and Nintendo in the Video Game Industry The firm has manufactured several generations of the home console since the 1980s, beginning with the Nintendo Entertainment System, the Super Nintendo Entertainment System released in the early 1990s, and the Nintendo 64 that was […]
• Video Game Effects: Good or Bad? Given the fact that there is indeed a logically sound rationale to such a suggestion, throughout the course of conducting my study, I remained thoroughly observant of the article’s classification-related suggestions, in regards to the […]
• Video Game Industry Analysis In 1950, Yamauchi assumed the position of the president in the firm and got on a variety of strategies with the purpose of rationalizing and modernizing the way the firm was controlled.
• The Monopoly Tycoon Video Game Review The game is stylistically similar to the board game Monopoly, and it can be played both online and offline. It is important to note that the game has a multiplayer feature, which can be played […]
• The Video Game Industry Evolution The first mention of the creation of such games dates back to the 1940s, but it was in 1952 that Alexander Shafto “Sandy” Douglas officially presented his dissertation at the University of Cambridge. One of […]
• The NASCAR Video Game Project Management Plan The plan attempts to draw the features and gameplay mechanics by replicating the thought process of a potential player. At this stage, the game should be well-advertised and ready for release.
• The Motivation of the Video Game Player For instance, the project gave its players the dynamic and fast pace of the game, a vast and detailed map, various locations, several different weapons, and character skins, and this is not all the possibilities.
• The “Medal of Honor” Video Game Analysis The game is set to depict the Afghanistan invention in 2002 and the battle between the U.S.military and the Taliban. Due to the close resemblance of the game to the Afghanistan war, the game has […]
• Human Life: Video Game, Simulation, or Reality? Drawing parallels between the real and the virtual world, one can admit the unreality of the existence of the planet and people and compare everything that happens with the simulation in which we are.
• Does Video Game Violence Lead to Aggression in Children? Among the gaming community, children participate vigorously in absorbing the plethora of entertaining content, including age-restricted ones where the scenes of violence are abundant.
• A Role-Playing Video Game Ayiti: The Cost of Life This strategy worked but not to the topmost level simply because the burden of the living cost was gradually weighing down the overall income of my family.
• BioWare Video Game Project Management For example, Dragon Age: Inquisition, the third installment of the company’s flagship series, switched to the Frostbite engine used by most of the EA games and succeeded in delivering the product despite the technical difficulties […]
• Video Game History: Overview From the 1990s to Nowadays In addition to arcade car behavior, the game was also famous for its beautiful graphics at the time, with each game in the series being a launch title showing the capabilities of the console.
• FIFA 10 Football Simulation Video Game A lack of consistency is evident in the various versions of this game as FIFA 10 played on a PC lacks the realism that is exhibited when the game is played on XBOX 360 and […]
• Video Game Delivery Project: Strategic Marketing To initiate strategies in marketing of Video Game, the company will decide to develop a web based application by ABC CORP and this application is customized to meet the requirements of the project. The purpose […]
• A Video Game Store’s Business Plan The projected cash flow of the cash in the balance sheet will appear positive for the next five years and will show that the company’s profitability in will be good enough pay for operating expenses […]
• The U.S. Video Game Industry This was also based on the views of the company’s developers who assumed that the technological advantages of the the16-bit system were extremely less than that of the 8-bit system.
• Video Game Company Against Online Piracy The purpose of the said DRM software is to protect the intellectual rights of the company. The fourth major issue is the encompassing goal of the VGC to end all types of piracy.
• Video Game Addiction and Maslow’s Hierarchy of Needs As to me, I was interested in video games when I was a child because this industry was at its beginning and almost every pupil was involved in it.
• Twitch.tv and Video Game Streaming Career From this point, in spite of the fact that the Twitch.tv platform can be viewed as belonging to the live-streaming industry, the careers of streamers develop according to the traditional principles of the entertainment business.
• Nintendo in the Video Game Industry Previously, Atari was a major power to reckon with in the industry but was later toppled by Nintendo. Part of Yamauchi’s vision was to introduce new and cheaper video games in the market than the […]
• Game designers have the responsibility to design less video game Secondly, the outcome of the video game is unpredictable as compared to movie in which the audience can predict the point at which the story would end thus making the video games more interesting to […]
• Striving for the Ultimate Knowledge: Eli’s Mission. Video Game Owing to the peculiarities of the movie plot, the game can be shaped in a most intriguing way, with a lot of turns of the plot which lead to the most effective denouement.
• Analysis of the Counter-Strike Video Game Phenomenon in Computer Gaming
• Comparison of Three Companies in Video Game Industry; Nintendo, Sony and Microsoft
• Analysis of Free Will in The Stanley Parable Video Game
• Analysis of the Effects of Playing a Video Game Used in Computer Science
• Analysis of the Characteristics and Player Statistics of Bungie’s Video Game Destiny
• Are Video Games Truly a Game or a Reality?
• Analysis of the Topic of the Releases in the Video-Game Industry and the Issues of the Violence
• Analysis of the Rise of the Video Game Empire in Modern Society
• Two Aspects of Creating a Video Game
• Analysis of the Third-Person, Console-Based Video Game, The Last of Us
• Are Users The Next Entrepreneurs? A Case Study On The Video Game Industry
• Combating Video Game Addiction : A Global Problem
• Does Playing Video Game Consoles Bring About Plenty of Advantages?
• Analysis of the Field Work Project and the Topic of a Video Game Community
• Does Video Game Violence Affect Children?
• Do Video Games Contribute For Video Game Violence?
• Is The Video Game Industry an Oligopoly?
• Is Video Game Violence the Cause of Juvenile Delinquency?
• Psychological Effects of Video Game Violence on Children
• What Is the Defining Business and Economic Characteristics of the Video Game Console Industry?
• Why Play Station 4 and the Xbox One Are the Kings of the Next Generation Video Game Console?
• What Makes A Video Game Addictive?
• Competition Among 3 Main Video Game Companies: Nintendo, Sega, And Sony
• Brief Note On Video Gaming And The Video Game Industry
• Effects of Television and Video Game Violence on Children and Teenagers
• Analysis of the Different Genres of Video Game Systems for Children
• Overview of the Process and Career in Video Game Design
• Development of the Elder Scrolls Video Game Series
• Breaking Gender Stereotypes in Traditionally Masculine Sports: The Inclusion of Women in FIFA 16 Video Game
• Cancer: Video Game and Playing Violent Video
• Fighting the Online Video Game Wars in China
• Government Regulation Of Video Game Violence Is Unconstitutional And Unnecessary
• Japanese video game industry
• History of the Video Game Industry
• Microsoft Xbox Entering the World of Video Game
• The Merchant of Video Games: Adapting the Merchant of Venice into an Adventure Game
• What Are Some Revolutionary Breakthroughs in the Video Game Industry?
• What Does It Take To Make It in the Video Games Industry?
• Why Has the Video Game Industry Exploded Recently?
• What Is Wrong With the Video Game Industry in This Generation?
• Is the Video Game Industry Going Downhill?
• Who Is the Best Voice Actor in the Video Game Industry?
• What Will Be the Next Breakthrough or “Big Thing” in the Video Game Industry?
• Is the Video Game Industry in Trouble Right Now?
• Who Makes More Money: Hollywood or the Video Game Industry?
• How Has the Coronavirus Impacted the Video Game Industry?
• What Is the Biggest Missed Opportunity Yet in the Video Game Industry?
• Does Video Game Violence Induce Negative Affects on Our Youth?
• What Are the Changes the Video Game Industry Needs?
• How Large Is the Video Game Industry?
• Why Is the Video Game Industry in China Dominated by MMOs?
• Is There a Bubble Forming in the Video Game Industry?
• What Do Video Game Players Understand That Most People Don’t?
• How Easy Is It to Make a Video Game?
• What’s the Best Advice You’ve Received From a Video Game?
• What Was the First Video Game?
• What Is the Most Inappropriate Video Game You Know?
• What Are the Elements of a Good Video Game?
• How Much Does It Cost to Develop a Video Game?
• What Can Video Game Consoles Offer You?
• Why Video Game Addiction Is One of the Urgent Problems Today?
• How Does Science Create Video Game?
• How the 1970s Sparked the Video Game Industry?
• Why Do Video Game Movies Always Fail?
• What’s the Most Popular Video Game Genre?
• The Science Behind Brain-Boosting Games
• How Gaming Reflects and Influences Society
• How Video Games Participate in Social Justice
• Pros and Cons of Gamified Fitness and Wellness Apps
• Gamification, Its Benefits, and Learning Outcomes
• Virtual Goods in Video Games and Their Real-World Value
• What Factors Influence Immersion and Player Engagement?
• Cloud Gaming and the Potential of Streaming Technology
• Market Trends and Revenue Models of the Video Game Industry
• Violence, Microtransactions, and Other Ethical Issues in Video Game Development
• Chicago (A-D)
• Chicago (N-B)

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127 excellent video game research topics for 2023.

Are you looking for the best video game research topics for 2023? We are proud to say that you have arrived at the right place. Our experienced ENL writers and professional editors have just finished creating our brand new list of 127 awesome video game topics for high school and college students. You can use any of our ideas for free – no credits required.

Best Way To Write A Video Game Essay

Before we get to the list of topics, we want to make sure you know how to write a great essay. After all, finding a great topic is just part of the writing process of any custom term papers . Here are some pointers that should help you do a better job on your research paper:

• Structure your paper properly and always start with an outline. We recommend you use the 5 paragraph essay structure, as it’s extremely versatile.
• Make sure your grammar and vocabulary are spot-on. Edit your work and polish your writing to make sure you get a top grade.
• Be careful with quotes and citations. Remember to include all your sources in the References chapter.
• Always start your paper with a great thesis statement. Dedicate some time to crafting the best one possible.
• Keep in mind that each body paragraph should start with a clear statement and then support it. Don’t tackle more than one important idea in a paragraph.
• Make sure you research the topic thoroughly and get accurate data from reputable sources. This is, after all, a research paper.
• Last, but not least, write in a clean and concise manner. Express your ideas clearly and avoid unnecessary information that would just confuse or bore your readers.

Now that you know what to do and what to avoid when writing the video game research paper, it’s time to take a look at our list of original video game research topics:

Easy Video Game Topics

We will start our list with a selection of easy video game topics that are perfect for students who don’t want to spend too much time on their papers:

• Talk about your favorite video game
• What do you like about modern video games?
• The process behind the creation of a new game
• Why do you want to become a video game developer?
• What is a MMORPG video game?
• Differences between FPS and RPG games
• Analyze the gaming industry in a country of your choice
• An in-depth look at cyber sports and video game championships
• Can playing video games be considered a sport?
• What makes League of Legends so popular?
• Research gun violence in modern video games
• Are the games you play bad for you?
• Talk about the impact of video games on small children
• Do video games have any positive effects on you?

Video Games Topic For Every Student

Below, you will find a selection of topics for every student from high school to college. Check out our video games topic for every student list:

• The psychology behind modern video games
• Analyze the launch of a popular game
• How are video games priced?
• The history of online gaming
• Games as learning tools
• Controlling video game addiction
• Shooters or strategy games?
• Why you shouldn’t play video games
• Physical benefits of games

Interesting Video Game Topics To Write About

We know; you want a topic that is both interesting and easy to write about. Take a look at these interesting video game topics to write about:

• Do violent video games make teens violent?
• What is the effect of video games on children?
• What changed my view on video games?
• Skills that can be improved by playing games
• Do adults play video games?
• Research the increase in demand for video games
• Compare video games in the US and the UK
• Ethical responsibility in the gaming industry
• How addictive are role playing video games?

Fun Gaming Topics

Yes, writing a research paper can be fun – if you choose a great topic. Pick any of our fun gaming topics and start writing your paper right away:

• The entire history of video games
• Positive effects of video games
• Android games vs iOS games
• The Candy Crush popularity
• Gaming industry careers
• Genres of video games
• The technology behind the Xbox 4
• What causes addiction when it comes to video games?
• How do games improve learning skills?

Latest News On Video Games

If you want to write about something new, we recommend you take a look at the latest news in video games:

• Talk about the use of augmented reality in video games in 2023
• What are incremental console upgrades?
• An in-depth look at inclusivity in video games
• Which games are trending in 2023?
• Most anticipated video games of 2023
• Latest advances in 3D and SFX effects
• Talk about the remastered cinematics of Diablo 2 Resurrected
• Halo Infinite: everything we know so far
• The clan system in Call of Duty: Vanguard

Informative Gaming Topics To Talk About

Do you want to write an informative paper? No problem, we have a long list of informative gaming topics to talk about right here:

• Why do people love video games so much?
• Can video game addiction be treated like substance addiction?
• Case study: The Elder Scrolls of Oblivion
• Discuss government regulation of video games in the US
• Compare and contrast the Xbox and the PlayStation
• A closer look at the Japanese gaming industry
• What does it take to become a video game creator?
• The rise of Android video games
• Do we really need computer games nowadays?

Video Game Research Paper Topics For High School

Our list of video game research paper topics for high school is unique, so you can safely pick any one of our ideas and write your essay on it:

• What do modern video games promote?
• How much time should you spend playing video games?
• Are video games good or bad for our youth?
• Talk about how gaming will look 20 years from now
• Does playing video games make you think more strategic?
• How important are video games for our society?
• The importance of video games in treating depression
• Are games a good way to treat anxiety?
• Why do people spend so much money on video games?

Best Video Game Research Questions

A question is usually enough to spark your creativity. This is why we have an entire list of the best video game research questions right here:

• Are video games good for teens?
• How does video game violence affect children?
• How will games look 50 years from now?
• How do games improve our collaborative skills?
• Why do we love looking at other play video games?
• How damaging is piracy for the video game industry?
• Which are more popular, RPGs or FPSs?

Video Games Debate Topics

Are you preparing for a debate and need a great topic? Don’t worry about it; we’ve got your back. Check out these great video games debate topics:

• Discuss sexism in modern video games
• Talk about social problems related to video games
• Virtual reality in future games
• The important of augmented reality
• Can a game be educational?
• What makes games so fun and addictive?
• Gaming in the classroom in 2023
• Interesting online gaming experiences
• Important of games in special education settings

Good Video Game Writing Prompts

Are you looking for some good video game writing prompts that can help you write an intriguing research paper? Here are some of our best ideas:

• Compare and contrast the top 3 games in the United Kingdom in 2023
• What are some problems with modern video games?
• An in-depth look at advanced SFX effects
• 3D game rendering technologies
• Discuss online piracy related to video games
• Maslow’s Hierarchy of Needs: Modern video games
• How realistic are modern games in 2023?
• Tackle the violence theme in video games
• Sony vs. Microsoft: gaming giants battle
• The link between gaming and violence in teenagers
• Discuss the addictiveness of video games

Video Games Research Paper Topics For College

Of course, we have a list of video games research paper topics for college students. These are a bit more difficult than the others in our list:

• Linking video game addiction to substance abuse
• The use of first person shooter games in military training programs
• Flight simulation games and their real world applications
• Games that improve critical thinking skills
• The minimum age for playing video games
• Games that improve reaction times
• Pros and cons of playing assassin video games
• Debunking the most popular myths about video games
• Should parents prevent their children from playing video games?
• The link between video games and cognitive skill improvements

Engaging Video Games Topics

Want to engage your audience right from the start? If you are looking to impress your professor, you might want to give these engaging video games topics a try:

• The role of a developer in the video game industry
• How is testing being carried out on video games?
• Talk about the latest and most advanced video game effects
• An analysis of the video game industry in 2023
• Compare the 3 most popular games in the United States in 2023
• Are online video games more addictive than single-player ones?
• Discuss about the psychological effects of video games
• Compare and contrast 3 first person shooter games
• Improving reaction time in FPS games
• The effect of video games on education

Video Games Of The Future

Last, but not least, we have a nice compilation of ideas related to video games of the future. Take a look at our innovative ideas and pick the one you like:

• A closer look at Battlefield 2042
• Talk about how rendering graphics works in games
• Advances in graphics planned for games to be released in 2023
• Innovative graphics in Halo Infinite
• Discuss 3D game rendering technologies of the future
• What makes Pragmata a game of the future?
• The use of artificial intelligence in games in 2023
• Research the use of virtual reality in future games
• Discuss real-time rendering in future 3D games
• An in-depth look at Hytale (to be released in 2023)

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107 Video Game Essay Topic Ideas & Examples

Inside This Article

Video games have become a popular form of entertainment for people of all ages. From action-packed shooters to immersive role-playing games, there is a video game out there for everyone. With such a wide variety of games to choose from, it can be overwhelming to decide on a topic for an essay about video games. To help you get started, here are 107 video game essay topic ideas and examples to inspire your writing:

• The impact of violent video games on children's behavior
• The evolution of video game graphics over the years
• The rise of esports and its influence on the gaming industry
• The benefits of playing video games for cognitive development
• The representation of gender and race in video games
• The history of virtual reality gaming
• The psychology of loot boxes in video games
• The role of music in enhancing the gaming experience
• The ethics of video game journalism
• The impact of video game addiction on mental health
• The cultural significance of video game franchises like Mario and Pokemon
• The future of cloud gaming and streaming services
• The role of storytelling in video games
• The influence of video games on popular culture
• The relationship between video games and education
• The impact of video game censorship on creative expression
• The portrayal of mental health issues in video games
• The role of social media in video game marketing
• The history of video game consoles
• The impact of online multiplayer games on social interaction
• The evolution of game mechanics in the survival horror genre
• The representation of LGBTQ+ characters in video games
• The influence of Japanese culture on video game aesthetics
• The role of nostalgia in the popularity of retro gaming
• The impact of microtransactions on player experience
• The relationship between video games and violence in society
• The role of artificial intelligence in game development
• The impact of video game streaming platforms like Twitch
• The representation of disability in video games
• The influence of game design on player engagement
• The evolution of mobile gaming
• The role of virtual economies in online multiplayer games
• The impact of video game sound design on immersion
• The portrayal of mental illness in video games
• The influence of Eastern philosophy on game narratives
• The role of user-generated content in game communities
• The impact of fan culture on video game development
• The representation of indigenous cultures in video games
• The influence of literature on game storytelling
• The role of game difficulty in player satisfaction
• The impact of video game piracy on the industry
• The portrayal of war in military shooter games
• The relationship between video games and sports
• The influence of board games on video game design
• The role of player choice in game narratives
• The impact of virtual reality on therapy and rehabilitation
• The representation of historical events in video games
• The influence of film on game aesthetics
• The role of gender stereotypes in video game marketing
• The impact of game mods on player creativity
• The portrayal of mental health professionals in video games
• The influence of tabletop role-playing games on video game mechanics
• The role of game mechanics in promoting teamwork and cooperation
• The impact of game development crunch on industry workers
• The representation of animals in video games
• The influence of science fiction on game narratives
• The role of player agency in game storytelling
• The impact of game difficulty on player motivation
• The portrayal of addiction in video games
• The influence of mythology on game aesthetics
• The role of puzzles in game design
• The impact of game reviews on player purchasing decisions
• The representation of mental illness in horror games
• The influence of architecture on game environments
• The role of game soundtracks in enhancing the player experience
• The impact of game tutorials on player learning
• The portrayal of robots and AI in video games
• The influence of fashion on character design in games
• The role of humor in game narratives
• The impact of game localization on cultural representation
• The representation of environmental issues in video games
• The influence of psychology on game design
• The role of game narratives in exploring complex themes
• The impact of game communities on player engagement
• The portrayal of mental health struggles in indie games
• The influence of mythology on game storytelling
• The role of player feedback in game development
• The impact of game accessibility on player inclusivity
• The representation of gender identity in video games
• The influence of surrealism on game aesthetics
• The role of morality systems in game narratives
• The impact of game tutorials on player retention
• The portrayal of mental health professionals in horror games
• The influence of psychology on game narratives
• The role of player choice in shaping game outcomes
• The impact of game aesthetics on player immersion
• The representation of LGBTQ+ relationships in video games
• The role of environmental storytelling in game design
• The impact of game streaming on player engagement
• The portrayal of mental illness in puzzle games
• The role of player feedback in shaping game development
• The impact of game aesthetics on player perception
• The representation of LGBTQ+ characters in horror games
• The influence of film noir on game narratives
• The role of environmental storytelling in shaping game worlds
• The impact of game tutorials on player skill progression
• The portrayal of mental illness in narrative-driven games
• The influence of science fiction on game aesthetics
• The role of player choice in determining game endings
• The impact of game aesthetics on player emotional response
• The representation of LGBTQ+ relationships in indie games
• The influence of literature on game design
• The role of environmental storytelling in immersive game worlds
• The impact of game streaming on player community building
• The portrayal of mental health struggles in interactive fiction games

Whether you are writing a research paper, a critical analysis, or a personal reflection on video games, these topics provide a diverse range of ideas to explore. From examining the psychological effects of gaming to analyzing the cultural significance of game narratives, there is no shortage of fascinating topics to delve into. So, pick a topic that interests you and start exploring the world of video games through the lens of your essay. Happy writing!

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122 Video Games Research Paper Topics For Students

Oct 6, 2022

Oct 6, 2022 | Topics

Video games are a big part of our lives, just like political science, and they have been since the early days. Even with all that gaming available to us, there’s still something about a classic game that keeps us coming back for more. This is why we’ve decided to put together a list of 100 video game research paper topics.

The best video games research paper topics are those you’re passionate about. If you know how to write a video games research paper , it needs to be something that interests you and inspires you to write. The more the topic interests and inspires you, the easier it will be for you to write a good one.

When selecting your topic, make sure it’s something that has enough information available on it so that there is no need for any additional research beyond what has already been done on the subject matter.

Video Games Argumentative Essay Topics For Students

Best Video Games Research Paper Topics

• The History of Video Games
• How Video Games Affect the Brain
• The Psychology Behind Video Games
• Why Do We Play Video Games?
• How to Make Money with Your Gaming Skills
• How to Improve Your Gaming Skills
• What Makes a Good Game?
• How to Choose the Right Gaming Computer
• How to Clean Your PC and Keep It Running Smoothly
• The Psychology of Video Game Design Masturbation: Let’s Talk About It
• The Psychology of Gaming Addiction
• How to Improve Your Gaming Skills What Makes a Good Game?

Interesting Video Games Research Paper Topics

• The Impact of Video Games on Children’s Development
• The Effects of Violent Video Games on the Brain
• How Does a Gamer’s Body Impact Their Gaming Experience?
• How Do Gamers Use Interactive Fiction to Explore Human Nature?
• How Does Video Games Impact the Brain?
• How Do Children Use Video Games to Explore Social Issues?
• Can Video Games Change Society for the Better?
• How Do Mobile Apps Affect Our Lives as a Whole?
• How Do Video Games Affect Our Emotions?
• What Is the Relationship Between Video Games and Social Media?
• Can Video Games Help People With Special Needs ?
• How Does Technology Affect our Brain Health?

Simple Video Games Research Paper Topics

• Simple Video Games – A Definition and Explanation
• How to Create Your Own Game
• The Way Children Play Video Games Nowadays and Their Favorite Types of Games.
• What is the Most Popular Type of Game?
• Who Creates These Games?
• What is the Difference Between Video Games and Real Life?
• How Are Video Games Used in Education?
• Can Video Games Be Addictive?
• What are the Effects of Violent Video Games on Children’s Behavior?
• How Do You Feel About Video Games?
• What is the Future of Video Games?
• What Can Be Done to Reduce the Amount of Time Kids Spend Playing Video Games?
• How Do We Know If a Child Is Too Addicted to Playing Video Games?
• Should Children Play Violent Video Games?
• Are Any Benefits of Playing Violent Video Games on Children’s Behavior and Learning Abilities?

Controversial Video Games Research Paper Topics

• Video Games and Violence
• Video Games and Addiction
• Video Games in the Classroom
• The Effects of Violent Video Games on Children and Adolescents
• Obesity, Diabetes, Cancer, and Heart Disease as a Result of Game Play
• How to Make You’re Playing Time More Productive With These Tips From Experts
• Benefits of Gaming: Why Gamers Can Be Happier Than Non-Gamers
• Why is Playing Video Games Good for Your Mental Health?
• Does Technology Destroy Creativity?: How to Avoid Becoming a Cyber Zombie?
• How to Use Video Games to Improve Your Self-Esteem?
• How Can You Avoid Becoming Addicted To Video Games?:
• The Benefits of Playing Video Games
• 10 Ways Gaming Can Make You Smarter
• Why It’s Important To Maintain A Healthy Diet While Playing Video Games
• Is Gaming Bad For Your Eyes?
• How To Become More Productive By Playing Video Games
• How to Make Your Playing Time More Productive

Compare and Contrast Video Games Research Paper Topics

• Compare and contrast the stories of two video games based on the same universe
• Compare and contrast different types of mini-games in video games
• Compare and contrast the game design styles of two different developers (for example, Nintendo vs Sega)
• Which video game series improved gameplay over its sequels? Explain your reasoning with examples from each title in the series.
• Which video game series has the best story?
• Which video game world do you think is most likely to be real? Why?
• Compare and contrast the gameplay of two different video games within the same genre.
• Which video game is better? Why?
• Which video game has the best story? Why?
• Which video game is more fun to play? Why?
• Compare and contrast different types of mini-games in video games.
• Which game developer do you think creates better games? Why?
• Compare augmented reality with virtual reality in gaming

Video Games Research Paper Topics for Kids

• Video Game Addiction: Is it a Real Problem?
• The History of Video Games, Past and Present
• The Benefits of Playing Video Games to Children’s Development
• How to Choose the Best Educational Toys for Your Child’s Development
• Video Games Research Paper Topics for Middle School
• How to play video games?
• What are the best video games of 2020?
• What is the difference between online and offline gaming?
• How to make your own video game?
• What are the popular gaming trends in 2020? *Top 10 Video Game Trends In The United States Of America*
• What is a pirated game and how can we avoid it when playing online video games or downloading apps on our phones/tablets/laptops etc.?
• Why did I lose my score while playing Mario Kart 8 Deluxe on Nintendo Switch?

Video Games Research Paper Topics for High School

• Video Games Are a Waste of Time.
• What is the Best Gaming Platform?
• Which is Your Favorite Game and Why?
• Discuss the Benefits of Having a Gaming Console in the Home.
• Do You Have an Xbox, PlayStation or Wii? Why Didn’t You Choose The Other One?
• Video Games Are A Great Way to Socialize. How Do They Help You Connect With Friends and Family Members?
• What Are Your Favorite Types of Video Games?
• What Are Some Fun Things You Have Done While Playing Video Games?
• What Does Your Family Say About Your Gaming Habits? How Do They Feel About It?
• What Would You Tell Someone Who Doesn’t Understand Why You Play Video Games?

Video Games Research Paper Topics for College

• Video Game Violence and Its Effects on Children
• The Role of Women in the Video Game Industry
• How Technology is Affecting Our Relationship with Games
• The History of Video Game Development
• Why Do People Play Violent Games?
• How Technology Is Changing Our Relationship with Games
• The Role of computer games and its impacts on Society
• How Do People Interact with Each Other and the Environment in a Virtual World?
• The Effect of Violent Video Games on Youth
• What Are the Benefits of Playing Video Games?

Video Games Research Paper Questions

• What was the first video game ever made? What made it so special at that time?
• How have different generations of gamers interacted with different types of technology over time (e.g., arcades vs consoles) or even between generations (e.g., Millennials vs Generation Z)?
• What is the biggest video game ever made?
• How does playing video games affect your brain?
• What are some of the most important technological advancements in gaming over time?
• How have different cultures worldwide responded to new types of technology, such as video games?
• What is the history behind classic games like Pac-Man, Space Invaders and Donkey Kong?

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This article lists some of the best research paper topics for kids, middle school and high school students. These topics will help students better understand video games and write a good essay on this topic. Choosing your topic wisely before you start writing is important, as it can make or break your research paper. So, if you are looking for some interesting ideas, we have covered them all here!

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117 Original Video Game Research Topics That Are Very Cool

Stop wasting your time searching all over the Internet for unique video game research topics! You can find 117 original video game topic ideas right here on this page. And yes, you can use these topics for free without even having to give us any credit. In fact, we have just finished updating the list of topics for 2023. This means that you will be able to find dozens of unique topic ideas that will give you an advantage over your classmates. In addition to the interesting topics, we also have 7 helpful tips, tricks and advice on how to write a video game essay or research paper faster. Let’s get started!

Finishing Your Video Game Essay On Time

However, finding excellent video game topics quickly is not enough, especially when you are on a tight deadline. There are many other things you can do to finish your paper on time. To make sure you complete the assignment on time, you should follow our tips, tricks and advice.

Start early. Give yourself enough time to research and write your essay. Don’t wait until the last possible minute to start writing the paper. Make sure you understand the requirements and scope of your essay topic. Stay focused and avoid wasting your limited time. Break down the task. Divide the essay into smaller parts, such as researching, outlining, writing, and editing. This will help you manage your time better and avoid being overwhelmed. Create a timeline. Develop a timeline that includes all the various things you need to do to write the paper and set a deadline for each one. Prioritize. Determine which parts of the paper are most important and work on them first. Make effective use of your energy. Use credible (primary) sources. This way you won’t have to go back and correct various parts of the paper due to problems with your sources. Create an outline of your essay before you start. This will help you organize your thoughts and save time by avoiding the need to revise and rearrange your work later.

Now that you know how to be more efficient, it’s time to give you some topics that will help you write an exceptional paper in no time:

Easy Video Games Topics

Don’t want to spend too much time writing the essay? No problem, just choose one of our easy video games topics:

• The history and evolution of video games.
• The positive effects of video games on children.
• The impact of video game violence on society.
• The benefits of playing video games for cognitive development.
• The use of video games in education and training.
• The role of video games in promoting physical activity.
• The psychology of video game addiction and its effects.
• The influence of video games on culture and society.
• The future of virtual reality in video games.
• The use of video games as a treatment for mental health issues.
• The ethical considerations of video game development and production.

Interesting Video Game Topics To Write About

Our experts have put together a list of the most interesting video game topics to write about. Check out the list below:

• Gender representation and diversity in video games.
• The impact of esports on the gaming industry.
• The relationship between video games and storytelling.
• Cultural significance of popular video game franchises.
• The role of video games in socialization and relationships.
• The effects of streaming on the gaming culture.
• The potential negative effects of excessive video game playing.
• The use of video games in medical treatment.
• The evolution of game design and mechanics in video games.
• The impact of the video game industry on local economies.

Current Gaming Topics

If you want to talk about topics that are relevant today, you can simply select one of our current gaming topics. You can find them right here:

• The rise of esports and professional gaming leagues
• The ongoing debate around video game addiction
• The impact of the COVID-19 pandemic on the gaming industry
• Loot boxes and micro transactions: controversies
• The increasing popularity of mobile gaming
• The emergence of cloud gaming platforms
• The debate around video game violence and its effects
• The role of gaming in learning
• The rise of indie game developers and their impact
• Talk about augmented reality in gaming in 2023
• The importance of inclusivity in gaming

Video Game Research Paper Topics

Writing a research paper on a topic related to video games doesn’t have to be difficult. Here are some simple video game research paper topics:

• The impact of video games on problem-solving skills
• Violent video games and aggressive behavior
• Using video games for teaching in the classroom in 2023
• The influence of video game design on player engagement
• The impact of online gaming communities on social interaction
• The role of video games in promoting physical activity
• The potential for video games to enhance mental health
• The effects of video games on attention span
• The use of video games in therapy
• Video game addiction and compulsive behavior

Video Game Research Questions

We have some of the most thought-provoking video game research questions on the Internet right here for you:

• How do different game design elements impact player attitude?
• What is the role of video games in shaping cultural identity?
• How do different types of video games affect spatial reasoning skills?
• What is the relationship between video games and creativity?
• How do video games impact risk-taking behavior?
• What is the impact of video games on academic performance?
• How do video games affect emotional intelligence?
• How can video games be used to promote sustainability?
• What is the impact of video game marketing on consumer behavior?
• How do video games impact racial stereotypes in society?
• What ethical considerations should be taken into account when designing video games?

Video Game Writing Prompts

Don’t know what to write the essay about? Don’t worry about it; we’ve got your back. Check out these video game writing prompts:

• Write a short story based on the world of “The Elder Scrolls. Skyrim.”
• Imagine a new planet for the “Mass Effect” series and describe it.
• Write a fanfiction piece that explores the backstory of “Overwatch” hero, Soldier. 76.
• Create a character in “Fallout 4” and write a journal entry from their perspective.
• Write a screenplay for a movie based on “The Last of Us.”
• Develop a new quest line for “World of Warcraft” and outline the story.
• Write a short story that takes place in the universe of “Halo.”
• Imagine an alternate ending to “BioShock Infinite” and write it out.
• Create a poem inspired by the themes and imagery of “Journey.”
• Write a story set in the post-apocalyptic world of “Horizon Zero Dawn.”
• Develop a backstory for the character of Clementine in “The Walking Dead” game series.

Video Games Debate Topics

Preparing for a heated debate? You need a good topic, of course. Check out these interesting video games debate topics:

• Are video games really a form of art?
• Is the portrayal of violence in video games harmful?
• Are loot boxes and micro transactions in video games ethical?
• Is it fair for video games to include difficulty levels in 2023?
• Are video games responsible for addiction and compulsive behavior?
• Should video games be used as a tool for educational purposes?
• Is it appropriate to censor or ban video games?
• Should video game companies be held accountable for their content?
• Is the portrayal of women in video games sexist?
• Are remastered video games worth the investment?
• Is streaming video games on platforms like Twitch a viable career?

Informative Gaming Topics To Talk About

If you’re looking for some informative gaming topics to talk about, you’re in luck. We have some for you:

• The evolution of gaming technology and graphics
• The rise of esports and competitive gaming
• The history and influence of classic video game franchises
• The future of virtual and augmented reality gaming
• The psychology of video game addiction and how to combat it
• The cultural significance and representation in video games
• The intersection of music and gaming, including video game soundtracks
• The rise of mobile gaming and its influence on the gaming market
• The history and impact of multiplayer gaming and online communities
• The design and development process of creating a video game

Engaging Topic Ideas Related To Video Games

These unique, engaging topic ideas related to video games will surely win you some bonus points from you professor:

• Write a script for a TV show set in the world of “Assassin’s Creed.”
• Create a new playable character for “Street Fighter” and describe their moves and backstory.
• Write a novella that explores the mystery of “Firewatch.”
• Develop a plot for a new “Red Dead Redemption” DLC.
• Write a short story inspired by the characters of “Life is Strange.”
• Imagine a 2023 sequel to “Breath of the Wild” and outline the plot.
• Write a screenplay for a movie based on “Half-Life.”
• Create a new creature for the world of “Monster Hunter” and describe its behavior and habitat.
• Write a story that takes place in the world of “Dark Souls.”
• Develop a new puzzle game concept and describe its gameplay and mechanics.
• Write a fanfiction piece that explores the relationship between Ellie and Dina in “The Last of Us Part II.”

Fun Video Game Topic Ideas

Writing a paper on a fun topic is a sure way to get noticed. Take a look at some of these fun video game topic ideas:

• Rank the best video game soundtracks in games from 2020 to 2023
• Discuss the funniest video game glitches and bugs
• Explore the history of video game consoles and their evolution
• Create the ultimate video game character (talk about their abilities)
• Choose the most iconic video game weapons and discuss their uses
• Debate the best video game crossover events
• Examine the most impressive speedruns in video game history
• Identify the most challenging video game bosses and discuss strategies to beat them
• Rank the most immersive video game worlds and environments
• Celebrate the most memorable moments in video game history.

Best Video Games Topic Ideas

Want to write your paper on an original topic idea? Below you can find what we consider to be some of the best video games topic ideas:

• The use of video games in advertising and marketing in 2023
• The history and impact of gaming consoles on the industry
• The role of video games in fostering creativity and imagination
• The history and impact of speedrunning on the gaming community and industry
• The ethics of video game content and censorship
• The history and impact of arcade games on gaming culture
• The impact of video games on spatial reasoning and navigation skills
• The psychology of character development and player identification in video games
• The role of video games in exploring and experiencing new cultures and worlds
• The impact of video games on decision-making abilities
• The history and impact of gaming conventions on the industry and community

No matter what topic you’ve chosen, our professional writers ready to write a research paper for you. Just hire a professional writer and  buy a research paper to easly get a good grade. 

Get Affordable Video Game Research Paper Help

Our team of experts is ready to jump in and give you the most affordable video game research paper help online. No more googling “ write my research paper ” anymore! Get a high quality custom essay or research paper for any class in as little as 3 hours. High school, college and university students can count on us to impress their teachers with outstanding papers on a wide variety of subjects and topics. Get reliable writing help using our secure platform and improve your GPA in no time. Our writers have extensive experience writing compelling academic content that any professor will appreciate. If you are a student who wants to get more free time every week, leave the essay writing to us. So, if you need some more original video games research paper topics or if you want to get a good essay written for you today, contact our team.

What are some gaming topics? Some more interesting gaming topics could be ideas like: psychological affect of games on young children (can also work for psychology term paper writing), developments in gaming software and design, the impact early video games have had on the gaming world today, or a look over important personalities in gaming. Can I get help writing my video games paper? Yes! It is always advisable to ask for help if you are struggling. Even a seemingly fun and interesting topic like video gaming can become overwhelming and a challenge to write about. So you can definitely get online paper writing help while you yourself enjoy playing games instead of writing about them! What is the biggest problem in the gaming industry? There are a few major problems in the gaming industry, however the most current and important one at the moment is labor conditions and economic compensation for gaming industry workers. Gaming is a difficult industry where professionals are constantly working over average hours.

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Articles on Video games

Displaying 1 - 20 of 365 articles.

Fallout: an expertly crafted TV adaptation that manages to incorporate some of the best elements of gameplay

Peter Howell , University of Portsmouth

Video games at work? It sounds fun, but there are ethical risks

Nick Butler , Stockholm University and Sverre Spoelstra , Lund University

Could a video game developer win the Nobel Prize for Literature?

Andrés Porras Chaves , IE University

Video games like Snufkin: Melody of Moominvalley can inspire players to look after nature

Elliot Honeybun-Arnolda , University of East Anglia and Lucas Friche , Université de Lorraine

I created a ‘cosy game’ – and learned how they can change players’ lives

Adam Jerrett , University of Portsmouth

Playing Snufkin: Melody of Moominvalley is a reminder of Tove Jansson’s environmental message

Esme Miskimmin , University of Liverpool

Anyone can play Tetris, but architects, engineers and animators alike use the math concepts underlying the game

Leah McCoy , Wake Forest University

The video game industry is booming. Why are there so many layoffs?

Kenzie Gordon , University of Alberta ; Jennifer R. Whitson , University of Waterloo ; Johanna Weststar , Western University , and Sean Gouglas , University of Alberta

60% of Australian English teachers think video games are a ‘legitimate’ text to study. But only 15% have used one

Amanda Gutierrez , Australian Catholic University ; Kathy Mills , Australian Catholic University ; Laura Scholes , Australian Catholic University , and Luke Rowe , Australian Catholic University

From besting Tetris AI to epic speedruns – inside gaming’s most thrilling feats

James Dawes , Macalester College

Why we should take competitive video games more seriously

Thomas Burelli , L’Université d’Ottawa/University of Ottawa ; Haoran Liu , L’Université d’Ottawa/University of Ottawa , and Marie Dykukha , L’Université d’Ottawa/University of Ottawa

Vacuuming, moving house, unpacking are boring in real life – so why is doing them in a video game so fun?

Lesley Speed , Federation University Australia

E3: why the world’s biggest video game event just closed for good – and what’s next for the industry

Theo Tzanidis , University of the West of Scotland

Buying indie video games over the holidays can help make the industry more ethical and fair

Sarah Stang , Brock University

Baldurs Gate 3 wins game of the year at 2023’s Game Awards – an expert review

Emma Joy Reay , University of Southampton

Microsoft’s ban on third-party controllers on the Xbox excludes some disabled gamers from using the device

Juan Escobar-Lamanna , Western University

All the video games shortlisted for the 2023 Game Awards – reviewed by experts

Theo Tzanidis , University of the West of Scotland ; Adam Jerrett , University of Portsmouth ; David Stevenson , Trinity College Dublin ; Emma Joy Reay , University of Southampton ; Henryk Haniewicz , University of Southampton , and Michael Samuel , University of Bristol

‘Baldur’s Gate 3’ became the surprise hit of 2023 by upending conventional wisdom about what gives video games broad appeal

The Legend of Zelda film: past adaptations have gotten Link’s character wrong

José Blázquez , Bournemouth University

Australia’s media classification system is no help to parents and carers. It needs a grounding in evidence

Elizabeth Handsley , Western Sydney University and Fae Heaselgrave , University of South Australia

Related Topics

• Computer games
• Digital economy
• Online gaming
• Video game design

Top contributors

Senior Lecturer, Queensland University of Technology

Evolutionary Biologist, ARC Future Fellow, UNSW Sydney

Director of the International Gaming Research Unit and Professor of Behavioural Addiction, Nottingham Trent University

Senior Lecturer in Digital Cultures, SOAR Fellow., University of Sydney

Associate Professor in Politics, University of Leeds

Researcher: Digital Literacy and Digital Wellbeing, Western Sydney University

Associate Professor, Swinburne University of Technology

Lecturer in Digital Cultures, University of Sydney

Professor of Psychology, Stetson University

PhD Candidate in Recreation and Leisure Studies, University of Waterloo

Lecturer, Faculty of Creative & Cultural Industries, University of Portsmouth

Professor in American Media and Culture, University of Kent

Knight Chair in Interactive Media; Associate Professor of Communication, University of Miami

Professor of Computational Media, University of California, Santa Cruz

Assistant Professor of Computer Science and Engineering, University of South Florida

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Library Resources for Doing Scholarly Research on Video Games

So you are writing a research paper about video games but aren't sure where to begin? Since video games are a new medium of art that requires an interdisciplinary approach to conducting research, databases that draw on many different publications can equip students and scholars with the tools they need to succeed.

Before you begin exploring databases, here are a few useful tips:

• For quick, targeted results,  search by abstract instead of by keyword or by title. In an academic paper, the abstract is a brief summary of what the paper or study is about. Searching by abstract will give you a list of all the articles that discuss video games in the summary, so it will help you narrow down more quickly whether or not the article will be useful to you.
• Use full-text filters to only get results where the entire article is available for you to read.
• For the most scholarly results, use peer-reviewed filters to find only articles vetted by experts in the field.

Recommended Databases

Note that some of these databases are accessible from home with a library card while others can only be used onsite at an NYPL location.

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For those new to academia/scholarly research, EBSCO's Academic Search is a staple in libraries nearly everywhere to conduct general research. It is a good starting point to see the current literature out there for any paper, in this case, gaming scholarship. However, just typing in "video games" alone in the search will lead you to over 300,000 results; how do you narrow it down? As mentioned above, use limiters such as peer-reviewed/full text enabled for high-quality articles that you can read fully. Other available search limiters are "magazines" (think video game magazines) and "company" (e.g. if you want to research a specific video game company such as Capcom or Square Enix). Academic Search is good if you want to study video games in terms of education, how to utilize them in a teaching setting, in the workplace, and more. 

Business Source Complete

If you are interested in researching video games from a business point of view, then EBSCO's Business Source Complete is the database for you. Here you will find SWOT (Strength, Weakness, Opportunities, Threats) analyses of gaming companies, research about NFTs (Non-Fungible Tokens), virtual and augmented reality, video games, and more. 

JSTOR (accessible from home with a library card)

Similar to Academic Search, JSTOR is a staple in many libraries and is a good area to conduct initial research while trying to figure out what you want your paper to be about. Typing "video games" alone in the search bar will net you more than 50,000+ scholarly articles about the popular entertainment medium. You can narrow your research to video games in Military Studies, Library Science, Political Science, and much more. 

"Can video games help alleviate seasonal depression?"

"Do violent video games cause behavioral problems in adolescents?" 

"Does Cognitive Dissonance explain the Console Wars?" 

"Does causing chaos in Grand Theft Auto correlate to causing chaos in real life?"

EBSCO's PsycINFO is useful if you are interested in studying video games in terms of the realm of psychology, and have ever pondered one of the above questions. You can find articles about video game addiction, aggression in players, mental health, personality development, and more.

Project Muse

This resource is a general favorite for anything art or media related, with tons of scholarly, peer-reviewed articles about video games including articles on diversity in video games, video games and the ecosystem, video games and civic development, and more. When starting research on video games, this database is highly recommended to be your number one starting point when trying to figure out what your paper is going to be about.  

Sage Knowledge

Sage is a good starting point if you want to read reference/textbook material about video games and gamification. In Sage you will find authoritative encyclopedias and handbooks that will help any gaming scholar in the beginning stages of their research. Some interesting encyclopedias that feature a chapter in video games are Death and the Human Experience, Out-of-School Learning, Communication Research Methods, and many more. 

Additional resources:

• Our  LibGuides page will point you to themed research guides of Library resources. For example, if you wanted to create a video game about a time-traveling librarian that takes place in New York City in the 1800s, looking at local history and newspapers may be something you want to do. If you know the research you want to do requires in-depth assistance, it's encouraged to make an appointment with a librarian . 
• This list of Fellowships around the city and at NYPL may be of interest to scholars. 
• Our Interlibrary Services and Documents is also a service for scholars to utilize if you need an article or not owned by the Library. You can also use interlibrary loan for video games as well. 
• Flipster  is a magazine database accessible with your library card that includes video game magazines.
• Finally, an external resource, the Internet Archive , has all kinds of old-school video games you can play, as well as gaming manuals and much more. Anyone who needs primary sources will find this very useful. 

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The site is secure. The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

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• Account settings

Preview improvements coming to the PMC website in October 2024. Learn More or Try it out now .

• Advanced Search
• Journal List
• Front Psychol

The Association Between Video Gaming and Psychological Functioning

Juliane m. von der heiden.

1 Department of Psychology, Johannes Gutenberg University Mainz, Mainz, Germany

Beate Braun

2 Department of Psychosomatic Medicine, University Medical Center, Mainz, Germany

Kai W. Müller

Boris egloff, associated data.

Video gaming is an extremely popular leisure-time activity with more than two billion users worldwide ( Newzoo, 2017 ). However, the media as well as professionals have underscored the potential dangers of excessive video gaming. With the present research, we aimed to shed light on the relation between video gaming and gamers’ psychological functioning. Questionnaires on personality and psychological health as well as video gaming habits were administered to 2,734 individuals (2,377 male, 357 female, M age = 23.06, SD age = 5.91). Results revealed a medium-sized negative correlation between problematic video gaming and psychological functioning with regard to psychological symptoms, affectivity, coping, and self-esteem. Moreover, gamers’ reasons for playing and their preferred game genres were differentially related to psychological functioning with the most notable findings for distraction-motivated players as well as action game players. Future studies are needed to examine whether these psychological health risks reflect the causes or consequences of video gaming.

Introduction

Video gaming is a very popular leisure activity among adults ( Pew Research Center, 2018 ). The amount of time spent playing video games has increased steadily, from 5.1 h/week in 2011 to 6.5 h/week in 2017 ( The Nielsen Company, 2017 ). Video gaming is known to have some benefits such as improving focus, multitasking, and working memory, but it may also come with costs when it is used heavily. By spending a predominant part of the day gaming, excessive video gamers are at risk of showing lower educational and career attainment, problems with peers, and lower social skills ( Mihara and Higuchi, 2017 ). On the one hand, video game use is widespread, and it may come with certain precursors as well as consequences. On the other hand, little is known about the relations between various video gaming habits and psychological functioning. This study aims to shed light on these important relations using a large sample.

A video game is defined as “a game which we play thanks to an audiovisual apparatus and which can be based on a story” ( Esposito, 2005 ). In the last few years, the amount of scientific research devoted to video game playing has increased (e.g., Ferguson, 2015 ; Calvert et al., 2017 ; Hamari and Keronen, 2017 ). Most scientific studies in this area of research have focused on the extent of video game play and its diverse correlates. While some researchers have emphasized the benefits of game playing and even suggested a therapeutic use of video games ( Primack et al., 2012 ; Granic et al., 2014 ; Colder Carras et al., 2018 ), others have been intrigued by its potential dangers ( Anderson et al., 2010 ; Müller and Wölfling, 2017 ).

Parents and professionals may be worried about their excessively playing children being “addicted.” However, problematic and potentially addictive video game use goes beyond the extent of playing (in hours per week; Skoric et al., 2009 ). It also includes such issues as craving, loss of control, and negative consequences of excessive gaming. While it is still a matter of debate whether problematic video game play should be considered a behavioral addiction , its status as a mental disorder has been clarified since the release of the DSM-5 in 2013. In the DSM-5, the American Psychiatric Association (2013) defined Internet Gaming Disorder with diagnostic criteria closely related to Gambling Disorder. Generally, this decision has been supported by many researchers (e.g., Petry et al., 2014 ) but has also caused controversies. Researchers have criticized the selection of diagnostic criteria and the vague definition of the Internet Gaming Disorder construct, which excludes offline games from being related to addictive use (e.g., Griffiths et al., 2016 ; Bean et al., 2017 ).

Several studies, literature reviews, and meta-analyses have focused on the correlates of problematic video gaming, usually assessed as a continuum with addiction marking the upper end of the scale (e.g., Ferguson et al., 2011 ; Kuss and Griffiths, 2012 ). The degree of addictive video game use has been found to be related to personality traits such as low self-esteem ( Ko et al., 2005 ) and low self-efficacy ( Jeong and Kim, 2011 ), anxiety, and aggression ( Mehroof and Griffiths, 2010 ), and even to clinical symptoms of depression and anxiety disorders ( Wang et al., 2018 ). Potential consequences of video game use have been identified as well, such as a lack of real-life friends ( Kowert et al., 2014a ), stress and maladaptive coping ( Milani et al., 2018 ), lower psychosocial well-being and loneliness ( Lemmens et al., 2011 ), psychosomatic problems ( Müller et al., 2015 ; Milani et al., 2018 ), and decreased academic achievement ( Chiu et al., 2004 ; Gentile, 2009 ). Effect sizes have varied widely across studies ( Ferguson et al., 2011 ). There seem to be sex and age differences with regard to video gaming behavior: potentially problematic video gaming was found to be more likely among males than females (e.g., Greenberg et al., 2010 ; Estévez et al., 2017 ), and among younger gamers ( Rehbein et al., 2016 ).

In addition to looking at problematic video game use and its relation to psychological functioning, it is relevant to also focus on why individuals play video games. Players use video games for very different reasons ( Ryan et al., 2006 ; Yee, 2006 ) such as to distract themselves from daily hassles or because they enjoy the social relationships they have developed in the virtual world. Potentially problematic video gaming has been found to be related to various reasons for playing such as coping and escape ( Hussain and Griffiths, 2009 ; Schneider et al., 2018 ), socialization ( Laconi et al., 2017 ), and personal satisfaction ( Ng and Wiemer-Hastings, 2005 ). Coping ( Laconi et al., 2017 ), social interaction, and competition were among the main reasons for gaming among males but not among females ( Lucas and Sherry, 2004 ). Mixed results emerged concerning age differences ( Greenberg et al., 2010 ), but especially younger gamers seemed to be motivated for video gaming by social interactions ( Hilgard et al., 2013 ). However, so far it remains unclear to what extent people’s various reasons for playing video games are differentially related to their psychological functioning.

Besides investigating the links between potentially problematic video game use and psychological functioning as well as between reasons for playing video games and psychological functioning, it is relevant to also look at which game genres individuals prefer. Correlates of preferences for certain game genres (e.g., simulation, strategy, action, role-playing) are cognitive enhancement ( Dobrowolski et al., 2015 ; Bediou et al., 2018 ), but also the amount of time spent playing ( Lemmens and Hendriks, 2016 ; Rehbein et al., 2016 ) and psychopathological symptoms ( Laconi et al., 2017 ). Males were shown to prefer action and strategy games, whereas females showed a preference for games of skill ( Scharkow et al., 2015 ; Rehbein et al., 2016 ). Younger gamers seemed to prefer action games, older players more so games of skill ( Scharkow et al., 2015 ). However, it is not yet understood to what extent preferences for certain video game genres are differentially related to psychological functioning.

Typically, research has focused merely on violent video games (e.g., Anderson and Bushman, 2001 ; Elson and Ferguson, 2014 ) or one specific game within one specific game genre (frequently World of Warcraft; Graham and Gosling, 2013 ; Visser et al., 2013 ; Herodotou et al., 2014 ), thereby neglecting the variety of possible gaming habits across various game genres.

In the present study, our objective was to examine the relation between video gaming and psychological functioning in a fine-grained manner. For this purpose, we examined psychological functioning by employing various variables such as psychological symptoms, coping strategies, and social support. Likewise, we assessed video gaming in a similarly detailed way, ranging from (a) problematic video game use, (b) the reasons for playing, to (c) the preferred game genres. This strategy prevented us from making potentially invalid generalizations about video gaming in general and allowed us to examine the spectrum of gaming habits and the respective relations between such habits and a diverse set of variables representing psychological functioning.

Playing video games excessively should be appealing to individuals with poor psychological functioning because games allow people to avoid their everyday problems and instead immerse themselves in another environment ( Taquet et al., 2017 ). Moreover, video games offer people a chance to connect with other people socially despite any more or less evident psychological problems they may have ( Kowert et al., 2014b ; Mazurek et al., 2015 ). On the other hand, potentially problematic video game use may also lead to psychological problems because it reduces the amount of time and the number of opportunities gamers have to practice real-life behavior ( Gentile, 2009 ). Thus, we expected to find a negative correlation between problematic video gaming and variables representing psychological functioning such that we expected more potentially problematic video game use to be related to dysfunctional coping strategies ( Wood and Griffith, 2007 ), negative affectivity ( Mathiak et al., 2011 ), and poor school performance ( Mihara and Higuchi, 2017 ). Moreover, we expected to find differential correlates of people’s reasons for playing video games and their psychological functioning: Playing for escape-oriented reasons such as distraction should go along with diverse indices of poor psychological functioning ( Király et al., 2015 ), whereas playing for gain-oriented reasons such as the storyline or the social connections in the game should be related to adequate psychological functioning ( Longman et al., 2009 ). Also, we expected to find people’s preferred game genres (e.g., strategy, action) to be differentially related to their psychological functioning ( Park et al., 2016 ). Finally, we aimed to shed light on the unique contribution of each measure of psychological functioning to the prediction of problematic video game use.

Materials and Methods

Participants 1.

A total of N = 2,891 individuals (2,421 male, 470 female) with a mean age of 23.17 years ( SD = 5.99, Range: 13–65) participated in our study. Of these participants, N = 2,734 (95%) confirmed their use of video games and were thus included in further analyses (2,377 male, 357 female, with a mean age of 23.06 years; SD = 5.91, Range: 13–65). The distribution of participants with regard to sex and age mirrors the findings of past research with males and younger individuals being more likely to play video games (e.g., Griffiths et al., 2004 ). Participants’ place of residence was Germany.

Procedure and Instruments 2

We posted links to our online questionnaire on various online forums as well as on popular online game sites. To achieve heterogeneity of the sample, no exclusion criteria other than having access to the Internet and understanding German were specified. As an incentive to participate in the study, four vouchers of 50€ were raffled.

Video Gaming

Potentially problematic video game use.

The AICA-S, the Scale for the Assessment of Internet and Computer game Addiction ( Wölfling et al., 2016 ), was used to assess participants’ gaming behavior with regard to potential problematic use. Based on the DSM criteria for Internet Gaming Disorder (tolerance, craving, loss of control, emotion regulation, withdrawal, and unsuccessful attempts to cut back), this standardized self-report scale consists of 15 items usually with a five-point scale ranging from 1 ( never ) to 5 ( very often ). The final score (Min = 0, Max = 27 points) is computed using weighted scoring (items with an item-total correlation > 0.55 in the norm sample are weighted double; Wölfling et al., 2011 ). The AICA-S score can be used to differentiate between regular (0–6.5 points) and problematic use of video games (7–13 points: abuse; 13.5–27 points: addiction). In our sample, N = 2,265 (83%) were identified as regular gamers, and N = 469 (17%) as problematic gamers. We used the AICA-S as a continuous variable for all further analyses ( M = 3.98, SD = 3.22, Range: 0–24). The instrument has been validated for different age groups in the general population and in clinical samples ( Müller et al., 2014a , 2019 , but note small sample size; Müller et al., 2014b ). Cronbach’s alpha was α = 0.70. As expected, the AICA-S score was correlated with male sex ( r = 0.17 ∗∗∗ ) and age ( r = –0.15 ∗∗∗ ). On average, participants played video games for M = 4.09 hours per weekday ( SD = 4.44, Range: 0–24), and M = 4.21 h per day at the weekend ( SD = 2.99, Range: 0–24).

Reasons for playing

Gamers indicated how often they played video games for certain reasons. They rated each of 10 reasons separately on Likert scales ranging from 1 ( never ) to 4 ( very often ). The most prevalent reasons were relaxation ( M = 2.96, SD = 0.91), amusement ( M = 2.94, SD = 0.85), and because of the storyline ( M = 2.67, SD = 1.10).

Game genres

Gamers were asked how often they usually played various video game subgenres such as first-person shooter, round-based strategy, massively multiplayer online role-playing games (MMORPGs), life simulations, and others. Ratings were made on Likert scales ranging from 1 ( never ) to 4 ( very often ). Using Apperley’s (2006) classification of game genres, we categorized the subgenres into the main genres action ( M = 2.54, SD = 0.84), strategy ( M = 2.13, SD = 0.80), role-playing ( M = 2.01, SD = 0.73), and simulation ( M = 1.58, SD = 0.44). A cluster for unclassified subgenres ( M = 1.54, SD = 0.39) was added to additionally account for such subgenres as jump’n’runs and games of skill. Descriptive statistics and intercorrelations for all measures (including sex and age) are presented in Supplementary Tables S1–S4 .

Psychological Functioning

Participants provided ratings of their psychological functioning on the following constructs:

General psychopathology

The SCL-K-9 ( Klaghofer and Brähler, 2001 ), a short version of the SCL-90-R ( Derogatis, 1975 ), was administered to assess participants’ subjective impairment regarding psychological symptoms (somatization, obsessive-compulsive, interpersonal sensitivity, depression, anxiety, hostility, phobic anxiety, paranoid ideation, and psychoticism). The SCL-K-9 score is strongly correlated with the original score of the SCL-90-R ( r = 0.93). The 9 items were answered on 5-point Likert-type scales ranging from 1 ( do not agree at all ) to 5 ( agree completely ). Cronbach’s alpha was satisfactory (α = 0.77).

We assessed 10 coping strategies with the Brief COPE ( Carver, 1997 ; German version by Knoll et al., 2005 ), which is the shorter version of the COPE ( Carver et al., 1989 ): self-distraction, denial, substance use, venting, self-blame, behavioral disengagement, acceptance, active coping, planning, and positive reframing. The two items per subscale were administered on 5-point Likert-type scales ranging from 1 ( never ) to 5 ( very often ). Intercorrelations of the two items per subscale ranged from r = 0.32, p < 0.001 for positive reframing to r = 0.78, p < 0.001 for substance use (with one exception: r = -0.05, p = 0.01 for self-distraction).

We measured general affect as a trait and affect during video gaming as a state using the German version ( Krohne et al., 1996 ) of the Positive and Negative Affect Schedule (PANAS; Watson et al., 1988 ). On a 5-point Likert-type scale ranging from 1 ( not at all ) to 5 ( completely ), participants rated the intensity of 20 adjectives. Cronbach’s alpha was α = 0.78 for general positive affect, α = 0.83 for general negative affect, α = 0.85 for positive affect while playing, and α = 0.83 for negative affect while playing.

The measure for the assessment of shyness in adults ( Asendorpf, 1997 ) consists of 5 items that were answered on a 5-point Likert-type scale ranging from 1 ( not at all ) to 5 ( completely ). Cronbach’s alpha was excellent (α = 0.86).

We administered the German version ( Elbing, 1991 ) of the NYU Loneliness Scale ( Rubenstein and Shaver, 1982 ). The 4 items were answered on 5- to 6-point Likert-type scales. Cronbach’s alpha was satisfactory (α = 0.79).

Preference for solitude

A 10-item measure of preference for solitude ( Nestler et al., 2011 ) was answered on a 6-point Likert-type scale ranging from 1 ( not at all ) to 6 ( completely ). Cronbach’s alpha was excellent (α = 0.86).

Life satisfaction

Participants answered a one-item life satisfaction measure on a 4-point Likert-type scale ranging from 1 ( not at all ) to 4 ( completely ).

Self-esteem

We administered the German version ( von Collani and Herzberg, 2003 ) of the Rosenberg Self-Esteem Scale (RSES; Rosenberg, 1979 ). The 10 items were answered on a 4-point Likert-type scale ranging from 1 ( not at all ) to 4 ( completely ). Cronbach’s alpha was excellent (α = 0.88).

Self-efficacy

We administered a 10-item generalized self-efficacy scale ( Schwarzer and Jerusalem, 1995 ), which was answered on a 4-point Likert-type scale ranging from 1 ( not at all ) to 4 ( completely ). Cronbach’s alpha was excellent (α = 0.86).

Social support and friends

We administered the perceived available social support subscale from the Berlin Social Support Scales (BSSS; Schwarzer and Schulz, 2003 ). The 8 items were answered on a 5-point Likert-type scale ranging from 1 ( not at all ) to 5 ( completely ). Cronbach’s alpha was excellent (α = 0.94). Participants indicated how many offline friends and offline acquaintances they had ( r = 0.44, p < 0.001) as well as how many online friends and online acquaintances they had ( r = 0.33, p < 0.001). Due to left-skewed distributions, we logarithmized the data before aggregation.

Participants reported their grade point average. German grades are assessed on a scale that ranges from 1 ( excellent ) to 6 ( insufficient ). Thus, higher scores indicate worse grades.

Participants further reported their sex and age. Both were used as control variables in further analyses.

In a first step, we computed zero-order correlations between the video gaming variables and the measures of psychological functioning. In a second step, we computed partial correlations in which we controlled for sex and age because past research has repeatedly shown that sex and age are correlated with both video gaming ( Homer et al., 2012 ; Mihara and Higuchi, 2017 ) and psychological functioning ( Kessler et al., 2007 ; Nolen-Hoeksema, 2012 ). Finally, we explored the unique contribution of each measure of psychological functioning to the prediction of potentially problematic video gaming. Therefore, we computed regressions with potentially problematic video gaming as the dependent variable and sex, age, and the measures of psychological functioning as predictors (entered simultaneously into the regression equation). By employing this procedure, we were able to determine the effect that each variable had over and above the other ones. For instance, we could identify whether general psychopathology was predictive of potentially problematic video game use when the influence of all other variables (e.g., shyness, loneliness, and others) was held constant.

Additionally, we included analyses regarding sex and age differences in the link between video gaming and psychological functioning. Since we collected a self-selected sample where different sexes and age groups were not represented equally, our findings are only preliminary, but may stimulate future research.

Potentially Problematic Video Game Use and Psychological Functioning

First, we examined whether potentially problematic video game use was related to various psychological functioning variables. As can be seen in Table 1 , the results for the zero-order correlations were similar to those for the partial correlations in which we controlled for sex and age. A medium-sized positive relation to the potentially problematic use of video games emerged for the presence of psychological symptoms including depression, anxiety, and hostility. Furthermore, several coping strategies were differentially associated with the potentially problematic use of video games: Self-blame and behavioral disengagement showed the strongest positive relations to potentially problematic video game use, followed by denial, acceptance, substance use, self-distraction, and venting. Planning, active coping, and, to a lesser extent, positive reframing were negatively associated with the potentially problematic use of video games. Moreover, the association with potentially problematic video game use was negative for general positive affect and positive and larger in size for general negative affect. However, potentially problematic video game use was clearly positively associated with the experience of both positive and negative affect while playing. Further, a preference for solitude, shyness, and loneliness were positively correlated with the potentially problematic use of video games. Lower self-esteem, lower life satisfaction, and, to a lesser extent, poorer perceived social support and lower self-efficacy went along with potentially problematic video game use. There was an association between fewer offline friends and acquaintances but more online connections with potentially problematic video gaming. Finally, poorer performance in school (i.e., higher grades) was related to the potentially problematic use of video games. These results suggest that potentially problematic video gaming goes along with poor psychological functioning and vice versa.

Associations between potentially problematic video gaming and psychological functioning.

Reasons for Playing Video Games and Psychological Functioning

Second, we investigated whether players’ reasons for playing video games were differentially related to the psychological functioning variables. Table 2 presents the partial correlations, controlling for sex and age. Using video games to distract oneself from stress was clearly connected to a high level of psychological symptoms. Distraction-motivated gamers preferred coping strategies such as self-blame, behavioral disengagement, self-distraction, denial, substance use, venting, and acceptance, but they neglected active coping and planning. They showed less general positive affect and more negative affect both in general and while playing as well as more positive affect while playing. These gamers further reported low self-esteem and low life satisfaction, loneliness, a preference for solitude, shyness, a lack of self-efficacy and social support, and poor achievement in school. A similar but somewhat less extreme picture was revealed for gamers who played video games in order to have something to talk about . However, these gamers reported more online connections. Gamers who played video games to improve their real-life abilities also reported more online connections. In addition, these gamers showed higher levels of general positive affect. The strongest association with online friends and acquaintances emerged, as expected, for gamers who played because of the social relations in the virtual world. Although all reasons for playing video games were related to positive affect while playing, the strongest associations emerged for gamers who played because of the social relations , to stimulate their imagination , and for curiosity . It is interesting that, for gamers who played video games because of the storyline and for relaxation , there was a relation only to positive but not to negative affect while playing. Reasons for playing were only weakly related to sex and age (see Supplementary Table S2 ). In sum, several reasons for playing video games were differentially associated with psychological functioning.

Associations between reasons for playing video games and psychological functioning.

Video Game Genre and Psychological Functioning

Third, we examined whether players’ preferences for different video game genres were differentially associated with the measures of psychological functioning. Table 3 shows the partial correlations in which we controlled for sex and age. There was a weak connection between general psychological symptoms and all of the video game genres we investigated except strategy. A preference for action games had the strongest association with affect while playing. Thus, action games seem to be both rewarding and a source of frustration. A preference for action games went along with poorer school performance. Gamers who preferred role-playing games scored higher on shyness and a preference for solitude and lower on self-esteem; they also reported fewer offline connections. By contrast, preferences for games of the unclassified category on average went along with a larger number of offline friends and more positive affect, both while playing and in general. Two game genres (i.e., role-playing and unclassified games) were related to the coping strategy of self-distraction. Because preferred game genre was related to participants’ sex (see Supplementary Table S3 ), we had a more detailed look at the correlations between preferred game genre and psychological functioning separately for both sexes: For males ( n = 2,377), the strongest correlation between general psychopathology and game genre emerged for action ( r = 0.08, p < 0.001), followed by role playing ( r = 0.07, p < 0.01), and unclassified ( r = 0.07, p < 0.01). For females ( n = 357), the strongest relation between general psychopathology and game genre emerged for simulation ( r = 0.17, p < 0.01). Differences were also found regarding the strength of the relation between number of friends online and the genre action: r = 0.06, p < 0.01 for males, and r = 0.27, p < 0.001 for females. Similarly, preferred game genre was related to participants’ age (see Supplementary Table S3 ). However, there were merely differences with regard to the relation of psychological functioning and game genre, when analyzed separately for different age groups (<19 years, n = 557; 19–30 years, n = 1916; >31 years, n = 261). In sum, our results speak to the idea that individuals with different levels of psychological functioning differ in their choices of game genres and vice versa.

Associations between preferred video game genre and psychological functioning.

Predicting Potentially Problematic Video Game Use by Psychological Functioning Variables

In a final step, we entered all of the investigated psychological functioning variables as well as sex and age as predictors of the potentially problematic use of video games. By employing this procedure, we were able to determine the unique contribution of each psychological functioning variable when the influence of all other variables was held constant. As Table 4 shows, the number of online friends and acquaintances as well as positive affect while playing were most predictive of potentially problematic video game use over and above all other variables. General psychopathology, a lack of offline connections, and poor school performance were weaker but still relevant predictors of potentially problematic video game use.

Prediction of potentially problematic video game use by psychological functioning variables.

With this study, we aimed to shed light on the association of diverse video gaming habits with gamers’ psychological functioning. Drawing on a large sample, our results revealed a medium-sized relation between potentially problematic video game use and poor psychological functioning with regard to general psychological symptoms, maladaptive coping strategies, negative affectivity, low self-esteem, and a preference for solitude as well as poor school performance. These findings are in line with those of prior work (e.g., Kuss and Griffiths, 2012 ; Milani et al., 2018 ). Also, reasons for playing video games were differentially related to psychological functioning with the most pronounced findings for escape-oriented in contrast to gain-oriented motives. Specifically, distraction-motivated gaming went along with higher symptom ratings, lower self-esteem, and more negative affectivity, whereas playing to establish social relationships in the virtual world was related to a larger number of online connections and more positive affect while playing. Furthermore, there were only weak relations between the preferred game genres and psychological functioning. The action games genre was associated with the strongest ratings of affect while playing. These results on reasons and genres may help to explain conflicting findings of former studies, because in our work we examined various reasons for playing, several game genres, and various aspects of psychological functioning simultaneously. Finally, positive affect while playing and a larger number of online friends were the strongest unique predictors of potentially problematic video game use, followed by psychological symptoms, a lack of offline connections, and poor school performance. These findings suggest that, on the one hand, independent of one’s psychological conditions, enjoying oneself during gaming (i.e., experiencing positive affect, connecting with online friends) may go along with potentially problematic use of video games. On the other hand, poor psychological functioning seems to be a unique risk factor for potentially problematic video gaming.

The presented results are generally in line with previous work that has identified a connection between video gaming and psychological health, academic problems, and social problems ( Ferguson et al., 2011 ; Müller et al., 2015 ). However, our study moved beyond prior research by providing in-depth analyses of both video gaming habits (including potentially problematic use, reasons for playing, and preferred game genre) and psychological functioning (including psychological symptoms, coping styles, affectivity, as well as variables that are related to individuals and their social environments). In addition, we identified unique predictors of potentially problematic video game use.

How can the findings on differential relations between video gaming and various indices of psychological functioning – ranging from beneficial results ( Latham et al., 2013 ) to unfavorable results ( Barlett et al., 2009 ; Möller and Krahé, 2009 ; Anderson et al., 2010 ) – be integrated? According to Kanfer and Phillips (1970) , problematic behavior (e.g., excessive video gaming) can be understood as a function of the situation (e.g., being rejected by a peer); the organism (e.g., low self-esteem); the person’s thoughts, physical reactions, and feelings (e.g., sadness, anger); and finally, the short- as well as long-term consequences of the behavior (termed SORKC model). In the short run, according to our results, playing video games may be a way to distract oneself from everyday hassles and may lead to positive affect while playing and a feeling of being connected to like-minded people, all of which are factors that have an immediate reinforcing value. In the long run, however, spending many hours per day in front of a computer screen may prevent a person from (a) developing and practicing functional coping strategies, (b) finding friends and support in the social environment, and (c) showing proper school achievement, factors that are potentially harmful to the person. Thus, differentiating between short- and long-term perspectives may help us understanding the differential correlates of intensive video gaming.

When is it appropriate to speak of video game addiction? More and more researchers have suggested a continuum between engagement ( Charlton and Danforth, 2007 ; Skoric et al., 2009 ) and pathological gaming/addiction, instead of a categorical perspective. In part, this recommendation has also been followed in the DSM-5 ( American Psychiatric Association, 2013 ) where Internet Gaming Disorder is classified with different degrees of severity, ranging from mild to moderate to severe, according to the functional impairment associated with it. The AICA-S also allows for a differential perspective on gaming behavior by providing ways to assess both the time spent playing video games and the main DSM criteria that indicate Internet Gaming Disorder. However, in our study we did not aim at making a diagnosis, but at having a closer look at potentially problematic gaming behavior and its correlates in a non-clinical sample.

In sum, it seems relevant to assess not only the extent of video game use but also the reasons behind this behavior (e.g., distraction) and the concrete rewards that come from playing (e.g., the experience of strong affect while playing action games) to fully understand the relation between video gaming and psychological functioning.

Limitations and Future Directions

With the present study, we aimed to uncover the association between video gaming and psychological functioning. Our approach was cross-sectional and warrants interpretative caution because correlations cannot determine the direction of causation. It remains unclear whether potentially problematic gaming is a factor that contributes to the development of psychological dysfunction or whether psychological dysfunction contributes to potentially problematic gaming. Also, a third factor (e.g., preexisting mental difficulties) may produce both psychological dysfunction and potentially problematic gaming. Thus, longitudinal studies that are designed to identify the causal pathway may provide a promising avenue for future research. Future studies may also answer the question whether the link between video gaming and psychological functioning is moderated by sex, age, the reasons for playing, or the preferred game genre. In addition, it is important not to forget that the present results are based on a self-selected sample in which potentially problematic video gamers were overrepresented (e.g., Festl et al., 2013 , for a representative sample). Thus, future research should replicate our findings in a representative sample. Further, we relied on self-reported data, which is a plausible method for assessing inner affairs such as people’s reasons for their behaviors, but it would be helpful to back up our findings with evidence derived from sources such as peers, caregivers, and health specialists. Our work reflects only a first approach to the topic, and future work may additionally collect in-game behavioral data from the players ( McCreery et al., 2012 ; Billieux et al., 2013 ) to objectively and more specifically investigate diverse patterns of use. Furthermore, one must not forget that the used taxonomy to classify video game genres is only one of various possible options and one should “think of each individual game as belonging to several genres at once” ( Apperley, 2006 , p. 19). Finally, some of the effects reported in our paper were rather modest in size. This is not surprising considering the complexity and multiple determinants of human behavior. In our analyses, we thoroughly controlled for the influence of sex and age and still found evidence that video gaming was differentially related to measures of psychological functioning.

The current study adds to the knowledge on gaming by uncovering the specific relations between video gaming and distinct measures of psychological functioning. Potentially problematic video gaming was found to be associated with positive affect and social relationships while playing but also with psychological symptoms, maladaptive coping strategies, negative affectivity, low self-esteem, a preference for solitude, and poor school performance. Including gamers’ reasons for playing video games and their preferred game genres helped deepen the understanding of the specific and differential associations between video gaming and psychological health. This knowledge might help developing adequate interventions that are applied prior to the occurrence of psychological impairments that may go along with potentially problematic video gaming.

Ethics Statement

In our online survey, participants were given information on voluntary participation, risks, confidentiality/anonymity, and right to withdraw. Whilst participants were not signing a separate consent form, consent was obtained by virtue of completion. We implemented agreed procedures to maintain the confidentiality of participant data.

Author Contributions

BB, BE, JH, and KM conceived and designed the study. BB, JH, and KM collected and prepared the data. JH analyzed the data. BE and JH wrote the manuscript.

Conflict of Interest Statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

1 The data were gathered as part of a larger project ( Stopfer et al., 2015 ; Braun et al., 2016 ). However, the analyses in the present article do not overlap with analyses from previous work.

2 Other measures were administered, but they were not relevant to the present research questions and are thus not mentioned in this paper. The data set and analysis script supporting the conclusions of this manuscript can be retrieved from https://osf.io/emrpw/?view_only=856491775efe4f99b407e258c2f2fa8d .

Supplementary Material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fpsyg.2019.01731/full#supplementary-material

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What Is Video Game Studies?

Broadly stated, video game studies is the academic analysis of various aspects of computer, console, arcade, and Internet games. It is frequently an interdisciplinary field of study, with scholars from film and media studies, popular cultural studies, American studies, psychology, sociology, education, and literature departments writing about and critiquing games and gaming. Video game studies fall primarily into two main academic camps: social sciences-based studies and humanities-based studies. Social science-based game studies look at the ways that games and gaming affect people, and how people make sense of and interact with games. Humanities-based game studies examine the meaning and context of the games themselves, either in terms of the narratives created and possibly created by video games, or by the unique possibilities for analysis presented by the interactive nature of video games .*

Information on finding books, articles, websites, magazines, and other materials related to video game studies can be accessed through the tabs to the left.

Students interested in studying video games should visit this page on Studying Games at U-M for more information on academic opportunities and courses offered at the University of Michigan.

* Konzack, L. (2007). Rhetorics of computer and video game research. In Williams, J.P. & Smith, J.H., The players' realm: Studies on the culture of video games and gaming. London: McFarland and Company, Inc.

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• Video Game Development Libguide Selected resources designed to assist those who are interested in computer and video game design, development, and programming.
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Current trends in research on how video games support or limit social-emotional learning

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Social and emotional learning (SEL) is a set of teachable competencies or skills considered fundamental to success in school and life (CASEL, 2021; Zins and Elias, 2007). Further, emerging neuroscience research on the brain’s malleability suggests that SEL skills are teachable (Delalande et al., 2019; Kral et ...

Keywords : socio-emotional learning, videogame, meditation game, slow game, well-being games

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The MIT Game Lab has a long history of innovative research that spans game culture to design practice. Below are some highlights of our work. See specific pages in the pull down menu for more detailed information on some of them.

Games & Colonialism

2017-: mikael jakobsson (co-pi), mary flanagan (co-pi).

What does the history of colonialism-themed board games look like, and what can it tell us about the situation today? What does it mean to present these historical moments in such a lavish form and then let these artifacts serve as centerpieces to gather around for social interaction at board game cafes, meetups, and conventions? This greater project includes Playing Oppression , a forthcoming book to be published by MIT Press; Orderly Adventures, in which we play and analyze games with colonialist themes; and Creating Counter-Colonial Games, a series of workshops to prototype games through cultural engagement with people affected by the colonialist endeavor.

Diversity and Inclusion in Esports and Gaming

2015-: t.l. taylor.

Launched in 2015, AnyKey was co-founded by Dr. T.L. Taylor and Dr. Morgan Romine (with support from Intel and ESL) with the goal of building a more inclusive and accessible esports world for all. Since that inception, AnyKey has become the leading advocacy organization for inclusion and diversity in competitive gaming & live streaming. It now operates as a non-profit and Dr. Taylor has transitioned from being the Director of Research to Chair of the Advisory Board.

Playful Augmented Reality Audio Design Exploration

2018-2019: mikael jakobsson & philip tan.

The focus of this project was to explore the potential of audio augmented reality (AR) technology through design research methodology, particularly exploratory prototyping. Going into this, we understood that location-based audio AR allows the potential for telling stories using the players lived world, through innovative use of the affordances of mobile phone devices, particularly GPS. We also considered audio AR as a means of playing with sound and music. Utilizing the accelerometers of the Bose AR glasses and connected mobile device, body movement can be linked to the players’ own music collection or a music generation engine.

Our work culminated in the discovery of what we are calling locomotion-based gameplay, a modification to the assumptions that occur when considering location- based gameplay. From our explorative work, locomotion-based gameplay arises from the affordances and limitations of current audio AR technology. It considers a person’s movement through space as important, more so than their precise location. Locomotion also implies whole body movement through gestures including the nod of a head and the tap of a toe, not just the vector of movement on a map. These gestures are ephemeral and contain multiple meanings dependent on context and mood. We believe more work in discovering this style of gameplay would be fruitful, for purposes of art and entertainment, for education and tourism, and other currently unforeseen use cases.

Intimate Worlds: Reading for Intimate Affects in Contemporary Video Games

2016-2018: kaelan doyle-myerscough (s.m., comparative media studies, 2018).

When we think of pleasures to be found in video games, we often talk about power, control, agency, and fun. But to center these pleasures is to privilege certain stories, players, actions and possibility spaces. This thesis uses the framework of intimacy to closely examine three games for their capacity to create pleasure in vulnerability, the loss of control, dependence on others, and precarity.

Drawing from Deleuzian affect theory and feminist, queer and posthuman theorists, I read for intimate affects in the formal, aesthetic, proprioceptive and structural elements of Overwatch , The Last Guardian and The Legend of Zelda: Breath of the Wild . Ultimately, I argue two points: that video games have a unique capacity to generate intimate affects, and that my games of choice push us to rethink our assumptions about what constitutes intimacy more broadly.

When All You Have is a Banhammer: The Social and Communicative Work of Volunteer Moderators

2016-2018: claudia lo (s.m., comparative media studies, 2018).

The popular understanding of moderation online is that moderation is inherently reactive, where moderators see and then react to content generated by users, typically by removing it; in order to understand the work already being performed by moderators, we need to expand our understanding of what that work entails. Drawing upon interviews, participant observation, and my own experiences as a volunteer community moderator on Reddit, I propose that a significant portion of work performed by volunteer moderators is social and communicative in nature. Even the chosen case studies of large-scale esports events on Twitch, where the most visible and intense tasks given to volunteer moderators consists of reacting and removing user-generated chat messages, exposes faults in the reactive model of moderation. A better appreciation of the full scope of moderation work will be vital in guiding future research, design, and development efforts in this field.

Recasting Player Two

2016-2017: mikael jakobsson, claudia lo, kaelan doyle myerscough, richard eberhardt & dozens of game designers from near and far.

The game development industry is currently on a mission to include “non-gamers” in local co-op games. Within the development community and among players, these games are said to have a “girlfriend mode.” Developers often cast player one as an expert player in their own image, while player two is a projection of antiquated gender stereotypes who has less agency and control over their play experience. This type of interaction would be better described as mansplaining in motion. This project consists of a series of workshops with participants from the game development community, where we not just discuss and spread awareness of what is problematic with current games and development practices, but work together in creating better alternatives.

OpenRelativity

2012-2016: gerd kortemeyer, philip tan, zach sherin, ryan cheu, & steven schirra.

OpenRelativity is an open-source toolkit to simulate effects of special relativity by varying the speed of light, developed to help people create, test, and share experiments to explore the effects of special relativity. Developed by the MIT Game Lab, it contains open-source code for public use with the free and paid versions of the Unity engine. The toolkit was developed during the creation of the game A Slower Speed of Light.

Gender and Systems of Warm Interaction in Digital Games

2014-2016: kyrie caldwell (s.m., comparative media studies, 2016).

This thesis considers the ways in which digital game mechanics (interactive inputs) contribute to games’ worldbuilding. In particular, this work is concerned with the replication and reinforcement of problematic gender roles through game mechanics that express positive (“warm”) interactions between characters, namely healing, protection, and building relationships. Characters who are women and girls are often associated with physical weakness, nature-based magic, and nurturing (or absent) personalities, whereas characters who are men and boys often protect women through physical combat, heal through medical means, and keep an emotional distance from others. Relationships built through game mechanics rely on one-sided agency and potential that renders lovers and friends as characters who exist to support the player character in achieving the primary goals of the game. Even warm interactions in games carry negative, even potentially violent and oppressive, representations and that there is thusly a need for design interventions on the mechanical level to mitigate violence in game worlds and the reinforcement of negative real world stereotypes.

E-sports Broadcasting

2014-2015: jesse sell (s.m., comparative media studies, 2015).

Situating e-sports broadcasting within the larger sports media industrial complex, discussing e-sportscasters, and investigating the economics behind the growing e-sports industry. E-sports, often referred to as competitive or professional gaming, stands as a prime example of the merger of work and play. A growing body of literature has started focusing on this pastime turned profession. As more professionals enter the scene and audiences continue to grow, e-sports broadcasters look towards older models of broadcasting to inform their own style. This reapplication of former conventions stands in contrast to the trends in the larger sports media trajectory. E-sports broadcasting is largely informed by traditional sports broadcasting, yet remains unable to fully capture the success of the global sports industry. On-air talent, once informed solely by traditional sportscasters are now looking to their fellow e-sportscasters to create something new. Revenue streams which form the foundation of the sports industry are making their way into e-sports but not in the way that one might expect.

MIT Overseer: Improving Observer Experience in Starcraft 2

2013-2015: philip tan & nick mohr.

The MIT Overseer project aims to provide casters with real-time graphics to help them tell the story of a game while it is in progress. We are trying out several different ways of displaying what happened in the past of a single game and anticipating what might happen in the near future.

Subversive Game Design and Meaningful Conflict

2012-2013: konstantin mitgutsch & steven schirra.

Movers & Shakers is used as a research tool to explore how a social component influences experiences in serious games. In addition subversive game design elements are implemented in the game to foster the players’ thinking process and to get them out of unquestioned routines. In the game the players are challenged to give up their prior egoistic goals to reach their common goal – to save the world. In a nutshell, the game shifts from a competitive to a collaborational gameplay – once the players start communicating.

Playstyle Motivation Explorations

2012-2013: todd harper.

Across game genres and communities, there are as many styles of play as there are players, from the highly competitive “powergamer” to the MMO fan who’s content to just take in the scenery and everything in between. Fugue is a game that asks: what are some of the motivations behind these styles? Do players reflect themselves — or a desired projection of the self — through playstyle? Or does the shape and context of the game itself direct such decisions? In order to explore these questions, we created a small, controlled gamespace that gives players an opportunity to express themselves via play.

Procedural Puzzles as a Design Tool for Games

2011-2013: alec thomson, clara fernández-vara.

Puzzledice is a set of tools and programming libraries for procedurally generating puzzles for a wide variety of games. These tools, developed by Alec Thomson at the MIT Game Lab from 2011-2013, are the result of multiple iterations of research and were used to develop Stranded in Singapore during the 2011 summer session of the Singapore-MIT GAMBIT Game Lab. Puzzledice is the result of research into how general purpose procedural puzzles can be used as a tool by game designers. These tools were designed to meet the following three goals: Solvability, Generality, and Usability.

Televisual Sports Videogames

2012-2013: abe stein (s.m., comparative media studies, 2013).

Over the three decade long history of sports videogame development, design conventions have lead to the emergence of a new sports game genre: the televisual sports videogames. These games, which usually simulate major professional or college sports, look and sound like television, and they use televised sports as a reference point for players. This thesis takes a critical look at how these televisual sports videogames are situated in the broader sports media industrial complex of North America, while also considering how the televisual design of these games is meaningful for fans of sports. Specifically, the text looks at how sports videogames reflect or reinforce dominant ideologies of hegemonic sports culture. Building on critical theories in sports studies, and through critical close readings of videogame texts, this thesis explores the relationship between sports television production, and sports videogames, with a focus on features that are found in both. Features such as introductory sequences, audio commentary, in-game advertising, news tickers, and instant replay are all commonly found in both sports television and sports videogames.

Purposeful Games for Social Change

2011-2012: konstantin mitgutsch & narda alvarado.

“ Purposeful Games for Social Change ” is a list of serious games designed to foster social change/justice or to raise awareness. This list was created in order to create the Purposeful Games Framework , a tool used to assess the cohesiveness in design of serious games.

Singapore-MIT GAMBIT Game Lab

The Singapore-MIT GAMBIT Game Lab was a six-year research initiative that addressed important challenges faced by the global digital game research community and industry, with a core focus on identifying and solving research problems using a multi-disciplinary approach that can be applied by Singapore’s digital game industry. The Singapore-MIT GAMBIT Game Lab focused on building collaborations between Singapore institutions of higher learning and several MIT departments to accomplish both research and development.

Research topics explored included artificial intelligence, game design, computer graphics and animation, character design, procedurally generated content, interactive fiction, narrative design, and video game production. Game prototypes were made for these research topics during the GAMBIT summer internship program, many of which won international recognition at festivals like IndieCade and the Independent Games Festivals held at GDC and GDC China, as well as academic conferences such as Meaningful Play and Foundations of Digital Games.

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What are serious games?

In some research about video games and gaming, you can see the term "serious games" or "serious play".  These are terms that are very familiar in the sciences.  However, the term  "serious games" can be confusing so what are serious games?

In Clinical Simulation (second edition), 2019, serious games are described as:

Serious games are video games aimed toward problem-solving rather than entertainment (see also Chapter 4: Virtual Patients and Serious Games). They use the same media as video games aimed at recreational play. However, serious games can help learners gain a good understanding of a specific topic and sustain the acquisition of complex competencies.

- The Many Faces of Simulation, Serious Games, https://www.sciencedirect.com/topics/engineering/serious-games

While many games can be used for educational benefits, serious games are their own subfield. These are games specifically designed to teach a new behavior or skill. 

Some examples of serious games are:

Darfur is Dying

That Dragon, Cancer

Futuclass Education

Microsoft Flight Simulator

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College & Research Libraries ( C&RL ) is the official, bi-monthly, online-only scholarly research journal of the Association of College & Research Libraries, a division of the American Library Association.

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Shannon L. Farrell is Natural Resources Librarian in the Natural Resources Library at the University of Minnesota Twin Cities; e-mail: [email protected] . Amy E. Neeser is Assistant Librarian, Library Research—Science and Engineering in the University Library at the University of Michigan, Ann Arbor; e-mail: [email protected] . Carolyn Bishoff is Physics, Astronomy, and Earth Sciences Librarian in the Walter Library at the University of Minnesota Twin Cities; e-mail: [email protected] ).

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Academic Uses of Video Games: A Qualitative Assessment of Research and Teaching Needs at a Large Research University

Shannon L. Farrell, Amy E. Neeser, and Carolyn Bishoff *

Academic libraries develop collections and services for scholars who use video games in teaching and research. However, there are no assessments of related information and technology needs. The authors conducted 30 semistructured interviews to gather data about these needs and understand how the University of Minnesota Libraries can facilitate access to games and technology. A total of 28 interviewees used games in research, and 23 used games in teaching. We identified a variety of information and technology needs; many showed strong disciplinary trends. The findings can inform needs-based multidisciplinary strategies to develop video game services and collections relevant to unique academic communities.

Introduction

Recent studies show that video games are ingrained in American culture and, increasingly, higher education. A 2015 Pew Research Center survey found that 49 percent of American adults and 67 percent of adults ages 18–29 play video games. 1 The New Media Consortium reported that games and gamification have several applications in higher education, as educational technology and components of blended learning. 2 A search for “video games” in major article indices finds game technology used in diverse research areas.

College and research libraries share a vision of exceptional services to motivate and facilitate cutting-edge research and student learning 3 and have proactively supported scholars using and experimenting with video games. Librarians frequently collaborate with faculty and students to create game collections and interactive spaces for research, teaching, game development, and play. Despite this, there are currently no multidisciplinary assessments that provide an overview of the information and technology needs required by scholars working with video games. Some disciplinary-specific needs are understood, such as the needs of game design programs and curricula, but most information on needs is based on anecdotal evidence.

The University of Minnesota (UMN) is a large, doctoral-granting research university. The Twin Cities campus includes more than 4,000 faculty and 52,000 students, 16 colleges, and more than 300 research, education, and outreach centers and institutes. There is no video game design program or department, but there are a number of research faculty, teaching faculty, and students who use video games for academic purposes. To understand the diverse uses of video games across disciplines, we conducted semistructured narrative interviews of faculty, staff, and graduate students who use games or gaming technology in their work. This paper explores the information and technology needs of scholars who use video games on the UMN campus, similarities and differences by discipline, and how college and research libraries can incorporate disciplinary needs into a strategic approach to video game services and collections.

Literature Review

Many academic libraries recognize that scholars using video games for research and instruction have unique information and technology needs. In 2008, Smith 4 called for a better understanding of game scholars’ information needs, research methods, and types of materials they require, but there are three challenges to understanding those needs on a large scale: lack of information on conducting a comprehensive needs assessment of academic video game users, scarce information about research and teaching needs related to video games, and little information about how unique disciplinary or institutional needs affect a game-related collection or service.

Most library literature on games focuses on recommended genres and equipment 5 or the specifics of acquiring, cataloging, and circulating games. 6 Descriptions of video game collections and services often include a process to gather input; but none of these articles go into detail about the methods or findings, nor do they share a specific plan for how faculty and students would be consulted as technology, research, and classroom needs change.

Laskowski and Ward provide the most thorough overview of classroom and research needs and areas the library can support. 7 They note three primary needs for game-related classes at the University of Illinois Urbana-Champaign (UIUC): access to labs with high-powered PCs, availability of course reserves, and access to discontinued games. They propose a variety of needs for game design classes and surmise that those classes would benefit from close liaison partnerships. The research needs they identify all relate to analyses of gameplay, and they propose archiving gameplay videos with player commentary. Since then, game technology has evolved and these recommendations are worth updating.

Many academic libraries have new game collections since the publication of these foundational articles, and descriptions of these collections provide the most up-to-date understanding of the evolving academic uses of video games. It is well recognized that researchers and instructors who use games come from many different disciplines, including education, economics, and the humanities. 8 Some libraries developed partnerships with one department or discipline, such as education 9 or the arts. 10 Librarians managing the game collection at the University of Chicago (UChicago) intend to serve a wide population, from music to media studies to computer science. 11 UChicago also has strong faculty advocates who identified many potential users on campus. 12 Game collections at the University of Michigan 13 and Carleton University 14 likewise support a range of courses and research interests from the sciences to the humanities.

Despite the variety of potential users, there is less documentation about how a library game collection reflects the disciplinary or departmental information and technology needs at a particular institution. The information available shows a surprising amount of consistency across academic game collections: most libraries collect commercially successful games to play on consoles, such as the Playstation 3 or XBox 360. UIUC, 15 the University of Michigan, 16 and the University of California Santa Cruz (UCSC) 17 have vintage games and game systems available. Though personal computer (PC) games are recognized as an important genre to collect, 18 it was difficult to determine if any academic libraries collected PC games or provided hardware to play them. Carleton University is one of the few that does. 19

There are similarities among the themes of many game collections. Collections at Virginia Commonwealth University (VCU), 20 UChicago, 21 and the University of Michigan 22 all represent the history of video game development and the evolution of games through time. Many academic game collections also focus on acquiring current releases. 23

Some libraries have unique aspects to their collections. For example, VCU collects games specifically for users in the arts. The arts librarian looks for “games that have certain aesthetics … have significant artistic direction, unique narrative or cerebral gameplay.” 24 Some libraries plan to expand beyond console games, including UChicago; a faculty member from English hopes that “computer and mobile games” are eventually added to the collection. 25 At least two libraries make game development software available: the University of Calgary game resources include “six high performance (liquid cooled) gaming PCs” with software packages including Unity and several Autodesk products; 26 and Carleton University had requests for software including Poser Pro. 27

As affordable game technology evolves, libraries take steps to stay up-to-date with new research and teaching applications. Commonly, academic libraries rely on subject librarians to stay aware of research and instruction trends, and that is no different when video games are involved. 28 Another strategy involves direct faculty and student input, which often happens during the initial development of video game collections. 29 However, some collections are built from donations and gifts like at the University of Calgary; 30 a for those, the relationship between the collection and local research and teaching needs is less clear. Some collections accept donations for a particular purpose: the University of Michigan Computer and Video Game Archive (CVGA) accepts donations and purchases games to create the most comprehensive collection possible, while also collecting in targeted ways to support faculty and student activities. 31

No literature to date provides a comprehensive overview of the information and technology needs of academic video game users. Many universities rely on a handful of faculty advisors to understand needs on campus; UIUC consulted a faculty member and hosted a game night for students to gather input; 32 Carleton University similarly “crowd-sourced” input for their game collection from faculty, students, and library staff, though they did not describe their methods. 33 At UChicago, faculty advocates assisted directly with the development of the collection. 34 The University of Michigan LibGuide for the CVGA provides the most comprehensive list of courses, research, and faculty who have used the CVGA on their campus, but the list is intended to inform students and potential users, not provide an overview of trends about research and teaching needs or inform collection and service development. 35

This paper explores the information and technology needs of games scholars at UMN Twin Cities and how libraries can accommodate disciplinary needs and help overcome barriers to academic work related to video games.

We formulated the following research questions:

• Which disciplines are represented among UMN scholars who use video games?
• Do UMN scholars who use video games collaborate outside their disciplines?
• What are the information and technology needs for game-related research and teaching at UMN?
• Are there similarities in the information and technology needs of researchers and instructors using video games, despite disciplinary differences?
• If obstacles are identified, how can libraries help researchers and instructors overcome them and enhance their work?

To answer these questions, we identified scholars at UMN who work with video games or video game technology. This was defined broadly and ranged from using games as an object of study to using the technology to study a separate problem. We excluded researchers studying “game theory” (a mathematical concept) or studying analog games such as board games or logic puzzles because our interest was in needs related to video game technology.

We used a number of methods to identify a population of faculty, staff, and students. SciVal Experts, a research profile system used at UMN, identified 62 people who had published on video games. The SciVal Experts system does not include all UMN scholars, and the database best represents disciplines that use journal articles as their primary means of scholarly communication, so we also conducted searches of the UMN website to find mentions of video games in biographies, research statements, or classes. Word-of-mouth also played an important role: we asked librarians at the UMN for recommendations and used snowball sampling to find additional names from those we interviewed. Through these combined methods, we obtained 92 total names, which we considered an exhaustive list.

A qualitative approach was most appropriate, as opposed to a survey, since it allowed participants to drive the conversation and focus on topics important to them. Since we did not have personal connections to those doing video game–related work at UMN, interviews had the additional advantage of building new relationships. We sent invitations to conduct hour-long, semistructured interviews to our sample of faculty, staff, and graduate students. Those who responded were interviewed at a location of their choice. Those who did not respond were sent a follow-up invitation two weeks later. Of the 92 names in the original population, 30 people agreed to be interviewed, 20 declined, and 42 did not respond.

Each interview was attended by two members of the research team and was audio recorded with the interviewee’s permission. We asked guiding questions, but the interviewee led the conversation. Instead of transcribing each interview, we used a Google form to code data from the audio (see appendix for codes and definitions). We used a controlled vocabulary to code most topics and captured quotes and observations with free-text responses. To make sure that different coders maintained a level of consistency, we reviewed the audio from the first 15 interviews in tandem and resolved disputes with the codes and analysis methodology. We then assigned a single reviewer to the final 15 subjects.

We took measures to ensure participants’ anonymity by assigning each participant a random number, coding participants by discipline instead of department, and using generic titles (such as untenured faculty) in place of official positions. These methods were approved by the UMN Institutional Review Board on October 17, 2014.

We identified 92 people from four broad disciplinary groups: arts and humanities, social sciences, science/technology/engineering/math (STEM), and health sciences (see table 1). We interviewed 30 people from this population, an overall response rate of 33 percent. The interview sample overrepresented the STEM population, which had a 52 percent response rate, and underrepresented health sciences, which had a 19 percent response rate (see figure 1). It also overrepresented graduate students, who had a 46 percent response rate overall. Participants were split almost evenly between graduate students (13) and faculty/staff (17). It was also noteworthy that the largest number of interviewed graduate students (in both frequency and percentage of total) occurred in arts and humanities (5).

Interdepartmental collaboration was defined as a relationship, formal or informal, between an interview participant and a member of another department. Both formal and informal collaboration were considered: formal collaboration was defined as a relationship based on an externally recognized partnership, such as a project, grant, coauthorship on a manuscript, or serving as an academic advisor or dissertation committee member; informal collaboration was defined as unofficial or casual partnerships based on consultations, conversations, and friendships that contribute to academic work. These data were used to determine whether an interviewee’s work was confined to a single department or discipline or whether he or she had potential connections outside the interviewee’s home department. We found high levels of interdepartmental collaboration in all disciplines (see figure 2). One third of interview participants (10) reported three or more interdepartmental relationships, including an untenured instructor in arts and humanities who collaborated with faculty and students across five different departments in arts and humanities, STEM, and social sciences. A total of 20 percent of participants (6) reported no collaboration or no collaboration outside their departments, including an untenured instructor in STEM who only collaborated with graduate teaching assistants in his department. Interviewees from arts and humanities were the only group where all interviewees reported collaborative partnerships.

The majority (21/30) of interview participants used video games in both research and teaching (see figure 3). Most participants conducted research with video games (28/30). About a quarter of interviewees (7), most from STEM and health sciences, used games solely in research, including a graduate student in STEM who received funding for research and did not teach. Five categories of game-related research emerged from the interviews (see figure 4). Interviewees who conducted research on the development of games or technology typically produced software or algorithms that could be used in games or developed games based on existing technology. Researchers who used games as instrumentation modified game technology to collect quantitative data or used video games as a cheaper alternative to another analogous instrument they could have purchased. When games were used as an object of study, researchers often applied critical analysis or theory to a video game as they would another text or primary source. When games were used to study influences on people or society, the researcher typically used qualitative methods to examine some societal impact of games. Finally, games were studied by some for their educational applications and impact on student outcomes. Some interviewees used games in more than one way, such as a graduate student in arts and humanities who studied video games as both a cultural object and a cultural influence. Similarly, an untenured faculty in STEM researched video games as an educational technology while also examining their social influence. Each discipline was represented in 3–4 research application categories. At the same time, strong disciplinary research trends were present and each category was dominated by a single discipline, with the exception of educational technology. Educational technology applications primarily included testing games and game-based learning principles in the classroom.

Fewer people used video games in teaching (23/30) than in research, but interviewees who taught with games most often used them in research as well. For example, a tenured faculty researched the effectiveness of a mobile game to create and grade assignments and used the same game in several of his courses. Only two individuals used video games solely in a teaching capacity, including an instructor in STEM who had no research responsibilities. Four categories of teaching applications emerged from the interviews (see figure 5). Some instructors designed games from scratch for students to use in the classroom. Other instructors taught game design principles sometimes using commercial games and sometimes requiring students to create their own games. Games were also used as course material, analogous to texts or other primary sources: instructors assigned games in the syllabus or had students watch videos of others playing through a game. Finally, instructors discussed games, game mechanics, or their own research on games in the classroom but may not have assigned games to students to play in the course. Similar to research applications, some interviewees used games in the classroom multiple ways, like an untenured faculty in STEM who taught game design and also used video games as course material. Every disciplinary group used video games as course material and as a discussion piece in class. Some teaching applications were more common in particular disciplines; 4 of 8 STEM interviewees designed a game for their classes and 5 of 6 from the social sciences used games as course material. Overall, disciplinary trends were far less distinct. Table 2 summarizes the data from figures 3–5.

Among the interviewees, 18 types of information were used (see table 3). Arts and humanities participants used the most information sources (13), while STEM participants used the least (6). Video games were used as primary sources by interviewees in arts and humanities and social sciences, including a tenured faculty in the social sciences who studies game symbology. Interviewees from all disciplines used colleagues, web sources, journals and Google Scholar. Dominant information sources emerged from each discipline: arts and humanities, journals and web sources (see figure 6); social sciences, journals (see figure 7); STEM, colleagues, journals, and Google Scholar (see figure 8); and health sciences, colleagues (see figure 9).

Participants identified 17 unique technology needs (see table 4). The following technology categories emerged: equipment, games, programming languages, servers, software, and web applications. Equipment included any type of hardware, from game consoles like Xbox or PlayStations, to mobile phones or personal computers (PCs). PCs were the most common piece of equipment identified as required by the whole sample, but peripherals (accessories such as game controllers) were the predominant type of equipment mentioned by participants in the health sciences. For example, a Wii balance board was used to study involuntary bodily movements. Only five interviewees used console system equipment (see figure 10).

Games referred to all types of playable software, and four categories of video games emerged: PC games, played on a computer and often accessed through a platform like Steam, were the most common, followed by console games (played on a console) and web games (played through an Internet browser); mobile games (played on a phone) were the least common. Arts and humanities and social sciences participants had the strongest need for games, and they use the widest variety of platforms. For example, a graduate student in arts and humanities uses PC, console, and mobile games to study music, and a graduate student in the social sciences uses web, PC, and console games to study representations of bodies. Social sciences have the largest use of web-based games, used by 3 of 4 interviewees. Only 1 of 11 STEM participants used video games in his or her academic activities (see figure 11), a graduate student studying a prominent massively multiplayer online role-playing game (MMORPG).

Software as a category excluded video games but included almost any other type of digital application that a researcher or instructor identified as necessary to his or her work. The subcategories were chosen with collection development needs in mind; proprietary software would likely come at a cost and include access restrictions, while open source software would be more accessible for any library or user to install. Other categories of interest included custom software, which was usually designed by the researcher or instructor and might not be widely shared or available, and game design software. Game design software might overlap with one of the other categories: some interviewees used Unity, an open source game design software; some used the Unreal engine, which at the time of the interviews cost money to download and was not open source; and some built custom game design software of their own. STEM participants had the most software needs overall; and, as a group, both STEM and health sciences interviewees reported using some type of software from every category (see figure 12). However, the needs were diverse among individuals: a graduate student in STEM used proprietary robotics software and a tenured faculty member in STEM used open source software to teach programming. Arts and humanities interviewees overall did not report many software needs; only 1 of 7 interviewees described any software needs at all. However, members of every disciplinary grouping did report a need for proprietary software.

Some technology used by the interviewees in this study was free or provided by the university, like a personal computer, but many technology needs required some financial resources to fulfill. To determine how interviewees currently met their technology needs, we asked about the specific methods they used to acquire technology. We split the results on technology acquisition into two categories: graduate students and faculty/staff (see figures 13 and 14). Tenured and untenured faculty and staff were combined because the methods of technology acquisition were very similar for both groups. Graduate students used many strategies to acquire technology, including borrowing from others or using their own personal property. For example, one graduate student in the social sciences used free technology, borrowed games from others, made purchases, and still did not have all the technology he needed. On the other hand, faculty and staff primarily purchase technology. One faculty member in health sciences said, “I usually have a couple thousand bucks in my ICR [indirect cost recovery] account… that’s more than enough to pay for the kinds of things we’ve been talking about [plasma screen, Xbox 360, games].” This trend holds true regardless of tenure status. Faculty and staff in STEM are using more freely available technology when compared to the other disciplinary groups. If the faculty, staff, or students had not yet acquired the technology they planned to use, those responses appear as “other.” Faculty planned to either create the technology themselves or hire someone to create it, while graduate students were still considering their options.

Funding sources differed significantly by status, and untenured faculty and staff are shown separately from tenured faculty and graduate students (see figures 15–17). In general, graduate students and untenured faculty and staff relied on a variety of methods for funding compared to tenured faculty. In arts and humanities and social sciences, many graduate students paid out-of-pocket, such as a graduate student in arts and humanities who was unable to get funding for game skins (armor, clothing, and the like), which were required for his dissertation research. In STEM, graduate students received some funding from grants, but that was not the case for graduate students from other disciplines (see figure 15). Tenured faculty mostly got their funding from grants (10 out of 11 in our sample), with some additional support from ICR funds, departmental funds (funding providing by a researcher’s or instructor’s department), and new technology funds (funds provided by the department, college, or university to acquire technology) (see figure 16). Unlike graduate students, tenured faculty did not pay out-of-pocket costs. Health sciences’ tenured faculty illustrated a depth of funding sources. Although there were only three participants in our sample, they had six sources of funding. One example is a tenured faculty member who had both an external grant and used department funding. Untenured faculty and staff appear to be seeking multiple sources of funding (see figure 17). For example, in arts and humanities, an untenured instructor was funding his work with a grant, departmental funds, and his own money. Figures 18–21 summarize the data from figures 13–17 and organize it by discipline.

Research Limitations

This research had several limitations. If an eligible participant did not mention his or her work with video games on a staff profile page or in publications, or if the participant was not located through recommendations or snowball sampling, he or she was not included among the population of 92 UMN game scholars. The interview data was more limited in scope because some eligible participants were away on sabbatical, did not respond to invitations, or declined an interview.

The exploratory nature of this study limits the generalizability of the findings. However, despite being limited to this one research context, the size of the institution and broad range of disciplines and activities covered in this study provide a rich starting point for future research and the development of library services aimed at these types of researchers. Librarians serving game design or game development programs may observe different needs from those identified in this study because UMN does not have a dedicated game design program.

The open-ended, semistructured nature of the interviews resulted in rich and diverse data that posed some problems when categorizing findings and ensuring anonymity. We used broad codes and categories to capture as much data as possible while also maintaining anonymity, resulting in some loss in the granularity of the data. Additionally, determining how to assign disciplines to interviewees to maintain anonymity was challenging. For example, depending on the context, History can be considered a social science or part of the humanities as it is “multifaceted and diffuse.” 36 We chose to place it in arts and humanities because the researchers interviewed were primarily studying video games as cultural objects instead of the impact on society or human behavior.

Finally, some of the subjects discussed were sensitive (for example, institutional barriers to completing work or acquisition of funding) and some participants felt apprehensive about sharing information. Therefore, the data only represents what interviewees shared “on the record.” Occasionally, the interview location could have inhibited participants (for example, one interview occurred in a public location and two interviews occurred where interviewees’ colleagues were present). However, we have no reason to believe that interviewees concealed information or provided untruthful answers; in the cases where subjects spoke “off the record,” they were candid and honest about challenges with their work.

Demographics and Collaboration

Four disciplines were represented in both the larger population of game scholars and our sample of 30 interviewees. All but one interviewee identified strongly with a single area of study, usually the person’s department or area of research. No single department or discipline dominated; video games were used institutionwide.

Most interviewees had strong disciplinary ties and also had strong patterns of collaboration outside their departments. Collaboration was common for those we interviewed regardless of discipline. We anticipated a higher frequency of collaboration in STEM and health sciences because previous studies showed high levels of formal collaboration in these disciplines, 37 but this did not bear out in the interview sample. Collaborative partnerships took the form of coauthorships, collaborative conference presentations, and participation on doctoral committees, as well as many informal collaborations. Informal collaborations were also commonly described by interviewees and included professional friendships, relationships with advisors and committee members, pilot projects, and interest groups.

These data on collaboration are useful to keep in mind while discussing disciplinary trends around information and technology needs. Widespread collaboration on game-related projects and other projects suggests a need for cross-departmental and cross-disciplinary collaboration among librarians on collection development and the creation of services. Some libraries that invested in game technology do serve a range of users and disciplines, 38 but other prominent collections of games and game technology in academic libraries were driven by the needs of only one or two departments. 39 Awareness of the collaborative partnerships that exist could help libraries go beyond serving one student, class, or researcher at a time, and investments in game technology have the potential to support the work of whole networks of researchers and instructors. Explicit library support of collaborative work with video games could even give fringe projects and new collaborations a space to intersect and thrive. At UMN there is the potential for many departments and subject librarians to guide the development of a possible video game collection, and this would require a very collaborative approach to collection development.

Academic Use of Video Games: Research and Teaching

Video games were commonly used in research across all four disciplines represented in our sample. This confirmed a need for the collection development practices of universities such as UChicago, 40 University of Michigan, 41 and Carleton University, 42 which accommodated users from multiple disciplines.

We did not anticipate how common video games are in classrooms, since published information about game-related courses only identified a handful of classes at any comparable institution, unless they were focused on game design. Additionally, very few course descriptions in the UMN course catalog mentioned video games, and, of the game-related courses we found during our initial searching, most were in the social sciences or arts and humanities. We did not expect so many STEM and health science classes to integrate games as well. In fact, the use of video games in classes was present within all the disciplines, especially in introductory undergraduate courses and upper level seminars. The course descriptions were often vague enough to give the instructor leeway in how to develop his or her individual section, and those who wished to incorporate games could do so. Some departments even encouraged game-related classes due to consistently high enrollment.

Most people in our sample incorporated games into both their research and teaching. We suspect that having a research interest in games may make it more likely for them to incorporate video games into the classroom as well. This may explain why only two people in our sample were using video games exclusively in the classroom.

Overall, knowing how scholars are using video games and gaming technology on campus formed the backbone of this needs assessment. Any effort to provide library support for video game–related work will impact both research and classroom/student needs. Since we know that most scholars are using games in both research and teaching capacities, the support of this work may have double the impact.

Role of Video Games in Research and Teaching

There were clear disciplinary trends in the types of research done with video game technology. The development of video games primarily occurred in STEM, while video games were most often used as a text or an object of study in arts and humanities research. There were also some strong similarities among the disciplinary groups. At least one interviewee in every discipline conducted research that studies “educational technology” or “the influences on people and society.” Since video games were used by different disciplines in different ways, the type of support the library offers should not be done through the lens of a single department or discipline, and a variety of materials need to be available for many different applications including development, study, and experimental design.

Disciplinary differences were more difficult to discern when examining the role of games in teaching. Many classes were new or were only offered once; even so, teaching game design or designing games from scratch occurred not only in STEM but also in social science and arts and humanities classrooms. Incorporating game technology as course material was common, and interviewees identified a number of different ways in which games were used: readings, storytelling devices, and technology in labs. Students were impacted by these course requirements as well. Many interviewees described accommodations for students who did not own a console or a computer equipped to run graphics-intensive games, but some required students to figure out how to access the games on their own (such as via a personal account on the Steam game distribution system). 43

Game design was taught in four classes from three disciplines, which was unexpected because there is no game design program or certificate at UMN. Supporting classes that incorporate game design would be easier if they were all in one area of study, but a subject liaison might only be aware of the one class in his or her discipline. Regular environmental scans might be needed to uncover common technology and material requirements for classes across disciplines for courses that use video games and other emerging technologies.

Information Needs

The most commonly used information sources were Google Scholar, journals, and web sources. The interviewees in the social sciences and arts and humanities were the strongest users of “traditional” library materials such as books and journals. Several interviewees described having to acquire the majority of their texts through interlibrary loan (ILL) because their library did not have the journals or books they needed. Libraries need to review collections in this and other emerging areas to minimize the need for backchannels and shortcuts.

Colleagues were the single most common source of information for interviewees, especially in STEM and health sciences. In one case, a project in health sciences was developed entirely with information and skills contributed from existing relationships. The frequency with which interviewees in this sample collaborate outside their department emphasizes the importance of colleague networks in new and emerging areas. Libraries cross departmental and disciplinary borders and can cultivate a role as a connector for scholars doing similar work in different subject areas with events, experimental technology space, or other strategies.

Libraries should pursue partnerships with existing video game archives and other libraries or investigate shared collection development efforts to help researchers and the public overcome barriers to accessing game-related information sources. Interview participants identified video games as both a kind of technology and a type of information. Games are available in some academic libraries and public libraries, but it is unclear how accessible they are outside their immediate communities or institutions through ILL. Game manuals and trade magazines like Nintendo Power were also used by several interviewees. Public libraries typically collect trade magazines but, according to Worldcat, many often only keep the last 1–2 years. Locating game manuals is even more difficult, as they typically lie only in the hands of hobbyists and collectors. A search on Worldcat shows that relatively few libraries have holdings for either game magazines or manuals, raising the question of how libraries can facilitate access to these materials.

The depth and variety of sources used makes it clear that libraries cannot be the sole gatekeepers of information on this subject. The people in our sample used subscription journals but also ephemeral, noncurated materials (such as game manuals, gaming websites, and streaming games). Other library resources like subscription databases were not as valuable for most interviewees, possibly because they are too narrow in scope or interviewees are simply not aware of them. Rather than collect all of the sources scholars need, libraries can create guides to help scholars locate these materials elsewhere, akin to the University of Michigan CVGA LibGuide. 44

Technology Needs

Interviewees’ needs for devices, displays, and peripherals show no disciplinary trends. Investing in a range of equipment would benefit the largest range of users at UMN. Arts and humanities and social science scholars had a greater need for video games, while those in STEM and health sciences had more software needs. In fact, only one person in STEM identified games as a need, and only one interviewee in arts and humanities used software of any kind.

Disciplinary trends ought to factor into decisions related to purchasing and marketing game technology. For example, at UMN, subject librarians and users in the arts and humanities and social sciences disciplines might be primarily responsible for selecting game titles. Subject librarians for STEM and health sciences should weigh in on video game software selection, since usage would be most expected from STEM and health sciences disciplines.

Among our interviewees, the PC was the most common technology necessary to research and teaching. PCs are necessary to academic work, but there was some nuance to how interviewees used them. PC games are used almost as much as nearly all other types of games combined (console, mobile, and web-based). Mobile games are a growing industry, 45 but they are not used heavily on this campus for academic purposes. Other technology needs are tied to PC games as well; PC accessories, most often graphics cards, were the third highest need in the equipment category. PC games do not require much additional technology besides a computer (unless a powerful game requires faster processing or graphics cards), so they may be more attractive to the researchers and instructors from arts and humanities and social science, who make up the majority of game users. Guidance on collecting PC games is limited, since few academic libraries currently collect them. Most libraries with game collections and services collect console games almost exclusively, likely because console games do not have restrictive digital rights management (DRM) or require an account to play and are easier to collect and lend.

Peripherals were a common technology need, especially in health sciences. Interviewees shared a diverse range of applications for peripherals that have nothing to do with consoles: to control robotics, play PC games, and modify to use as instrumentation. Interviewees also preferred them for their low cost and ability to interface with a number of technologies. Since they are flexible and relatively cheap, libraries and makerspaces could provide a variety of peripherals (with or without consoles) for on-site use or rental.

Acquisition of and Funding for Games and Gaming Technology

In general, interviewees found they could purchase games or technology at stores or online but did not always have funding to do so. The acquisition of games and video game technology was intrinsically tied to funding, which was mentioned as the largest barrier to acquiring technology.

Graduate students used a variety of creative strategies to acquire technology (such as using their personal game collection, borrowing from friends, and other means), whereas faculty and staff simply purchased technology with grants or other funds as needed or used freely available games and technologies, such as online emulators. Graduate students may have less funding available, or they do not know how to access existing funding. The majority of graduate students, all from the social sciences and arts and humanities, were paying out-of-pocket.

Graduate students had the same technology needs as faculty and staff and conduct their own research, often independent of their faculty advisors and any associated funding. STEM graduate students were the only ones receiving grants or new technology funds. We argue that graduate students would be the primary beneficiaries of having video games and technology available, as this would break down disciplinary acquisition and funding barriers. Underfunded graduate students are probably not unique to UMN; and, if libraries made these games and technologies available, graduate students would have much more flexibility in their research. The arts and humanities students who purchased video games out-of-pocket likely used the games as primary research materials, analogous to texts. Since many libraries purchase books for research, it should be easy to purchase games for analogous reasons.

Libraries can also help connect graduate students with funding. Many academic units at UMN provide grants to fund graduate research, and the UMN Libraries subscribe to grant databases and offer workshops on locating grant funding. Since graduate student research is highly valued, it makes sense to assist them in their efforts to acquire game technology by building their grant-seeking skills.

Even though faculty and staff theoretically have the same opportunities for funding, untenured faculty and staff seek more sources of funding to meet their needs, whereas tenured faculty receive most of their funding from grants. Startup packages supported three untenured faculty from STEM and the health sciences, and one staff member reported having to pay out-of-pocket to buy games for classroom use. Faculty and staff for the most part were successful in finding funding to purchase the required technology, but making materials available at the library would put less pressure on faculty and staff to acquire them in other ways and would give them an option to use their funding for other purposes.

Collections in the UMN Libraries are focused primarily on meeting faculty research and teaching needs, as faculty tend to stay at the university longer than students. We recognize that these data could suggest that faculty and staff do not have many barriers to accessing technology and that it is neither necessary nor urgent to include video games and video game technology in library collections. It could also be argued that grants and other funding sources already pay for research and classroom needs and that libraries are not in the business of directly funding research costs like instrumentation, experimental design, or technology development. However, many faculty we spoke to welcomed a chance to collaborate with librarians whether or not the library could directly support their research. Some faculty incorporate games into their outreach service, and many have classes that would benefit from the availability of game materials. We also argue that libraries have a great opportunity to engage with graduate and undergraduate students who want to experiment with games before personally investing in the technology.

By focusing our study on researchers and instructors, we have missed the opportunity to explore implications for students taking classes that incorporate games and gaming technology. What we know came solely from the instructors’ viewpoints; therefore, we do not have a comprehensive picture of how these technologies were made available to students or if they encountered barriers to accessing them. In some classes the game technology was provided, like a health sciences class where Wii balance boards were available to take measurements; but, in another case, students were expected to purchase World of Warcraft and install it on their PCs. Some instructors did note that requiring students to purchase video games may be prohibitive and not directly analogous to purchasing textbooks, as it requires students to own consoles or a high-powered PC that supports gaming. Some attempted to find alternative solutions such as asking the UMN Libraries to install games on library computers and investigating Steam licensing for computer labs. It would be worthwhile to interview students from some of these classes to uncover if they encountered any barriers in attempting to access these technologies.

There is little data available about the information and technology needs of researchers and instructors who use video games in higher education. This study attempted to fill that gap with interviews with faculty, staff, and graduate students from UMN. Scholars from all disciplinary groups were represented and demonstrated both a high level of collaborative activity and use of video games in both research and teaching. As libraries build new video game collections or expand existing collections, they should consider the following findings:

• Information used in game-related research and teaching includes nontraditional material such as trade magazines and game manuals. Journals were the most common source of information identified overall, but some essential titles may not be collected or indexed in library catalogs.
• Video games are most often researched as an influence on society and having a role in educational technology. This research is diverse and may have vastly different needs.
• Video games are commonly used as course material in courses from all disciplines, but console games may not be used as frequently as PC games.
• All of the interviewees needed game-related technology, though there was much variation among the disciplines: arts and humanities and social sciences required video games; STEM required software; health sciences required peripherals.
• Graduate students, especially those from arts and humanities, are at a major funding disadvantage compared to colleagues in the sciences. This impedes access to game technology required for research and teaching and often requires them to pay out-of-pocket.

This study found some consistency in video game applications between disciplines but even more differences, especially in technology and information use. This suggests that the support libraries provide should be done collaboratively through a multidisciplinary lens. We propose a strategic approach to video game services and collections focused on disciplinary needs. For UMN, this would mean building a collection focused on PC games, a few console games, cutting-edge equipment with game design software, and a collection of peripherals with or without consoles, perhaps associated with a makerspace. Each academic game collection should reflect its institution, based on an evaluation of the unique needs of its population.

Since this study was limited to the UMN campus, we would like to see similar studies undertaken at various institutions that look at how students use and acquire games for classroom use, as well as a large-scale multi-institution look at the use of games in higher education. As technology changes and moves away from physical media, academic institutions will benefit from studies looking at the impact of DRM on scholarship and libraries. Very few video game companies have partnerships with higher education, and more exploration of this issue is needed. These studies would provide a more complete understanding of scholarly video games–related work and scholars’ information and technology needs.

APPENDIX. Interview Themes, Codes, and Definitions

• Graduate student: both master’s and doctoral students
• Untenured faculty and staff: assistant professor, instructor, postdoc
• Tenured faculty: associate professor, full professor
• Arts and Humanities: includes any field where the human experience and expressions or explanations thereof are the primary objects of study. History is included here because the interviewees study video games and texts and consider the games as the object of study
• Health Sciences: medical, kinesiology, and related disciplines
• Social Sciences: includes any field where humans are the primary object of study
• STEM: includes disciplines from science, technology, engineering, and mathematics
• Formal collaborations: working on a project, publishing a paper, working on a grant together, serving as an academic advisor or member of a thesis or dissertation committee
• Informal collaborations: talking to/with people, sharing ideas
• Both: a combination of both formal and informal collaborations
• Intradepartmental: work alone or only collaborate within their own department
• Interdepartmental (1–2): between 1–2 collaborations outside their own department
• Interdepartmental (3+): 3+ collaborations outside their own department or split positions between departments
• Development of games/technology: researcher has created the video game or associated technology
• Instrumentation: using video games to gather quantitative data
• Object of study: using critical analysis or thematic study of video games
• Influences on people or society: researcher is examining the societal impact of video games
• Educational technology: using video games to facilitate learning and improve student outcomes
• Undergraduate: lower-level classes, primarily for those pursuing their bachelor’s (1xxx–4xxx)
• Graduate: upper level classes, marketed toward master’s and doctoral students (5xxx–8xxx)
• Instructor designed a game: instructor created a video game for use in the classroom
• Taught game design: instructor taught students how to design their own games
• Used games as course material: video games were studied in the classroom, as primary sources
• Discussed games: video games were used in the classroom as secondary sources
• Other: any other response that did not fall within the above categories
• Borrowed/given: the material was owned by someone else and the researcher or instructor acquired from them
• Purchased: the material had to be purchased by the researcher or instructor either out-of-pocket or with other funds
• Already owned: the instructor or researcher previously owned the material
• Freely available: available at no cost to consumers
• Grant (general): acquired funding via another organization to pursue their research or teaching projects
• New technology funds: funds provided for the explicit purpose of acquiring new technologies
• Seed grant: initial capital to start a project
• Department funds: funding provided by researcher’s or instructor’s department
• Dissertation fund: funding provided by graduate student’s department or graduate school to support dissertation research
• Startup package: new professor was provided with funding to set up a lab
• Indirect cost recovery (ICR) funds: funds that the university collects to cover overhead costs when grants are written. A portion is returned back to departments
• Out-of-pocket: the instructor or researcher had to use personal money to cover the cost
• MNDrive grant: grant allocated via partnership between the UMN and the state of Minnesota that provides funding in areas of interdisciplinary research that align with specific industries
• Not required: no funding was required for this research or teaching
• Equipment, console: consoles, such as Xbox 360, Xbox One, PS3, PS4, Wii, WiiU, or any other
• Equipment, controllers, and peripherals: secondary equipment for the gaming systems listed above, including controllers, Wiimotes, headsets, Xbox Kinects, Wii balance boards, steering wheels, and the like
• Equipment, mobile: smartphones, tablets, and other mobile devices, including iPhones, iPads, and such
• Equipment, display: equipment used to view video games, including television screens, computer monitors, or any other display equipment
• Equipment, personal computer: includes Mac, Windows, and Linux systems
• Equipment, personal computer accessories: secondary equipment for PC gaming, including joysticks, controllers, headsets, webcams, and other equipment
• Games, web: games that are available through a browser or browser-based emulator, or for download online
• Games, PC: games purchased to play on personal computers
• Games, console: games purchased to play on consoles
• Games, mobile: games that are available on smartphones or tablets
• Programming languages: computer language used to communicate instructions to a machine, including C, C++, Java, Javascript, Python, and other languages
• Servers: computers or programs that manages access to a network resource
• Software, proprietary: software that must be purchased from the individual or company that developed it; often includes major restrictions for adaptation and use
• Software, free or open source: software that is available for free, typically on the web; often allows users to modify or adapt as needed
• Software, custom: software written by the researcher or instructor from scratch
• Software, game design: software developed for the specific purpose to design video games
• Web applications: software application that is available and runs on the web, such as streaming video
• Archives: historical documents or records
• Books: written or printed works
• Colleagues: talking to people in their discipline
• Conferences: formal meetings for people in related disciplines
• Course readings: resources that were provided while taking a class
• Datasets: collection of related sets of information
• Game manuals: instructions on how to play video games
• Game reviews: evaluations of video games
• Games: console, PC, mobile, or web video games
• Google Scholar: freely accessible web search engine that indexes scholarly literature
• Interviews: information obtained by interviewing appropriate people
• Journals: collections of articles about specific subjects or disciplines
• Library databases: catalog of both full-text resources and indexed citations that are accessible electronically
• Newsletters: bulletins that are issued periodically
• News sources: includes both print and website-based news
• Students: people enrolled in either undergraduate or graduate programs
• Trade magazines: periodicals that contain news and items about a particular topic
• Web sources: materials found on the open web

1. Meave Duggan, “Gaming and Gamers” (Report, Pew Research Center, 2015), available online at www.pewinternet.org/2015/12/15/gaming-and-gamers/ [accessed 18 December 2015].

2. Laurence F. Johnson et al., “NMC Horizon Report: 2015 Higher Education Edition,” Horizon Report (Austin, Tex.: The New Media Consortium, 2015), 22, 35, available online at www.nmc.org/publication/nmc-horizon-report-2015-higher-education-edition/ [accessed 18 December 2015].

3. Association of College and Research Libraries, “ACRL Plan for Excellence,” 2015, available online at www.ala.org/acrl/aboutacrl/strategicplan/stratplan [accessed 11 January 2016].

4. Brena Smith, “Twenty-First Century Game Studies in the Academy: Libraries and an Emerging Discipline,” Reference Services Review 36, no. 2 (2008): 205–20, doi:10.1108/00907320810873066.

5. Examples include Mary Laskowski and David Ward, “Building Next Generation Video Game Collections in Academic Libraries,” Journal of Academic Librarianship 35, no. 3 (May 2009): 267–73, doi: 10.1016/j.acalib.2009.03.005 ; Kristen Mastel and Dave Huston, “Using Video Games to Teach Game Design: A Gaming Collection for Libraries,” Computers in Libraries 29, no. 3 (2009): 41–44, available online at http://eric.ed.gov/?id=EJ831241 [accessed 18 December 2015]; and Diane Robson and Patrick Durkee, “New Directions for Academic Video Game Collections: Strategies for Acquiring, Supporting, and Managing Online Materials,” Journal of Academic Librarianship 38, no. 2 (Mar. 2012): 79–84, doi: 10.1016/j.acalib.2012.01.003 .

6. Examples include Natalie Gick, “Making Book: Gaming in the Library: A Case Study,” in Gaming in Academic Libraries: Collections, Marketing, and Information Literacy (Chicago: American Library Association, 2008), 1–25; David Baker et al., “Lessons Learned from Starting a Circulating Videogame Collection at an Academic Library,” in Gaming in Academic Libraries: Collections, Marketing, and Information Literacy (Chicago: American Library Association, 2008), 26–38; Danielle Kane, Catherine Soehner, and Wei Wei, “Building a Collection of Video Games in Support of a Newly Created Degree Program at the University of California, Santa Cruz,” Science & Technology Libraries 27, no. 4 (Aug. 20, 2007): 77–87, doi:10.1300/J122v27n04_06; and Emma Cross, David Mould, and Robert Smith, “The Protean Challenge of Game Collections at Academic Libraries,” New Review of Academic Librarianship 21, no. 2 (May 4, 2015): 129–45, doi:10.1080/13614533.2015.1043467.

7. Mary Laskowski and David Ward, “Building Next Generation Video Game Collections in Academic Libraries,” Journal of Academic Librarianship 35, no. 3 (May 2009): 267–73, doi: 10.1016/j.acalib.2009.03.005 .

8. Andy Burkhardt, “Taking Games in Libraries Seriously,” The Academic Commons (blog), available online at www.academiccommons.org/2014/07/24/taking-games-in-libraries-seriously/ [accessed 5 November 2015].

9. Chris Nelson, “Gaming Reaches into Far Corners of Academic World as U of C Builds Huge Collection,” Calgary Herald (Mar. 16, 2015), available online at http://calgaryherald.com/news/local-news/gaming-reaches-into-far-corners-of-academic-world-as-u-of-c-builds-huge-collection [accessed 4 November 2015].

10. Brian McNeill, “VCU Libraries Launches Collection of Critically Acclaimed Video Games,” VCU News (blog) (Nov. 6, 2014), available online at http://news.vcu.edu/article/VCU_Libraries_launches_collection_of_critically_acclaimed_video [accessed 4 November 2015].

11. Sarah G. Wenzel, “New Library Videogame Collection,” The University of Chicago Library News (blog) (May 25, 2012), available online at http://news.lib.uchicago.edu/blog/2012/05/25/new-library-videogame-collection/ [accessed 30 November 2015].

12. Patrick Jagoda, “Videogame Collection Supports Scholarly Study,” The University of Chicago Library News (blog) (May 25, 2012), available online at http://news.lib.uchicago.edu/blog/2012/05/25/videogame -collection-supports-scholarly-study/ [accessed 30 November 2015].

13. An overview of classes and disciplinary uses is discussed in Mary Claire Morris, “Computer & Video Game Archive Celebrating Five Years of Growth,” The University Record (blog) (Nov. 5, 2013), available online at http://record.umich.edu //articles/computer-video-game-archive-celebrating-five-years-growth [accessed 2 December 2015]. A list of classes and research applications can be found in Valerie Waldron, “Computer & Video Game Archive: CVGA,” University of Michigan Research Guides (2015), available online at http://guides.lib.umich.edu/c.php?g=282987 [accessed 2 December 2015].

14. Emma Cross, David Mould, and Robert Smith, “The Protean Challenge of Game Collections at Academic Libraries,” New Review of Academic Librarianship 21, no. 2 (May 4, 2015): 135–37, doi: 10.1080/13614533.2015.1043467 .

15. David Ward, “Vintage Gaming Collection Development Policy and Description” (Urbana, Ill.: University of Illinois Urbana-Champaign, 2014), available online at www.library.illinois.edu/gaming/gamearchives.html [accessed 20 December 2015].

16. Valerie Waldron, “Computer & Video Game Archive: CVGA,” University of Michigan Research Guides (2015), available online at http://guides.lib.umich.edu/c.php?g=282987 [accessed 2 December 2015]

17. University of California Santa Cruz Library, “Video Games” (2015), available online at https://library.ucsc.edu/collections/video-games [accessed 18 December 2015].

18. Diane Robson and Patrick Durkee, “New Directions for Academic Video Game Collections: Strategies for Acquiring, Supporting, and Managing Online Materials,” Journal of Academic Librarianship 38, no. 2 (Mar. 2012): 82, doi: 10.1016/j.acalib.2012.01.003 .

19. Cross, Mould, and Smith, “The Protean Challenge of Game Collections,” 134.

20. McNeill, “VCU Libraries Launches Collection.”

21. Jagoda, “Videogame Collection Supports Scholarly Study.”

22. Adam DePollo, “Play On: Changing Gamer Culture at the ‘U,’” Michigan Daily (Oct. 22, 2014), available online at https://www.michigandaily.com/arts/10computer-video-game-archive22 [accessed 2 December 2015].

23. Laskowski and Ward, “Building next Generation Video Game Collections,” 268.

24. McNeill, “VCU Libraries Launches Collection.”

25. Jagoda, “Videogame Collection Supports Scholarly Study.”

26. University of Calgary Libraries and Cultural Resources, “Video Games,” available online at http://library.ucalgary.ca/dmc/video-games [accessed 4 November 2015].

27. Emma Cross and Robert Smith, “The Evolution of Gaming at Academic Libraries,” Canadian Library Association Conference (Winnepeg, Manitoba, 2013), available online at https://prezi.com/supsungb2uil/the-evolution-of-gaming-at-academic-libraries/ [accessed 4 November 2015].

28. Burkhardt, “Taking Games in Libraries Seriously.”

29. Three examples of soliciting direct feedback from faculty and students are found in Kane, Soehner, and Wei, “Building a Collection of Video Games”; Laskowski and Ward, “Building Next Generation Video Game Collections”; and Cross, Mould, and Smith, “The Protean Challenge of Game Collections.”

30. Nelson, “Gaming Reaches into Far Corners of Academic World.”

31. DePollo, “Play On: Changing Gamer Culture at the ‘U.’”

32. Laskowski and Ward, “Building Next Generation Video Game Collections,” 268.

33. Cross, Mould, and Smith, “The Protean Challenge of Game Collections,” 133.

34. Jagoda, “Videogame Collection Supports Scholarly Study.”

35. Waldron, “Computer & Video Game Archive.”

36. Mark T. Gilderhus, History and Historians : A Historiographical Introduction , 7th ed. (Englewood Cliffs, N.J.: Prentice Hall, 2010), 41.

37. Vincent Larivière, Yves Gingras, and Éric Archambault, “Canadian Collaboration Networks: A Comparative Analysis of the Natural Sciences, Social Sciences and the Humanities,” Scientometrics 68, no. 3 (2006): 519–33, doi:10.1007/s11192-006-0127-8.

38. Nelson, “Gaming Reaches into Far Corners of Academic World.”

39. Kane, Soehner, and Wei, “Building a Collection of Video Games.”

40. Wenzel, “New Library Videogame Collection.”

41. Mary Claire Morris, “Computer & Video Game Archive Celebrating Five Years of Growth,” The University Record (blog) (Nov. 5, 2013), available online at http://record.umich.edu //articles/computer-video-game-archive-celebrating-five-years-growth [accessed 2 December 2015].

42. Cross, Mould, and Smith, “The Protean Challenge of Game Collections,” 144.

43. For more information, see http://store.steampowered.com/about /.

44. Waldron, “Computer & Video Game Archive.”

45. John Gaudiosi, “Mobile Game Revenues Set to Overtake Console Games in 2015,” Fortune , (Jan. 15, 2015), available online at http://fortune.com/2015/01/15/mobile -console-game-revenues-2015/ [accessed 15 January 2016].

* Shannon L. Farrell is Natural Resources Librarian in the Natural Resources Library at the University of Minnesota Twin Cities; e-mail: [email protected] . Amy E. Neeser is Assistant Librarian, Library Research—Science and Engineering in the University Library at the University of Michigan, Ann Arbor; e-mail: [email protected] . Carolyn Bishoff is Physics, Astronomy, and Earth Sciences Librarian in the Walter Library at the University of Minnesota Twin Cities; e-mail: [email protected] ). ©2017 Shannon L. Farrell, Amy E. Neeser, and Carolyn Bishoff, Attribution-NonCommercial ( http://creativecommons.org/licenses/by-nc/4.0/ ) CC BY-NC.

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How Video Games Are Making Research Fun

Gamification and citizen science meet when research projects create video games to make data collection and analysis fun.

The SciStarter Blog

By Nathaniel Scharping

While we might imagine a scientist as a chemist concocting substances in a lab, or a biologist diving with sea creatures, the reality is often far more mundane. Much of science involves collecting and analyzing data, and that process isn’t always very exciting. Think counting bacteria in a petri dish, or noting if two stars look alike in an image of the Milky Way.

But a number of research projects have found a way to buck that trend and turn the grinding work of data collection and analysis into something fun, even rewarding. By creating games that bake the process of data collection into their mechanics, players can contribute data and even uncover new insights just by playing along. Gamification, along with the growing movement known as citizen science, which invites volunteers to take part in real science research, is, in its own way, reshaping what it means to do science.

Gamifying Science

Games that pair citizen science with rewarding play are probing treatments for cancer, helping to cure Alzheimer’s, probing the foundations of language and more. Not only are the games made to be fun, but they address a prevailing issue among crowdsourcing projects: the dropoff rate. Citizen science games tackle the problem with game mechanics that allow players to uncover valuable data through the simple act of playing, keeping them engaged. The results can be striking: Volunteers with the citizen science game Stall Catchers were able to process 50 times as much data as scientists working alone. And research in The Lancet on citizen science volunteers playing the game Cell Slider found that the players were more than 90 percent accurate in classifying images of tumors, nearing the accuracy of trained pathologists.

“The concept is for the player, without actually knowing the background of the problem, without knowing the science of the problem, to be able to do something that helps solve the problem,” says Jay Halderman, the vice president of  BALANCED Media |Technology , a video game company that’s created multiple citizen science video games.

The studio’s most recent game is a pattern-matching challenge called Rocks & Runes . Players place cartoon bombs on a board filled with brightly-colored runes, with the goal of destroying rocks and matching runes together. The game might feel familiar to anyone who’s ever played Candy Crush, and it takes all of five minutes to get the hang of.

But beneath the bursts of color and flurries of point multipliers, players’ decisions are actually sorting through data from FDA-approved drug compounds to identify those that might be useful against multiple-drug-resistant chemotherapy. By eliminating rocks with bombs, players are virtually eliminating the ineffective properties of existing drugs and pointing machine learning algorithms toward more useful compounds, helping to sift out promising candidates from thousands of drugs.

Still, a player doesn’t even need to know the potential scientific benefits to enjoy the game. Adding enough reward to the gameplay to keep players interested in the game itself is a fundamental goal when designing citizen science games, says Nathan Bowden, a senior game designer at BALANCED Media|Technology.

“Everything we do, we’re trying to look at it through the lens of ‘is this fun?’” he says.

The designers often draw from existing video game archetypes — pattern matching, first-person shooters and more — when looking for inspiration. Sometimes the real challenge is simply finding the right paradigm for a particular dataset or scientific problem, Bowden says. When designing Wiley Wizard , a game that works with the same dataset as Rocks & Runes, the designers played around with half a dozen different game ideas before settling on one, a spooky cartoon world where a wizard fights ghosts.

“There’s just so many different ways you can encapsulate one piece of research into a single mechanic,” Bowden says.

Games With an Open Canvas

Another citizen science game, Glyph , takes a different approach. Instead of creating rigid rules or a defined path of gameplay, the project, which studies and compares alphabets from around the world, instead offers players a nearly blank slate.

The simple game asks players to come up with a set of rules to differentiate letters from alphabets around the world. The goal, says Olivier Morin , one of the game’s creators and a researcher at the Max Planck Institute for Geoanthropology in Jena, Germany, is to develop a kind of grammar of letter shapes that the researchers can use to study how letters have evolved and how the shapes of letters affect our cognition. The researchers could have paid participants to do the work, like other lab experiments often do, Morin says. But by gamifying the process of data collection, he hopes they’ll be able to reach people who are much more creatively involved in the process, and more likely to come up with unique solutions.

“We need creative players who want to push the boundaries of the game and create unique kinds of data we could never gather in an experiment,” Morin says.

Players get points for coming up with rules for classifying the shapes of letters (think: these are all round, these all have a vertical line), with extra points if they’re the first-ever person to propose a particular rule. The response so far has been encouraging, Morin says, with a few thousand players from around the world. That’s ideal for a small game like theirs, he says, where the real goal is to reach people who might be highly interested in the challenge. Their top player right now has more than 60,000 points, which represents weeks of gameplay.

“That person really spent weeks trying to devise the most elegant, intelligible but innovative classification she could think of to make sense of letter shapes,” Morin says. “There’s no way a paid participant would do that in a few hours.”

At Balanced Media, the designers have been exploring other ways to entice players to participate, including creating games that can be played inside live Twitch streams, which allow gamers to broadcast matches and interact. They created a new game styled like the classic “Asteroids” arcade game that can be played between matches right on Twitch. Players must separate matter from antimatter by drawing a straight line across the screen, a simple task that helps sort the same drug compound data as Rocks & Runes and Wiley Wizard.

Other citizen science games offer even more ways to get involved. The popular Stall Catchers game asks players to find “stalls,” or blocked blood vessels, in images of mouse brains to advance Alzheimer’s research. And in the iPad game NeMO- Net , players classify corals to help train an algorithm that’s watching over the health of coral reefs around the world.

There may be even more ways for gamers to do citizen science soon. Or, to put it another way, we may soon have even more fun citizen science games. The technology and infrastructure supporting the video game industry continues to grow, unlocking new capabilities and audiences as it does so.

“It’s giving us more and more opportunities for ways to present these things to a player,” Bowden says. “That’s incredibly exciting, the potential there.”

Want to try some for yourself? Find dozens of citizen science games on SciStarter .

About the Author

Nate is a science writer and editor who has reported everywhere from particle colliders to archaeological digs. He’s also a cofounder of Lunaris Creative, an agency focused on scientific storytelling for brands and nonprofits. You can find clips of his work at nathanielscharping.com.

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Video games and research: a two-way relationship?

• Why is there growing demand for sound products?
• The ways AI will change the future of work
• 4 myths surrounding generative AI

• With over $100bn annual revenue, video games have the biggest audience in terms of entertainment on the planet.
• Science and video games have always had an unbreakable bond, both being based on experience and technology.
• Both make use of innovative technologies: virtual reality (VR), augmented reality (AR), network technology, artificial intelligence (AI), computer graphics, 3D modelling and more.
• Video game development has driven technological advances in graphics computing and, to a lesser extent, artificial intelligence.
• Conversely, for Raphaël Granier de Cassagnac, scientific research such as cognitive science can provide inspiration for game experiences.

For the past two years, our aim at the Sci­ence and Video Games research and teach­ing chair has been to facil­i­tate exchanges between three main play­ers: researchers from all fields of sci­ence, experts from the video game indus­try and, final­ly, our stu­dents. The for­mer has known how to use video games to pop­u­larise sci­ence since the ear­ly days of this form of enter­tain­ment. For exam­ple, the game Ten­nis for two – the ances­tor of Pong – was devel­oped in 1958 at Brookhaven, a research lab­o­ra­to­ry near New York. The researchers’ idea was to demon­strate the capa­bil­i­ties of the com­put­er to the pub­lic at an open day.

Also, the first gamers were sci­en­tists from all over the world based in research cen­tres; a sit­u­a­tion that last­ed for years before video games became pop­u­lar in the ear­ly 1970s. This chair, which relies on a hand­ful of gam­ing pro­fes­sion­als in res­i­dence at Poly­tech­nique, for exam­ple, push­es col­lec­tive sci­en­tif­ic projects that allow some fifty sec­ond-year stu­dents to explore the prob­lems asso­ci­at­ed with video games.

Common points: experience and technology

Sci­ence and video games have always had an unbreak­able bond. Their com­mon fron­tiers are twofold: expe­ri­ence and tech­nol­o­gy. Sci­ence, like video games, is all about expe­ri­ence; for both, the notions of tri­al and error are cen­tral, essen­tial. More­over, both sci­ence and video games make use of tech­nolo­gies, often inno­v­a­tive ones. Exam­ples include vir­tu­al real­i­ty (VR), aug­ment­ed real­i­ty (AR), net­work tech­nol­o­gy, arti­fi­cial intel­li­gence (AI), com­put­er graph­ics, 3D mod­el­ling and more. In 2016, aug­ment­ed real­i­ty was glob­al­ly pop­u­larised by a game, Poké­mon Go, which achieved half a bil­lion down­loads only three months after its release. New dig­i­tal tech­nolo­gies have been used very quick­ly to pro­duce or enrich games. The lat­ter some­times even serve as illus­tra­tors, if not pop­u­laris­ers, of these same technologies.

In my opin­ion, video games com­bine at least four impor­tant ele­ments that explain this strong link. First­ly, it has an audi­ence, the largest in terms of enter­tain­ment on the plan­et, with over $100bn annu­al rev­enue. In fact, almost every­one plays today, thanks to mobile phones. The sec­ond aspect is the pow­er of rep­re­sen­ta­tion of the mov­ing image, which can also be found in ani­mat­ed films. The third impor­tant fea­ture is game mechan­ics. These mechan­ics can be inspired by the sci­en­tif­ic approach, allow­ing peo­ple to under­stand an envi­ron­ment through experience.

Final­ly, the fourth asset is the strength of inter­ac­tiv­i­ty in learn­ing. One of the best ways to learn is to put knowl­edge into prac­tice rather than to be sub­ject­ed to it. For exam­ple, as a teenag­er, I felt that I under­stood some­thing about the his­to­ry of human civil­i­sa­tion by play­ing the game Civ­i­liza­tion. It was an ide­al first step towards a more seri­ous course or con­tent. So, games are fan­tas­tic tools for learn­ing or at least for illus­trat­ing science.

Video games in the service of research

But can video games help research? On the face of it, this enter­tain­ment indus­try has dri­ven devel­op­ment in tech­nol­o­gy of graph­ics com­put­ing, and to a less­er extent, arti­fi­cial intel­li­gence. Com­put­er graph­ics because with the advent of 3D, the gam­ing indus­try has seized on every advance in this tech­nol­o­gy, often before the ani­ma­tion indus­try. A French game like Alone in the Dark, in 1992, was a pio­neer in this field.

AI has seen progress thanks to video games, too. You may remem­ber when Deep Blue, the IBM super­com­put­er, man­aged to beat Gar­ry Kas­parov at chess in 1997. Is it con­sid­ered a video game or not? It’s a ques­tion of def­i­n­i­tion. Today, video games at least advance AI because they rep­re­sent a new chal­lenge. In 2019, AlphaS­tar, an AI sys­tem designed by Deep­Mind – a sub­sidiary of Google – ranked among the top 0.2% of play­ers in the world on the game Star­craft 2. The best human play­ers are able to per­form about 300 actions per minute with infi­nite com­bi­na­torics; still a major chal­lenge for an AI.

But in some cas­es, the play­ers’ intel­li­gence can be used to solve prob­lems that AI can­not. This is the case of the game Foldit, which has been try­ing for sev­er­al years to pro­vide a col­lec­tive answer to unsolved pro­tein fold­ing prob­lems in biol­o­gy. After solv­ing the struc­ture of an enzyme called M‑PMV in 3D in 2011, the plat­form was used in the fight against Covid-19 to make the 200,000 play­ers on the site ‘work’ togeth­er. But just recent­ly, Deep­Mind announced that they had bent this prob­lem thanks to AI.

In fact, while I doubt that there will be much more progress of this kind for the hard sci­ences, there is still a lot of research to be done on the play­er, his brain, his social atti­tudes, etc. When the sub­ject becomes human­i­ty, there is still, in my opin­ion, a lot to be done using video games and what they can pro­vide in terms of data. The cog­ni­tive, social, and eco­nom­ic sci­ences should take advan­tage of this in the years to come, via crowd­sourc­ing for example.

Science at the service of video games

Final­ly, we can ask the oppo­site ques­tion. Can sci­ence inspire game expe­ri­ences? This is one of the aspects I believe in the most. There have been thought exper­i­ments in games for a few years now. A play­er with a hel­met on his head is able to play a kind of Space Invaders with­out a con­troller, just by think­ing. This is an exam­ple where a sci­ence, cog­ni­tive sci­ence in this case, would help to pro­duce a new tech­nol­o­gy, in this case the hel­met, which can cap­ture the player’s thoughts and trans­late them into com­mands. If research makes advances on this issue, it will lead to new inno­v­a­tive games. From these games, we will be able to col­lect the data pro­duced by the play­ers. And ask, for exam­ple, how cog­ni­tive process­es and the brain itself work. Once again, sci­ence will be re-fuelled by video games.

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• Our Official List of Great Video Game Essay Topics

Any essay that you write should be well-written, accurate, and interesting to your audience. That begins with finding a great topic for your essay. Check out our list of the best essay topic ideas. You should be able to write a great essay about gaming with one of these topics. If you struggle with it, you can always order a custom essay on video games.

Topics on Social Issues

The topic of video games comes up quite frequently when various social topics are being discussed. If you are taking classes such as sociology, public health, political science, or journalism, your essay might focus on the many social issues relating to video games. Writing essays on violence in games is always an option, but there are others as well. Here are a few topic ideas:

Persuasive Essays Related to Social Issues

• Do Violent Games Cause Behavior Problems?
• Convince readers, in an essay about violence in games, that the average person will not be affected in a negative way.
• Should video game rating systems be more stringent?
• Are parents ultimately responsible for what their kids play?
• As a society, do we unfairly blame video games when we should be focusing on personal responsibility?

Narrative Essays on Video Games And Their Impact on Society

• Write about a video game that you played as a child that was too violent for you
• Have you ever been addicted to online gaming? What was that like.
• Talk about an incident of harassment that you witnessed when playing online video games.
• Write essays on violence in gaming and the impact of that in early dating relationships

Expository Essays on The Social Impact of Video Gaming

• Write a  short essay  on the impact of video gaming on health and wellness
• Compose a research paper that addresses the effects of allowing young children to do violent video games
• Write a case study about a young adult who has never been exposed to video games vs. one who has been

General Essay Ideas That Relate to Social Issues

• What should be done about sexism in gaming?
• How can the gaming industry become more inclusive as a whole?
• Why is sex and violence such a common theme in video games?
• Does early exposure to video games impact the ability of children to self-regulate?
• What are the biggest social problems related to gaming?

Video Game Essay Topics New Technology

If you are an avid gamer, you probably keep up with the latest technologies, reading specialized magazines, and eagerly await the latest and greatest releases. You may have even been part of a beta testing new things or involved in open source gaming projects. Most importantly, you likely have lots of knowledge and opinions on gaming technology. Check out these essay ideas:

Persuasive Essays on Gaming Technology

• Will virtual reality impact video game technology or is it simply a fad?
• Which release is causing the most buzz?
• Streaming will replace consoles, yes or no?

Expository Essay Ideas on Gaming Technology

• Pick an up and coming technology and explain how it works
• Explain the history and development behind an upcoming technological advancement in video tech
• Discuss the trend of gamers as designers

Other Video Technology Essay Ideas

• Write a compare contrast essay on virtual reality in gaming vs. augmented reality
• Write a review of a new gaming system that you have recently tried out.

Topics About Educational Games

Persuasive Essays on Video Games in Education

• Should children spend more time focusing on lectures and hands-on work than gaming?
• Argue which educational video game parents of toddlers should choose
• Video games have no place in education. Argue a side
• Is gaming a possible solution when dealing with disengaged students?

Expository Essay Ideas For Gaming in Education

• Explain how gaming is used in special education
• Describe the features that make a game educational vs. entertainment
• Research and explain the process educators use to integrate gaming into the classroom

Other Educational Essay Ideas

• Review the most popular educational games that have been released this year
• Write a paper about the differences between educational games today vs. 10 or 20 years ago
• Write a case study about a school that incorporated gaming into their classrooms    

Essay Topics For Passionate Gamers

If you don’t find anything that interests you above, don’t fret. You can still improve your writing skills while expressing your passions for gaming. If you have an interest in gaming, you have many options when it comes to writing essays. This is especially true when it comes to classes where you have a bit more flexibility in your writing assignments. Check out these topic ideas:

• Write a descriptive essay about the first gaming experience you have had
• What are your predictions about the future of console gaming
• What is the funniest thing that happened to you in an online gaming experience
• What 10 worst things that impact the world of video gaming be opinionated!
• Compare and contrast the first release of a video game with the most current
• If you could invent a video game, what would it look like
• Write a review of the most popular game available today

Remember that you must balance your passion for the topic of gaming with good writing skills and factual knowledge. You will still have to research, cite your sources, and do the other work that goes into writing a good paper. As always, if you need help with a gaming essay remember that we are available to help as we are top essay writing service . Happy gaming!

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News releases.

News Release

Monday, October 24, 2022

Video gaming may be associated with better cognitive performance in children

Additional research necessary to parse potential benefits and harms of video games on the developing brain.

On Monday, April 10, 2023, a Notice of Retraction and Replacement published for the article featured below . The key findings remain the same. The press release has been updated, in line with the retracted and replacement article, to clarify that attention problems, depression symptoms, and attention-deficit/hyperactivity disorder (ADHD) scores were significantly higher among children who played three hours per day or more compared to children who had never played video games.

A study of nearly 2,000 children found that those who reported playing video games for three hours per day or more performed better on cognitive skills tests involving impulse control and working memory compared to children who had never played video games. Published today in JAMA Network Open , this study analyzed data from the ongoing  Adolescent Brain Cognitive Development (ABCD) Study , which is supported by the National Institute on Drug Abuse (NIDA) and other entities of the National Institutes of Health.

“This study adds to our growing understanding of the associations between playing video games and brain development,” said NIDA Director Nora Volkow, M.D. “Numerous studies have linked video gaming to behavior and mental health problems. This study suggests that there may also be cognitive benefits associated with this popular pastime, which are worthy of further investigation.”

Although a number of studies have investigated the relationship between video gaming and cognitive behavior, the neurobiological mechanisms underlying the associations are not well understood. Only a handful of neuroimaging studies have addressed this topic, and the sample sizes for those studies have been small, with fewer than 80 participants.

To address this research gap, scientists at the University of Vermont, Burlington, analyzed data obtained when children entered the ABCD Study at ages 9 and 10 years old. The research team examined survey, cognitive, and brain imaging data from nearly 2,000 participants from within the bigger study cohort. They separated these children into two groups, those who reported playing no video games at all and those who reported playing video games for three hours per day or more. This threshold was selected as it exceeds the American Academy of Pediatrics screen time guidelines , which recommend that videogaming time be limited to one to two hours per day for older children. For each group, the investigators evaluated the children’s performance on two tasks that reflected their ability to control impulsive behavior and to memorize information, as well as the children’s brain activity while performing the tasks.

The researchers found that the children who reported playing video games for three or more hours per day were faster and more accurate on both cognitive tasks than those who never played. They also observed that the differences in cognitive function observed between the two groups was accompanied by differences in brain activity. Functional MRI brain imaging analyses found that children who played video games for three or more hours per day showed higher brain activity in regions of the brain associated with attention and memory than did those who never played. At the same time, those children who played at least three hours of videogames per day showed more brain activity in frontal brain regions that are associated with more cognitively demanding tasks and less brain activity in brain regions related to vision.  

The researchers think these patterns may stem from practicing tasks related to impulse control and memory while playing videogames, which can be cognitively demanding, and that these changes may lead to improved performance on related tasks. Furthermore, the comparatively low activity in visual areas among children who reported playing video games may reflect that this area of the brain may become more efficient at visual processing as a result of repeated practice through video games.

While prior studies have reported associations between video gaming and increases in violence and aggressive behavior, this study did not find that to be the case. Though children who reported playing video games for three or more hours per day scored higher on measures of attention problems, depression symptoms, and attention-deficit/hyperactivity disorder (ADHD) compared to children who played no video games, the researchers found that these mental health and behavioral scores did not reach clinical significance in either group, meaning, they did not meet the thresholds for risk of problem behaviors or clinical symptoms. The authors note that these will be important measures to continue to track and understand as the children mature.

Further, the researchers stress that this cross-sectional study does not allow for cause-and-effect analyses, and that it could be that children who are good at these types of cognitive tasks may choose to play video games. The authors also emphasize that their findings do not mean that children should spend unlimited time on their computers, mobile phones, or TVs, and that the outcomes likely depend largely on the specific activities children engage in. For instance, they hypothesize that the specific genre of video games, such as action-adventure, puzzle solving, sports, or shooting games, may have different effects for neurocognitive development, and this level of specificity on the type of video game played was not assessed by the study.

“While we cannot say whether playing video games regularly caused superior neurocognitive performance, it is an encouraging finding, and one that we must continue to investigate in these children as they transition into adolescence and young adulthood,” said Bader Chaarani, Ph.D., assistant professor of psychiatry at the University of Vermont and the lead author on the study. “Many parents today are concerned about the effects of video games on their children’s health and development, and as these games continue to proliferate among young people, it is crucial that we better understand both the positive and negative impact that such games may have.”

Through the ABCD Study, researchers will be able to conduct similar analyses for the same children over time into early adulthood, to see if changes in video gaming behavior are linked to changes in cognitive skills, brain activity, behavior, and mental health. The longitudinal study design and comprehensive data set will also enable them to better account for various other factors in the children’s families and environment that may influence their cognitive and behavioral development, such as exercise, sleep quality, and other influences.

The ABCD Study, the largest of its kind in the United States, is tracking nearly 12,000 youth as they grow into young adults. Investigators regularly measure participants’ brain structure and activity using magnetic resonance imaging (MRI) and collect psychological, environmental, and cognitive information, as well as biological samples. The goal of the study is to understand the factors that influence brain, cognitive, and social-emotional development, to inform the development of interventions to enhance a young person’s life trajectory.

The Adolescent Brain Cognitive Development Study and ABCD Study are registered service marks and trademarks, respectively, of the U.S. Department of Health and Human Services

About the National Institute on Drug Abuse (NIDA): NIDA is a component of the National Institutes of Health, U.S. Department of Health and Human Services. NIDA supports most of the world’s research on the health aspects of drug use and addiction. The Institute carries out a large variety of programs to inform policy, improve practice, and advance addiction science. For more information about NIDA and its programs, visit www.nida.nih.gov .

About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit www.nih.gov .

NIH…Turning Discovery Into Health ®

  B Chaarani, et al.  Association of video gaming with cognitive performance among children .  JAMA Open Network.  DOI: 10.1001/jamanetworkopen.2022.35721 (2022).

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