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Engineering Management Dissertation Topics

Published by Carmen Troy at January 9th, 2023 , Revised On April 16, 2024

Introduction

Dissertation writing is an extremely important academic task that all students must complete as part of their degree programmes. However, choosing a dissertation topic can be an extremely daunting challenge for most students because they could be unsure about the area of research they should pursue.

The dissertation starts with an idea upon which research is performed. The idea is then transformed into an academic concept by presenting arguments and evidence. It should be noted that a well-written dissertation addresses the research topic at all levels and is written concisely.

The research methodology chapter of a dissertation presents complete evidence of the research work performed in the form of data collection/analysis methods employed by the researcher. However, many students do not know where to start.

To help you get started with brainstorming for engineering management topic ideas, we have developed a list of the latest topics that can be used for writing your engineering management dissertation.

These topics have been developed by PhD qualified writers of our team , so you can trust to use these topics for drafting your dissertation.

You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the problem, research questions , aim and objectives , literature review along with the proposed methodology of research to be conducted. Let us know if you need any help in getting started.

Check our example dissertations to get an idea of how to structure your dissertation .

You can review step by step guide on how to write your dissertation here.

View our free dissertation topics database.

2024 Engineering Management Dissertation Topics

Topic 1: what are the environmental impacts of water waste treatment of cement industry in south korea.

Research Aim: This study aims to find the environmental impacts of water waste treatment of the cement industry in South Korea. With the help of a comprehensive survey across the cement manufacturing companies in South Korea, this study will first scrutinize the entire waste treatment process in the cement industry in South Korea. Then it will analyze the impact of each step on the environment. And after analyzing find the environmental effects of the water waste treatment of the cement industry in South Korea, this study will recommend modern ways to reduce the adverse effects.

Topic 2: An investigation of the challenges faced by the business in leading themselves towards environmental sustainability due to global value chains and how the businesses mitigate such challenges - A case of Nigerian SME.

Research Aim: The significant aim of this research study is to uncover the issues and challenges faced by multiple businesses while implementing environmental sustainability and growth as a result of the global value chain. Another objective of this research topic is to investigate the sustainable strategies through which businesses mitigate the identified challenges of the global value chain by targeting Nigerian small and medium companies as a case study.

Topic 3: What are the modern water treatment techniques to minimize the environmental effects of water waste in the Cement Industry? A Cross-Country analysis

Research Aim: This study aims to identify the modern water treatment techniques to minimize the environmental effects of water waste in the Cement Industry. A cross-country study will analyze the different water treatment techniques used by the cement industries in different countries. The best way to conduct this analysis is through comparing developed and developing countries. And after identifying the best techniques, this study will recommend the optimal methods that can be used around the world in any country.

Topic 4: An innovative strategic evaluation of university knowledge and technology transfer efficacy for students up to date on new engineering tools.

Research Aim: This study aims to analyse the framework that organises total project work based on high levels of creativity in project development, as well as to keep students up to date with the usage of technology; focusing on collecting data from different firms that have utilized the technology to manufacture items and run highly creative initiative in collaboration with the university.

Topic 5: Investigating the strategies used to reduce water pollution caused by the maritime transportation system.

Research Aim: The main goal of this study is to investigate the strategies for reducing water pollution produced by the marine transportation sector/industry. This study will also analyse the environmental risks posed by water contamination and how marine transportation contributes to the increase in water pollution. Focusing on the economic cost of restoring the damage as a result of marine pollution will also help us learn about the environmental effects of water pollution and understand how to reduce water pollution by different methods and technologies used by management.

Covid-19 Engineering Management Research Topics

Topic 1: impact of covid-19 on engineering institutes.

Research Aim: This study will focus on identifying the impacts of coronavirus on engineering institutes and discuss possible solutions to overcome the challenges.

Topic 2: Role of engineering management during Covid-19

Research Aim: The study will focus on identifying the contribution of engineering management to combat the coronavirus pandemic. It will discuss emergency management to prevent and diagnose COVID-19, including its advantages and disadvantages.

Topic 2: Critical analysis of alternative energy in the least developed countries: The emergence of solar power as a means of providing electricity

Research Aim: The major purpose of this study will lie in transforming conventional means of energy to solar energy and its importance in the least developed countries. The researcher will carry out a detailed critical analysis of what pros and cons can emerge due to the utilisation of alternative energy solutions and how least developed countries can use solar energy systems instead of traditional energy systems keeping in mind the cost and other benefits.

Topic 3: Assessing the impact of biogas emission on quality of life and health of individuals living in rural areas: A case study of developing countries.

Research Aim: In this study, the main aim of the researcher will be to analyse major health and other effects that can be caused due to the emission of biogas. The researcher will demonstrate the major risks to the quality of life of individuals living in rural areas of developing nations and what measures can be taken which reduce the effects of biogas emission on the quality and health of the individuals.

Topic 4: Challenges facing the concept of sustainable and green engineering

Research Aim: This research study will aim to identify challenges facing the concept of sustainable and green engineering. The environment of the world is deteriorating at an alarming pace, primarily because of industrial activities that result in carbon emissions. This project will enable readers to understand the advantages of green engineering over conventional engineering and identify why this concept has not been implemented on a wider scale.

How Can ResearchProspect Help?

ResearchProspect writers can send several custom topic ideas to your email address. Once you have chosen a topic that suits your needs and interests, you can order for our dissertation outline service which will include a brief introduction to the topic, research questions , literature review , methodology , expected results , and conclusion . The dissertation outline will enable you to review the quality of our work before placing the order for our full dissertation writing service!

Important Notes:

As an engineering management student looking to get good grades, it is essential to develop new ideas and experiment on existing engineering management theories – i.e., to add value and interest in your research topic.

The field of engineering management is vast and interrelated to so many other academic disciplines like civil engineering , construction , law , healthcare , mental health , artificial intelligence , tourism , physiotherapy , sociology , management , marketing and nursing . That is why it is imperative to create a project management dissertation topic that is articular, sound, and actually solves a practical problem that may be rampant in the field.

We can’t stress how important it is to develop a logical research topic; it is the basis of your entire research. There are several significant downfalls to getting your topic wrong; your supervisor may not be interested in working on it, the topic has no academic creditability, the research may not make logical sense, there is a possibility that the study is not viable.

This impacts your time and efforts in writing your dissertation as you may end up in the cycle of rejection at the very initial stage of the dissertation. That is why we recommend reviewing existing research to develop a topic, taking advice from your supervisor, and even asking for help in this particular stage of your dissertation.

While developing a research topic, keeping our advice in mind will allow you to pick one of the best engineering management dissertation topics that fulfil your requirement of writing a research paper and add to the body of knowledge.

Therefore, it is recommended that when finalizing your dissertation topic, you read recently published literature to identify gaps in the research that you may help fill.

Remember- dissertation topics need to be unique, solve an identified problem, be logical, and be practically implemented. Take a look at some of our sample engineering management dissertation topics to get an idea for your own dissertation.

How to Structure your Engineering Management Dissertation

A well-structured dissertation can help students to achieve a high overall academic grade.

A Title Page
Acknowledgements
Declaration
Abstract: A summary of the research completed
Table of Contents
Introduction : This chapter includes the project rationale, research background, key research aims and objectives, and the research problems to be addressed. An outline of the structure of a dissertation can also be added to this chapter.
Literature Review : This chapter presents relevant theories and frameworks by analysing published and unpublished literature available on the chosen research topic, in light of research questions to be addressed. The purpose is to highlight and discuss the relative weaknesses and strengths of the selected research area whilst identifying any research gaps. Break down of the topic, and key terms can have a positive impact on your dissertation and your tutor.
Methodology: The data collection and analysis methods and techniques employed by the researcher are presented in the Methodology chapter which usually includes research design, research philosophy, research limitations, code of conduct, ethical consideration, data collection methods and data analysis strategy .
Findings and Analysis: Findings of the research are analysed in detail under the Findings and Analysis chapter. All key findings/results are outlined in this chapter without interpreting the data or drawing any conclusions. It can be useful to include graphs , charts and tables in this chapter to identify meaningful trends and relationships.
Discussion and Conclusion: The researcher presents his interpretation of results in this chapter, and state whether the research hypothesis has been verified or not. An essential aspect of this section of the paper is to draw a linkage between the results and evidence from the literature. Recommendations with regards to implications of the findings and directions for the future may also be provided. Finally, a summary of the overall research, along with final judgments, opinions, and comments, must be included in the form of suggestions for improvement.
References: This should be completed in accordance with your University’s requirements
Bibliography
Appendices: Any additional information, diagrams, graphs that were used to complete the dissertation but not part of the dissertation should be included in the Appendices chapter. Essentially, the purpose is to expand the information/data.

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Engineering management simply refers to the management of all engineering aspects. It combines technology and organization to optimise engineering and overcome its limitations. Research in this field is crucial for improving engineering's potential. Thus, researchers and students must look for quality engineering management dissertation topics .

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How to find and shortlist workable dissertation topics for an engineering management dissertation.

Finding good topics for engineering dissertations can be difficult. This is because engineering management courses can be complicated. You might want to look at some examples of engineering management dissertations to get an idea. But the most important thing is to find a good topic before you start.

The important questions that students can ask at the start of this module are;

What are the thesis topics for engineering management that I work with?
Are there any engineering management thesis topics that my supervisor would be interested in?
Do I need any engineering management dissertation help at this stage?

Once you have shortlisted dissertation topics for engineering management, you can share them with your supervisor and they can help you choose the best one.

Importance of Selecting a Good Engineering Management Dissertation Topic

Engineering management combines business and technical skills to manage engineering projects. Graduates take up key managerial roles in the industry with high salaries and benefits. It is one of the top eight highest-paying master's degree programs due to the increased demand for qualified engineering managers. Regardless of the reason for entering this field of study, it is required in both master's and PhD programs to submit an engineering management research proposal to supervisors to be considered for admission.

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Engineering Management & Systems Engineering Theses & Dissertations

Theses and dissertations published by graduate students in the Department of Engineering Management and Systems Engineering, College of Engineering, Old Dominion University since Fall 2016 are available in this collection. Backfiles of all dissertations (and some theses) have also been added.

In late Fall 2023 or Spring 2024, all theses will be digitized and available here. In the meantime, consult the Library Catalog to find older items in print.

Theses/Dissertations from 2023 2023

Dissertation: Systemic Risk Analysis of Human Factors in Phishing , Mark Guilford

Dissertation: Human Psychology Factors Influencing Agile Team Autonomy in Post-Pandemic Remote Software Organizations , Ravikiran Kalluri

Dissertation: Reinforcing Digital Trust for Cloud Manufacturing Through Data Provenance Using Ethereum Smart Contracts , Trupti Narayan Rane

Dissertation: Electric Vehicle Routing Problem – Models and Algorithms , Hesamoddin Tahami

Theses/Dissertations from 2022 2022

Dissertation: A Systems Theory-Based Framework for Environmental Scanning in Complex System Governance , Dale E. Baugh

Dissertation: Learning Curve Characterization Within Complex Low-Rate Production Environments , Robert J. Gies

Thesis: Acquisition Career Progression Model for Navy Explosive Ordnance Disposal Officers , Andrew John Heckel

Dissertation: Hard-Real-Time Computing Performance in a Cloud Environment , Alvin Cornelius Murphy

Dissertation: A Quality Systems Economic-Risk Design Theoretical Framework , Abdallah S. Thefeid

Dissertation: Predictors of Email Response: Determinants of the Intention of not Following Security Recommendations , Miguel Angel Toro-Jarrin

Dissertation: Complex System Governance Leadership , David C. Walters

Theses/Dissertations from 2021 2021

Thesis: Quantifying Cyber Risk by Integrating Attack Graph and Impact Graph , Omer F. Keskin

Dissertation: Cybersecurity Risk Assessment Using Graph Theoretical Anomaly Detection and Machine Learning , Goksel Kucukkaya

Dissertation: Application of a Blockchain Enabled Model in Disaster Aids Supply Network Resilience , Farinaz Sabz Ali Pour

Theses/Dissertations from 2020 2020

Dissertation: A Framework for Adaptive Capacity in Complex Systems , Abdulrahman Alfaqiri

Thesis: Engineering Management Competencies: A Framework for Present and Future Engineering Environments , Christopher Vaughn Barrett

Dissertation: DOD Mission Engineering and Integration Explorative-Exploitative Architecture for Technology Innovation , Jose L. Bricio-Neto

Dissertation: A Quest to Identify the Emerging Leadership Skills in VUCA World and Investigation of Their Applications in Various Organizational Levels and Security Environments , Ali Can Kucukozyigit

Dissertation: Cyber-Assets at Risk (CAR): Monetary Impact of Personally Identifiable Information Data Breaches on Companies , Omer Ilker Poyraz

Dissertation: Using Interacting Multiple Model Filters to Indicate Program Risk , Amy Sunshine Smith-Carroll

Dissertation: An Investigation on the Effectiveness of a Problem Structuring Method in a Group Decision-Making Process , Ying Thaviphoke

Dissertation: A Core Reference Hierarchical Primitive Ontology for Electronic Medical Records Semantics Interoperability , Ziniya Zahedi

Dissertation: Human Error in Commercial Fishing Vessel Accidents: An Investigation Using the Human Factors Analysis and Classification System , Peter J. Zohorsky

Theses/Dissertations from 2019 2019

Dissertation: Evaluating Stakeholder Bias in Stakeholder Analysis In Social Media , Ahmad A. Bajarwan

Dissertation: An Investigation of General Criteria for Assessing Space Flight Systems of Diverse Mission Concept Designs , Cindy L. Daniels

Dissertation: Knowledge Sharing and Creative Confidence in Promoting Employees’ Creative Behavior , Elnaz Dario

Dissertation: Optimization of Automated Guided Vehicles (AGV) Fleet Size With Incorporation of Battery Management , Ahmed Hamdy

Dissertation: An Exploratory Study of Engineering Identity Development in African American Youth , Coletta Elayne Johnson Bey

Dissertation: Identifying and Quantifying Personnel Skills Gaps , Martin Joseph McKenney

Dissertation: Measuring Risks of Interdependencies in Enterprise Systems: An Application to Ghana’s Salt Enterprise , Yaw Mensah

Dissertation: Quantifying Impact of Cyber Actions on Missions or Business Processes: A Multilayer Propagative Approach , Unal Tatar

Dissertation: Development and Initial Evaluation of a Reinforced Cue Detection Model to Assess Situation Awareness in Commercial Aircraft Cockpits , Aysen K. Taylor

Dissertation: A Comparison of Multi-Attribute Utility Theory, the Analytic Hierarchy Process, the Analytic Network Process, and New Hybrid Approaches for a Case Study Involving Radon , Jesse Ray Toepfer

Dissertation: The Resilient City: A Platform for Informed Decision-Making Process , Jarutpong Vasuthanasub

Theses/Dissertations from 2018 2018

Dissertation: A Framework for Executable Systems Modeling , Matthew Amissah

Dissertation: The Influence of Engineers on Public Policy , Sarah Bouazzaoui

Dissertation: Contextual Framework of Communications Functions Supporting Complex System Governance , Charles Wesley Chesterman Jr.

Dissertation: A Representation of Tactical and Strategic Precursors of Supply Network Resilience Using Simulation Based Experiments , Yaneth C. Correa-Martinez

Dissertation: Sequence-Based Simulation-Optimization Framework With Application to Port Operations at Multimodal Container Terminals , Mariam Aladdin Kotachi

Dissertation: Human-Intelligence and Machine-Intelligence Decision Governance Formal Ontology , Faisal Mahmud

Dissertation: Exploring Critical Success Factors of Community Development Projects , Kevin Wanjama Muchiri

Dissertation: A Multi-Level Longitudinal Investigation of Transformational Leadership Influence on Team Members Development in Engineering Project Teams , Nathapon Siangchokyoo

Dissertation: Understanding the Impact of Large-Scale Power Grid Architectures on Performance , Ange-Lionel Toba

Dissertation: Case Study on the Development of Engineering Design Modification Projects for U.S. Nuclear Power Plants: A Knowledge Retention Tool in Support of the Longevity and Resilience of the Nuclear Power Industry , Pamela M. Torres-Jiménez

Theses/Dissertations from 2017 2017

Thesis: Role of Requirements Engineering in Software Project’s Success , Sujatha Alla

Dissertation: A Hilbert Space Geometric Representation of Shared Awareness and Joint Decision Making , Mustafa Canan

Dissertation: An Investigation into Perceived Productivity and Its Influence on the Relationship Between Organizational Climate and Affective Commitment , Kaitlynn Marie Castelle

Dissertation: Emergency Diesel-Electric Generator Set Maintenance and Test Periodicity , Stephen John Fehr

Thesis: Initiating Event Analysis of a Lithium Fluoride Thorium Reactor , Nicholas Charles Geraci

Thesis: Impact of a Localized Lean Six Sigma Implementation on Overall Patient Safety and Process Efficiency , Luvianca G. Gil-Moreno

Dissertation: Diversity Team Building: Impact on Virtual Team Performance , Nina C. Magpili-Smith

Dissertation: Implementation of a Multi-Criteria Decision Analysis (MCDA) Toolkit to Aid in Ranking Naval Mission Vessel Combinations With Uncertainty , Andrew R. Miller

Dissertation: A Predictor Analysis Framework for Surface Radiation Budget Reprocessing Using Design of Experiments , Patricia Allison Quigley

Dissertation: Analysis of Project Management System Structure Using the Viable System Model (VSM) , Joseph A. Sisti

Dissertation: Planning and Team Shared Mental Models as Predictors of Team Collaborative Processes , Zikai Zhou

Dissertation: Methodology to Perform Cyber Lethality Assessment , Matthew W. Zurasky

Theses/Dissertations from 2016 2016

Dissertation: Systems Theory Based Architecture Framework for Complex System Governance , Bry Carter

Dissertation: Profit Based Simulation Model for The Rail Transportation Industry , Mark Patrick Doran

Thesis: Design and Implementation of a Virtual Team Collaboration System , Syed Ehsan

Dissertation: A General Theory of Emergence in Engineered Systems , John J. Johnson IV

Dissertation: Improvement of Work Process Performance with Task Assignments and Mental Workload Balancing , Cansu Kandemir

Dissertation: An Outcome-Based Competency Model for Systems Engineering Trainees , Vanessa J. Pietrzyk

Dissertation: A Hybrid Tabu/Scatter Search Algorithm for Simulation-Based Optimization of Multi-Objective Runway Operations Scheduling , Bulent Soykan

Thesis: Extension of the Gravity Model: A Risk Integrated Approach Towards the Impact Analysis of Mega Sports Events on Inbound Tourist Arrivals , Abdul Sami Stanekzai

Dissertation: A Retrospective Study of Amusement Ride Restraint and Containment Systems: Identifying Design Challenges for Statistically Rare Anthropometric Cases , Paula M. Stenzler

Theses/Dissertations from 2015 2015

Dissertation: An Approach for the Development of Complex Systems Archetypes , Walter Lee Akers

Dissertation: Meta-RaPS Hybridization with Machine Learning Algorithms , Fatemah Al-Duoli

Dissertation: Management and Leadership Style: Is Style Influenced by Engineering Education? , Jesse Levi Calloway

Dissertation: Key Factors Driving Personnel Downsizing in Multinational Military Organizations , Ilksen Gorkem

Dissertation: A Framework to Simplify the Choice of Alternative Analysis and Selection Methods , James Paul Lewis Holzgrefe

Dissertation: Systems Theory-Based Construct for Identifying Metasystem Pathologies for Complex System Governance , Polinpapilinho F. Katina

Dissertation: An Analysis of the Relationship Between Military Leaders' Operational Adaptability and Knowledge Transfer , Vahap Kavaker

Thesis: Improving Response Characteristics of Split Ring Resonators Using Experimental Designs , Omer Faruk Keskin

Dissertation: Examining the Relationship Between Leadership Decision Making Styles and Personality Type Within the Department of Defense , Antoine Lamont Prince Sr.

Dissertation: Command and Control in the Information Age: A Case Study of a Representative Air Power Command and Control Node , Marvin Leo Simpson Jr.

Dissertation: The Role of Diversity on Team Effectiveness in a Multinational and Multicultural Military Environment , Mustafa Utoglu

Dissertation: Safety Culture Monitoring: A Management Approach for Assessing Nuclear Safety Culture Health Performance Utilizing Multiple-Criteria Decision Analysis , James Harold Warren Jr.

Theses/Dissertations from 2014 2014

Dissertation: A Systems-Based Framework for the Assessment of Performance Measurement System Implementations in R&D Organizations , Kenneth S. Baggett Jr.

Dissertation: Human Capital Management Within the Federal Government Utilizing Generational Stratification With a Focus on Generation Y , Ian Nathaniel Barford

Dissertation: Time-Based Collision Risk Modeling for Air Traffic Management , Alan E. Bell

Dissertation: An Investigation of Business Transformation Disruptors at the Military Strategic Command Level , Thomas Bock

Dissertation: Systems Theory Based Framework for Competency Models , Joseph M. Bradley

Thesis: Emergency Diesel-Electric Generator Set Maintenance and Test Periodicity , Stephen John Fehr

Dissertation: An Instrument to Assess Individual Capacity for System Thinking , Ra'ed M. Jaradat

Thesis: Simulation Modeling and Analysis of Customs-Regulated Container Terminal Operations with Multimodal Transportation , Mariam A. Kotachi

Thesis: Assessing Organizational Effectiveness Through the Competing Values Framework A Data Envelopment Approach , Raghavender Macherla

Dissertation: Assessing the Impact of Electronic Health Record Systems Implementation on Hospital Patient Perceptions of Care , Katherine Sofia Palacio Salgar

Dissertation: Graphical Display of the Effect of Three Cash Flow Elements for Sensitivity Analysis , Kawintorn Pothanun

Dissertation: Self-Regulating Teamwork Behaviors in Low-Volume & High-Complexity Production , Aaron W. Powell

Dissertation: An Investigation into the Analysis of Truncated Standard Normal Distributions Using Heuristic Techniques , John Walter Ralls

Dissertation: A Method to Define Requirements for System of Systems , Randy Gene Walker

Dissertation: The Relationship Among HFACS Levels and Analysis of Human Factors in Unmanned and Manned Air Vehicles , Veysel Yesilbas

Theses/Dissertations from 2013 2013

Dissertation: System Governance Analysis of Complex Systems , Behnido Y. Calida

Dissertation: Shared Leadership in Six Sigma Teams From the North Shore-LIJ Health System , Brian J. Galli

Dissertation: An Expert Based Multi Attribute Group Decision Making (MAGDM) Model for Portfolio Evaluation: Application on Ground Force Units , Metin Gultekin

Dissertation: Approximate Algorithms for the Combined arrival-Departure Aircraft Sequencing and Reactive Scheduling Problems on Multiple Runways , Gulsah Hancerliogullari

Dissertation: The RQ-Tech Methodology: A New Paradigm for Conceptualizing Strategic Enterprise Architectures , Christine Ann Hoyland

Dissertation: Micro to Macro Dynamics of Shared Awareness Emergence in Situations Theory: Towards a General Theory of Shared Awareness , Samuel F. Kavacic

Dissertation: Naval Surface Warfare Center Dahlgren Division Engagement Systems (G) Department Development of a Plan to Maintain, Expand, and Create Corporate Knowledge , Luis J. Rodriguez

Dissertation: An Epistemological Inquiry into the Incorporation of Emergency Management Concept in the Homeland Security with a Post-Disaster Security Centric Focus , Mehmet Secilmis

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PhD graduates from MS&E have taken positions with a wide range of organizations that include high-tech businesses, government agencies, nonprofits, and academic institutions.

Click below to see where graduates have found employment.

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Which program is right for you?

Through intellectual rigor and experiential learning, this full-time, two-year MBA program develops leaders who make a difference in the world.

A rigorous, hands-on program that prepares adaptive problem solvers for premier finance careers.

A 12-month program focused on applying the tools of modern data science, optimization and machine learning to solve real-world business problems.

Earn your MBA and SM in engineering with this transformative two-year program.

Combine an international MBA with a deep dive into management science. A special opportunity for partner and affiliate schools only.

A doctoral program that produces outstanding scholars who are leading in their fields of research.

Bring a business perspective to your technical and quantitative expertise with a bachelor’s degree in management, business analytics, or finance.

A joint program for mid-career professionals that integrates engineering and systems thinking. Earn your master’s degree in engineering and management.

An interdisciplinary program that combines engineering, management, and design, leading to a master’s degree in engineering and management.

Executive Programs

A full-time MBA program for mid-career leaders eager to dedicate one year of discovery for a lifetime of impact.

This 20-month MBA program equips experienced executives to enhance their impact on their organizations and the world.

Non-degree programs for senior executives and high-potential managers.

A non-degree, customizable program for mid-career professionals.

PhD Program

Program overview.

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Rigorous, discipline-based research is the hallmark of the MIT Sloan PhD Program. The program is committed to educating scholars who will lead in their fields of research—those with outstanding intellectual skills who will carry forward productive research on the complex organizational, financial, and technological issues that characterize an increasingly competitive and challenging business world.

Start here.

Learn more about the program, how to apply, and find answers to common questions.

Admissions Events

Check out our event schedule, and learn when you can chat with us in person or online.

Start Your Application

Visit this section to find important admissions deadlines, along with a link to our application.

Click here for answers to many of the most frequently asked questions.

PhD studies at MIT Sloan are intense and individual in nature, demanding a great deal of time, initiative, and discipline from every candidate. But the rewards of such rigor are tremendous: MIT Sloan PhD graduates go on to teach and conduct research at the world's most prestigious universities.

PhD Program curriculum at MIT Sloan is organized under the following three academic areas: Behavior & Policy Sciences; Economics, Finance & Accounting; and Management Science. Our nine research groups correspond with one of the academic areas, as noted below.

MIT Sloan PhD Research Groups

Behavioral & policy sciences.

Economic Sociology

Institute for Work & Employment Research

Organization Studies

Technological Innovation, Entrepreneurship & Strategic Management

Economics, Finance & Accounting

Accounting

Management Science

Information Technology

System Dynamics

Those interested in a PhD in Operations Research should visit the Operations Research Center .

PhD Students_Work and Organization Studies

PhD Program Structure

Additional information including coursework and thesis requirements.

MIT Sloan Predoctoral Opportunities

MIT Sloan is eager to provide a diverse group of talented students with early-career exposure to research techniques as well as support in considering research career paths.

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Rising Scholars Conference

The fourth annual Rising Scholars Conference on October 25 and 26 gathers diverse PhD students from across the country to present their research.

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The goal of the MIT Sloan PhD Program's admissions process is to select a small number of people who are most likely to successfully complete our rigorous and demanding program and then thrive in academic research careers. The admission selection process is highly competitive; we aim for a class size of nineteen students, admitted from a pool of hundreds of applicants.

What We Seek

Outstanding intellectual ability
Excellent academic records
Previous work in disciplines related to the intended area of concentration
Strong commitment to a career in research

MIT Sloan PhD Program Admissions Requirements Common Questions

Dates and Deadlines

Admissions for 2024 is closed. The next opportunity to apply will be for 2025 admission. The 2025 application will open in September 2024.

More information on program requirements and application components

Students in good academic standing in our program receive a funding package that includes tuition, medical insurance, and a fellowship stipend and/or TA/RA salary. We also provide a new laptop computer and a conference travel/research budget.

Funding Information

Throughout the year, we organize events that give you a chance to learn more about the program and determine if a PhD in Management is right for you.

PhD Program Events

May phd program overview.

During this webinar, you will hear from the PhD Program team and have the chance to ask questions about the application and admissions process.

June PhD Program Overview

July phd program overview, august phd program overview.

Complete PhD Admissions Event Calendar

Unlike formulaic approaches to training scholars, the PhD Program at MIT Sloan allows students to choose their own adventure and develop a unique scholarly identity. This can be daunting, but students are given a wide range of support along the way - most notably having access to world class faculty and coursework both at MIT and in the broader academic community around Boston.

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Profiles of our current students

MIT Sloan produces top-notch PhDs in management. Immersed in MIT Sloan's distinctive culture, upcoming graduates are poised to innovate in management research and education.

Academic Job Market

Doctoral candidates on the current academic market

Academic Placements

Graduates of the MIT Sloan PhD Program are researching and teaching at top schools around the world.

view recent placements

MIT Sloan Experience

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The PhD Program is integral to the research of MIT Sloan's world-class faculty. With a reputation as risk-takers who are unafraid to embrace the unconventional, they are engaged in exciting disciplinary and interdisciplinary research that often includes PhD students as key team members.

Research centers across MIT Sloan and MIT provide a rich setting for collaboration and exploration. In addition to exposure to the faculty, PhD students also learn from one another in a creative, supportive research community.

Throughout MIT Sloan's history, our professors have devised theories and fields of study that have had a profound impact on management theory and practice.

From Douglas McGregor's Theory X/Theory Y distinction to Nobel-recognized breakthroughs in finance by Franco Modigliani and in option pricing by Robert Merton and Myron Scholes, MIT Sloan's faculty have been unmatched innovators.

This legacy of innovative thinking and dedication to research impacts every faculty member and filters down to the students who work beside them.

Faculty Links

Accounting Faculty
Economic Sociology Faculty
Finance Faculty
Information Technology Faculty
Institute for Work and Employment Research (IWER) Faculty
Marketing Faculty
Organization Studies Faculty
System Dynamics Faculty
Technological Innovation, Entrepreneurship, and Strategic Management (TIES) Faculty

Student Research

“MIT Sloan PhD training is a transformative experience. The heart of the process is the student’s transition from being a consumer of knowledge to being a producer of knowledge. This involves learning to ask precise, tractable questions and addressing them with creativity and rigor. Hard work is required, but the reward is the incomparable exhilaration one feels from having solved a puzzle that had bedeviled the sharpest minds in the world!” -Ezra Zuckerman Sivan Alvin J. Siteman (1948) Professor of Entrepreneurship

Sample Dissertation Abstracts - These sample Dissertation Abstracts provide examples of the work that our students have chosen to study while in the MIT Sloan PhD Program.

We believe that our doctoral program is the heart of MIT Sloan's research community and that it develops some of the best management researchers in the world. At our annual Doctoral Research Forum, we celebrate the great research that our doctoral students do, and the research community that supports that development process.

The videos of their presentations below showcase the work of our students and will give you insight into the topics they choose to research in the program.

How Should We Measure the Digital Economy?

2020 PhD Doctoral Research Forum Winner - Avinash Collis

Watch more MIT Sloan PhD Program Doctoral Forum Videos

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Faculty Directory

Meet our faculty.

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PhD in Engineering Management

Advancing engineering research and leadership.

The industry leaders of tomorrow must earn their credentials today. Enroll in Western New England University’s PhD in Engineering Management program and prepare to take your place at the top of your organization. In this full- or part-time program , you will learn at a technical depth and gain the breadth of knowledge to become a successful practitioner, researcher, teacher, and mentor in the management of engineering and technology. You will develop the skills needed to conduct rigorous research in areas related to the improvement, design, and management of projects and programs within complex human/technological systems, including engineering, quality, healthcare, service, and logistical/transportation systems. You have the option to complete the PhD in Engineering Management 100% online . This is an excellent option for working professionals interested in pursuing their program part-time at our nationally recognized university.

Why Choose the PhD in Engineering Management?

It is the philosophy of the program to graduate students who have the ability to create, evaluate, improve, design, and manage complex human technological systems. Additionally, students will demonstrate the ability, through dissertation research, to contribute to the body of knowledge in the field of engineering management. The systems include engineering/manufacturing systems, service systems, and logistical systems.

What to Expect

What Will You Study?

The PhD in Engineering Management focuses on developing skills needed to conduct rigorous research in areas related to the improvement, design, and management of projects and programs within complex human-technological systems. Students take 10 courses before beginning a dissertation research project, including five core courses that establish a foundation of knowledge from which each student can explore their area of interest. Core courses are Engineering Supply Chain, Operations Research, Project Management, Strategic Economic Decision Making, and Seminar/Research Methods for Engineering Management. After the core is complete, a plan of study is developed in consultation with a research advisor that considers the dissertation research of the student. Whether you pursue your studies on campus or fully online, you will work regularly with your advisor, a content expert in your field of interest. You can be confident that you will have support throughout your educational journey.

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Admissions requirements.

Candidates for the PhD in Engineering Management should possess a master’s or bachelor’s degree in engineering or closely related discipline. A cumulative GPA of at least a 3.5 (4.0 scale) will be required for admission. A GRE score* from the last five years, with a combined verbal and quantitative score of at least a 300 with a quantitative score in at least the top 40 th percentile will be required for consideration. Candidates below established GPA and GRE requirements will be considered on a case-by-case basis. Candidates whose primary language is not English will be required to demonstrate proficiency in English . Applicants must also have evidence of completion of a probability and statistics course with a grade of at least a “B” and be able to demonstrate competence in at least one structured programming language (R, Python, C++, etc.).

*The College of Engineering will consider waiving the GRE requirement based on progressive industry experience, academic performance, a recommendation from a research advisor, and an interview. The interview can be scheduled at any point during the application process by emailing Dr. Christian Salmon, Department Chair for Industrial Engineering and Engineering Management, at [email protected] .

Admissions Process

The personal attention you’ll receive from our faculty is unparalleled. They’ll become your mentors, learning partners, and colleagues during your education. Not only will you work with them in the classroom, but you’ll also have the opportunity to collaborate with faculty on research and development projects. Their interests are in areas such as supply chain management, discrete event systems, quality, reliability, global health, human factors, and risk management.

How are courses offered?

Course Delivery: In-class or online* Total Credits: 57-72

Options for attending courses include fully in-class, fully online, as well as hybrid in-class and online to accommodate work and family. All lectures will be captured and available for online review. The program will capture all lecture-based presentations using the echo360 lecture capture system.

If you are interested in completing the program fully online, you will have an initial consultation with the Department Chair to discuss your goals and how an online approach could work for you, with particular attention to dissertation requirements. Once enrolled in program, you will be paired with a faculty advisor who will be a content expert in their field based on your research interests.

*International candidates will be required to attend in-class sessions in order to be in compliance with student visa requirements.

Program Goals & Philosophy

Goals/Principles

The goal of the program is to prepare graduates with the appropriate technical depth and breadth of knowledge so that they may be successful educators, researches, and practitioners in the management of complex human technological systems. The program will follow three principles in pursuit of this goal. In addition to passing the required coursework, students must also pass a comprehensive examination to demonstrate a mastery of Principles 1 and 2.

Principle 1: Provide a Solid Foundation and Depth in Engineering Management Theory and Practice

A solid fundamental understanding of a field is essential in order for students to be considered an expert in that field. This is true for Engineering Management as well. It is the fundamentals that a student will need to expand upon in order to contribute new knowledge to the field of engineering management. We place an emphasis on the fundamentals of the management of complex human technological systems and an emphasis on the modeling and analysis of such systems.

Principle 2: Provide Breadth Across Multiple Types of Human Technological Systems

Principles, tools, and fundamentals of engineering management have been rooted in engineering and manufacturing systems. These tools have also been successfully applied to other systems such as service and transportation/logistical systems. Today engineering managers can be increasingly found in banks, hospitals, amusement parks, airlines, and a variety of delivery agencies. On the surface, these industries appear different however; they all involve people, materials, information, equipment, energy, and capital. Therefore, the program will emphasize case studies and examples within the coursework that are applications in the following three areas:

Engineering and Manufacturing Systems
Service Systems
Logistical Systems

Principle 3: Contribute to the body of Knowledge in Engineering Management

A requirement of any Doctorate of Philosophy Program in Engineering is the expectation that graduating students will contribute to the body of knowledge in their chosen field by conducting research. This will be demonstrated by graduating students successfully completing a doctoral dissertation. Students conducting dissertation research will be guided by a selected advisor and advisory committee. Students must pass a dissertation approval examination in order to ensure they are prepared to conduct research. Upon the successful completion of research, graduating students will document the research results in a dissertation. Dissertations will be defended in front of advisory committees.

International Students

Leaders with engineering backgrounds are needed around the globe to manage people and resources. The College of Engineering enjoys a growing reputation among international students for the caliber of our graduate programs. Learn more about our support for international students.

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IEEE Technology and Engineering Management Society

Engineering Management Review

Welcome to ieee engineering management review (emr).

IEEE EMR is a premier outlet for the research and practice of engineering, technology, and innovation management, with a tradition of more than fifty years of publishing. EMR has built a reputation for high-quality, evidence-based practice-oriented publications.

This website provides you with some essential information with the following pages:

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Tems – 5 focus areas.

Moving Product/Services from Idea to Market

Identifying and Implementing Successful Projects, and Systems

Integrating Technology for Capability and Productivity

Developing from Engineer to Leader

Balancing the Norms of Society, Government, and Regulators

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IEEE International Conference on Smart Mobility (IEEESM'23)

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Engineering Dissertation Topics

A dissertation (or a final year project report) is a comprehensive technical report of the research work carried out. A dissertation must present some new, original concepts that lead to further research. The core area of a dissertation consists of a hypothesis (or a research question) upon which an investigation is conducted and, in most cases, inevitably leads to further research. A dissertation must be focused, concise and must address the research topics at every level. Also, along with research, a dissertation is expected to present complete evidence of research work in the form of research methods. Sometimes it’s hard to even know where to start. Herein, many engineering research areas, currently being sought after in the industry and academia, are suggested, including electronics, sensors technology, environmental engineering, supply chain engineering, computer science engineering, electrical engineering and civil engineering, to help you start your research.

Electronics and Communication Dissertation Topics

Sensors Technology Dissertation Topics

Environmental engineering dissertation topics, supply chain engineering dissertation topics, supply chain management dissertation topics, computer science engineering dissertation topics, electrical engineering dissertation topics, civil engineering dissertation topics, management related engineering dissertation topics, electronics and communications dissertation topics.

Over the past decade the rise of electronic communication has been revolutionised; it is the fastest growing technology. There are numerous areas of research in this field; however, the most demanding ones are highlighted below.

Defining the boundaries of electrical signals for current electronics (communication) systems.
The limitation of fibre optic communication systems and the possibility of further improving their efficiency.
Developing the embedded communication system for the national grid to optimise energy usage.
Improvement of inter-symbol interference in optical communications.
A study of the various forms of errors and the development of an equalisation technique to reduce the error rates in data.
Gaussian pulse analysis and the improvement of this pulse to reduce errors.
Realising the potential of RFID in the improvement of supply chain.
Radiation in integrated circuits and electronic devices.
Design of high speed communication circuits that effectively cut down signal noise.
Spectral sensing research for water monitoring applications and frontier science and technology for chemical, biological and radiological defence.
Nano-structured membranes for preparative purifications of biopharmaceuticals.

The rise of smart technology has been revolutionising sensor technologies, and there is a high demand to make more efficient and compact sensors. The following topics are a few areas that researchers are currently working in to realise further potentials.

Design and development of a pressure sensor for a solar thermal panel.
An investigation into wind speed and direction sensors to optimise the operations of wind turbines.
Utilising MEMS for profiling airflow around large building structures.
Development of micro sensors to measure oil flow rate in tanks.
Development and implementation of micro sensors to study pressure of the blood stream.
Development of sensors to measure heat generated from solar panels.
Sensing and controlling the intensity of light in LEDs.
Research and computational simulation of a natural olfactory biosensor.
Development of glucose biosensors using nanotechnology.

We are living in the age of technology where the driving force is to reduce the environmental impact of engineering products. Many countries have been undertaking projects supporting the environment and aiming to reduce carbon emissions. The following engineering dissertation topics are of utmost interest for researchers in the industry.

Analysing the impact of aviation industry on the environment and the potential ways to reduce it.
The environmental cost of the so called green energy, ‘wind energy’.
An analysis of factors that hinder the realising of cutting-edge technology for reducing carbon emissions from automobiles.
Design and development of a system for measuring the carbon index of an energy intensive company.
Process improvement techniques to identify and remove waste in the automotive industry.
Process mapping techniques to identify bottle necks for supply chain industry.
A study of compressor operations on a forging site and mapping operations to identify and remove energy waste.
Improving processes to reduce kWh usage and reduce inefficiencies.
Developing a compact device to measure energy use for a household.
In the forging industry how can changing burners within furnaces help organisations achieve energy efficiency?
How can gas consumption be reduced and efficiency introduced to reduce kWh usage?
How can voltage reduction devices help organisations achieve efficiency in electricity usage?
What are carbon credits and how can organisations generate them?
There are some organisations that use water excessively, with bills totalling more than £25,000. Identify the main reasons for such water usage and investigate better ways to introduce water efficiency and create savings.
Identify the ways by which efficient control systems using information systems can be introduced to study the energy usage in a machining factory.
A project to set up ways to measure natural gas flow ultrasonically and identify waste areas.
How can water conductivity probes help determine water quality and how can water be reused?

Supply chain plays an important role in the manufacturing business sector. It is important that the supply chain is well supported by efficient methods and processes. Your engineering dissertation topics could be about:

Highlighting the difference between the supply chain engineering and management for a company to improve output.
Analysing the key factors in process planning and optimisation of supply chain for a manufacturing company.
Developing a supply chain template for a small but thriving online business.
How can organisations achieve success by reducing bottlenecks in supply chain?
Just-in-time – is it really valid? Measurement of losses within just-in-time process implementation.
How can process efficiency be introduced to reduce waste within the manufacturing process?
Supplier relationship is an important factor for the success of just-in-time. How can organisations ensure successful transactions?
Research to identify efficient logistics operations within a supply chain.
Research to introduce efficiency within information systems and support timely transfer of knowledge and information.
The effect of globalisation on supply chain engineering/management for large multi-national companies.
Research studying the impact of culture on supply chain industries: identification of factors that generate inefficiencies with the supply chain.

Supply chain management involves the administration, management, control and supervision of the movement of goods and services from supplier to manufacturer to wholesaler to retailer and to the end consumer. Supply chain management involves coordinating and integrating these elements using an effective and efficient approach and methodology. Supply chain management is important for businesses to ensure there is minimum waste, drive innovation thereby creating integrated value chains. Supply chain management plays an important and central role in the success of a business. Please find a list of topics on supply chain management that may be useful for your engineering dissertation:

A detailed investigation into the need and use of dynamic staff to determine and rectify supply chain problems with a specific focus on the construction industry.
Research into eco-friendly and sustainable practices in supply chain management.
Research to develop a learning organisation and its impact on supply chain management.
Research to measure and develop intellectual capital within the supply chain industry.
A detailed study of innovative forecasting and demand planning strategies for supply chain management
Research study to create measurements to study the impact of learning organisation on performance measurement in supply chain industry
Impact of training on knowledge performance index within supply chain industry.
The behaviour of Carbon index with the implementation of a learning organisation.
Developing a framework for supply chain management in densely populated urban cities
Detailed investigation and analysis taking into account supply chain and logistical strategies for perishable goods.
The influence and impact of emerging e-commerce technologies on supply chain management.

Computer science engineering focuses on the key elements of computer programming and networking with a focus on gaining knowledge of the design, implementation and management of information systems. Information systems play a major role in computer science engineering and an integral component to the successful operations of organisations. The management of information technology systems is a major element for organisations. The following could be used for an engineering dissertation as well as a computing dissertation:

How can organisations ensure that information system is effectively used to maintain process efficiency?
How can learning organisations influence the development of information systems?
The role of risk management in information technology systems of organisations.
Research to identify and reduce e-waste using information technology strategies and systems.
Current status and research on E-waste in the United Kingdom
Development of measurement systems to measure e-waste.
A detailed review of the role of information technology in improving productivity and transforming organisations.
An investigation into the use of information technology as a tool for sustained competitive advantage.
A high-level investigation and detailed review into best practices for the implementation of information technology in modern day organisations.

Electrical engineering is focused on the design, development, testing, supervision and the manufacturing of electrical equipment. Electrical engineers design the electrical systems of automobiles, aircrafts, power generation equipment, communications systems, radar and navigational systems. The design and development of these electrical components are key and central to modern day life. There are several topics within this area that you could research for your electrical engineering dissertation:

Development of a system to study the efficiency of motors in order to reduce kWh usage
Setting up of a control system to monitor the process usage of compressors.
Develop a scheme to normalise compressor output to kWh.
Research to investigate, develop and introduce schemes to ensure efficient energy consumption by electrical machines.
Research to study transformer losses and reduce energy loss.
Research to study metering techniques to control and improve efficiency.
Research to introduce smart metering concepts to ensure efficient use of electricity.
Integration of smart metering pulsed outputs with wireless area networks and access real-time data.
Developing effective strategies and methodical systems for pay as you go charging for electric vehicles
A detailed review and investigation into the key issues and challenges facing rechargeable lithium batteries
Trends and challenges in electric vehicles technologies
Smart charging of electric vehicles on the motorway

The main emphasis of civil engineering in recent times is focused on sustainable development of quality, durable structures that deliver value for money, maximise the benefits from innovation and meets the specifications of the end users. Construction of sustainable houses has been a top priority within civil engineering. The following research topics are being actively undertaken and may be a good area for you to base your research on your own engineering dissertation:

Development of sustainable homes making use of renewable energy sources.
The use of sustainable materials for construction: design and delivery methods.
The role of environmental assessment tools in sustainable construction
The use of warm mix asphalt in road construction
Research to study properties of concrete to achieve sustainability.
Development of waste reduction strategy to achieve sustainable concepts
High-level review of the barriers and drivers for sustainable buildings in developing countries
Research to study the impact of sustainability concepts on organisational growth and development.
Sustainable technologies for the building construction industry
Building Information Modelling in the construction industry
Research regarding micromechanics of granular materials.
Research to study and develop water treatment processes.
Research to set up remote sensing applications to assist in the development of sustainable construction techniques.
High-level strategies, best practice guidelines and methodologies for sustainable construction.
State of the art practice for recycling in the construction industry.
Key factors and risk factors associated with the construction of high rise buildings.
An investigation into health and safety in the construction industry.

Engineering management is the application of the practice of management to the practice of engineering. Engineering management integrates problem-solving, engineering, technological developments and advancements in organizational structure, administrative, and planning abilities of management in order to oversee the operational performance of complex engineering driven enterprises. These two topics go hand in hand and support each other quite well. It is important that both sides are well balanced. The following research topics could be useful for your engineering dissertation:

Steps to conduct management of change to ensure smooth process improvement.
Research to sustainably manage a project team.
Research to study the management of engineering projects and various risks involved with them.
Research to identify process improvement plans to support business strategies.
Efficient supply chain management to ensure and develop key motivational skills within staff members.
How leadership can help efficiency within a learning organisation.
Developing an integrated approach to strategic management in organisations.
Creating and sustaining competitive advantage in engineering organisations.
Developing frameworks for sustainable assessments taking into account eco-engineering measures.
The role of engineers in managing development in emerging countries.

Engineering Management and Systems Engineering Online

Doctor of Philosophy in Engineering
Batten College of Engineering & Technology
Department of Engineering Management & Systems Engineering

Program Delivery Method

100% online, with live online classes
Live online class attendance is required
Classes are usually held in the evening (Eastern U.S. Time Zone)

Why ODU for Engineering Management and Systems Engineering?

ODU's engineering management and systems engineering PhD program allows you to work with expert faculty to develop innovative solutions and conduct ground-breaking research.

You'll meet in live online classes. Your courses will blend highly theoretical knowledge with applied and pragmatic research. Then, you'll learn rigorous evaluation techniques to solidify your findings.

When you graduate, you will be prepared to teach and research at academic institutions, work at national research labs, or be a technology leader in public and private organizations that focus on innovation and technological leadership.

Admission to this program is competitive. As part of the application process, you will be matched with a faculty advisor with similar research interests. If a matching faculty advisor already has a full advising schedule, your admission may be delayed.

When you graduate, you will earn a Doctor of Philosophy in Engineering – Engineering Management and Systems Engineering.

Want to learn more? Contact us!

American Society for Engineering Management Founder's Award for Excellence in Engineering Management Education and Practice

Most Affordable Online Doctoral Degrees, 2023 - OnlineU.com

Required Courses

48 credit hours minimum

You will take:

Three core courses in engineering research and multivariate statistics.
Two elective courses from a range of topics such as engineering design, big data, systems analysis, reliability and maintainability, and risk analysis.
At least three subject area courses based on your research focus.
At least 24 credit hours of research.
View Courses in ODU's Graduate Catalog

Online Learning Environment

Participate in live, regularly scheduled online class meetings and access course materials online from any location. All courses follow ODU's regular academic calendar.

Taking Classes Online

Careers in Engineering Management & Systems Engineering

University Professor
Lead Engineer
Program Manager
Lead Technology Officer
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Calculating Cost

Rates are effective Fall 2023 and subject to change. * In-state rate assumes residency requirements are met.

ODU Tuition and Financial Aid

Licensure Disclosure

This program is not intended to lead to a specific state-level license.

If you plan to pursue a professional license or credential, we encourage you to explore requirements through the appropriate credentialing agency or professional organization in your state.

Have questions? Please contact us through the form above to talk to an enrollment coach.

Learn More About State Licensure Disclosures

Meet Your Team

You'll have a dedicated academic advisor for this program.

Ready to get started?

How to apply.

Admission to this program is competitive. In addition to general ODU admission requirements, you must have:

A master of science in engineering or a closely related technical field with a minimum 3.50 GPA from an accredited institution of higher education.
A bachelor's degree with a minimum 3.0 GPA from an ABET-accredited program in engineering or engineering technology, or from an accredited program in applied science.

You will also submit a research concept paper to aid in pairing you with a faculty advisor. The number of students admitted depends partly on the advising load of faculty with matching research interests. See full application details in the Graduate Catalog .

Request Info

GW University Bulletin. Provisonal Edition. 2023-2024. Opens new window

Doctor of Engineering in the Field of Engineering Management (Online)

The doctor of engineering in engineering management degree program is designed for practitioners who wish to apply the knowledge they gain in a technical management environment. Unlike a PhD, wherein research is focused on foundational work that is published, the doctor of engineering requires solving a real-world problem using the latest engineering management concepts and tools. The program is offered in a synchronous, online format with classes held on Saturdays. This format enables professionals who are employed full-time to pursue advanced study in a focused environment alongside like-minded fellow students. The program culminates in a praxis for use by practicing engineers to address a common concern or challenge.

Visit the program website for additional information.

Visit the SEAS Online website for additional information.

The following requirements must be fulfilled: 48 credits, including 24 credits in required courses and 24 credits in research culminating in a practice-based case study.

Additional Requirements

1. Students must earn a minimum grade of B- in all courses and must achieve a minimum GPA of 3.2 at the completion of their coursework to advance to the research phase.

2. The praxis proposal examination must be completed by preparing and defending a research proposal. Students have a maximum of two attempts to pass the praxis proposal examination.

3. Students must complete the final examination on their praxis by preparing and defending their praxis before a committee of three faculty members. Students have a maximum of two attempts to pass the final defense.

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PHD PROGRAMME

Phd programme in management engineering.

The PhD programme in Management Engineering (DRIG) offers an advanced education together with the opportunity of carrying out research work in the fields of management, economics and industrial engineering.

The programme ensures that candidates build up a solid methodological background, allowing them to develop their multidisciplinary knowledge, an open minded approach to research and the ability to address problems in an innovative way, while combining different perspectives and approaches.

The Department of Management, Economics and Industrial Engineering’s commitment to research and its scientific collaborations with other institutions provide candidates with an ideal environment in which to pursue research in their personal fields of interest within a broad spectrum of different topics.

In order to get more information and support, we invite you to fill the following enquiry form , specifying the PhD programme of interest.

Location: Milan

Language: English

Format: Full Time/Part Time

Duration: 3 to 4 years depending on the Programme

Application:

Annual call: May
Additional calls for applications: see the section “How to apply” and the link here

Required degree: University Master of Science degree (or equivalent)

Contacts Email: [email protected]

This video brings the voice of PhD candidates, DRIG alumni, and external stakeholders giving an insight into the PhD experience and useful suggestions for future PhD candidates. It helps to understand what is the PhD programme in Management Engineering and why to consider this path in one’s career and competence development.

What is a PhD and Why doing the PhD programme

This video provides a presentation by our Programme coordinator, aimed to introduce the role of the Ph.D as a higher educational level and to provide useful information about the structure and opportunities of the Ph.D programme in Management Engineering.

ADMISSIONS AND SCHOLARSHIPS

HOW TO APPLY
SCHOLARSHIPS

To be admitted to the PhD programme, students must hold a University Master of Science degree (or equivalent). The most relevant background university studies are those in the fields of economics, management, and industrial engineering . However, students who hold degrees in other technical and scientific disciplines or in social sciences may also be admitted to the programme.

The online application opens once a year around mid-April for the full time format (Annual Call) ; application and eligibility check are permanent for the executive format.

Application period

The PhD academic year starts at the beginning of November .

The application period for each new PhD cycle starts with the Annual call, running from mid-May to June.

After the annual call, there may be some Additional Calls for PhD places with scholarships linked to specific research topics. Candidates who apply to these additional calls will be enrolled to the ongoing PhD cycle .

Knowledge of English is required; to this end, applicants are required to submit one of the certificates listed here (Admission Criteria) no later than end of October, if not already submitted at the closing date of the call. Failure to submit certificates within the established closing date for enrolment irrevocably results in the loss of the right to enrolment. Certifications are valid regardless of the date when they were awarded.

Citizens of Countries in which English is an official language are not required to certify their knowledge of English; the same applies to applicants who have been awarded or will be awarded academic qualifications by an institute in which all teaching activity is carried out in English.

These applicants must attach official documents to their application; in particular, where all courses are carried out in English, this needs to be certified by the corresponding academic institute.

To be admitted to the Doctorate Programme in Management Engineering (DRIG) applicants must apply through a competitive selection process.

Admission to the PhD programme is limited to a predetermined number of candidates according to the scholarships available in the programme. This ensures the optimal development of each candidate while enriching the group’s learning and investigation process.

The candidature may apply to different types of scholarship classified as:

Generic Scholarship (Annual Call)

Elective Research in Management Engineering
Oriented Research in Management Engineering
Thematic Scholarship, also including interdisciplinary scholarships (Additional Calls).

Check the page Calls and Regulations – Dottorati di Ricerca (polimi.it) to read further details and apply.

For futher information please visit the PhD School website.

For further information about scholarships, please visit the following page . Check the “open calls” section and look at the available scholarships in Management Engineering.

PhD PROGRAMME STRUCTURE

GENERAL INFORMATION
CONTENTS & COURSES
PORTFOLIO OF COURSES

The PhD programme can be full time or part time , depending on the typology of tracks:

General track (full-time): 3 years;
Executive track : 4 years. For more information click here .
International Agreements and Double PhD : 3/4 years. For more information click here .

The programme is built on three main pillars:

Development of the doctoral thesis . The thesis is the hallmark of the Ph.D. programme. It allows students to develop leading-edge research competencies and to produce an original scientific contribution on a topic relevant for academics and practitioners.
Main courses on research methodologies and leading-edge topics in management, economics and industrial engineering.
Elective training activities . Students can customize their study plan depending on their research interests. The aim is to develop students’ scientific knowledge on specific topics and to expose them to the international scientific community by attending Ph.D. schools or workshops and presenting their research at international conferences.

Ph.D. candidates fulfil their research and training requirements under the supervision of scholars who are experts in their research fields.

At the following link you can find the research lines .

The Ph.D. thesis (125 ECTS) is an original contribution to the advancement of knowledge in the candidate’s research field. The research will be supervised by members of the doctoral faculty, who will provide guidance to the candidate in setting out and arranging the everyday activities involved in the thesis development. The thesis can be edited in the form of a monograph or a collection of papers .

At the end of each year, candidates will present the progress of the research project in front of a committee and will discuss it with a Discussant from the PhD Faculty. This is a fundamental step to advance from one year to the next.

At the conclusion of the PhD studies, the Faculty Board evaluates the candidates. Candidates who receive a positive evaluation submit their theses to two external reviewers for refereeing. If the evaluation is positive (or in any case after the comments received from the external reviewers are integrated), the candidates may defend the thesis in front of a Committee composed of three members, at least two of which must be external to the Politecnico.

The resulting thesis needs to be coherent with the research lines developed in the Department where the PhD programme is developed.

Ph.D. yearbooks and thesis

The thesis abstracts are published in our yearbooks: https://www.dottorato.polimi.it/en/phd-programmes/engineering/management-engineering

Each PhD candidate must obtain at least 25 ECTS from courses. Each course lasts approximately one week and is composed of classroom lessons, individual study and group works.

All courses are taught in English.

Schedule of courses 2021-2022
Schedule of courses 2022-2023
Schedule of courses 2023-2024

ORGANIZATION

Faculty Board

CAREER & PLACEMENTS

The Ph.D. programme aims to train professionals who are able to carry out high-quality research in the fields of Management, Economics and Industrial Engineering at universities or other research institutions. Ph.D. graduates from DRIG are also well equipped with distinctive skills and advanced knowledge to pursue a professional career in manufacturing and service companies, regulatory authorities and other public bodies.

In this framework, the following opportunities are open to those completing the Ph.D. programme:

Post doc, research fellows and young lecturers in Italian and foreign universities;
researchers and scholars of management, economics or industrial engineering in the research departments of public and private organisations;
highly qualified personnel in research and training institutions, with the role of providing a link between universities and the business world, or in technology transfer centres in Italy and abroad;
professionals in leading management and strategic consulting firms able to provide deep and advanced insight in areas of activity relating to the company itself;
high level professional roles in national (ministries, regulatory authorities, local public institutions) and international (EIB, IMF, World Bank, European Commission, European Central Bank) public institutions;
managerial roles in multinational companies with a strong focus on innovation;
entrepreneurs in contexts characterized by a high level of innovation.

Support actions for placement are provided with the purpose of sharing experiences, services and information through a number of initiatives fitting the different types of career opportunities. Amongst the actions, the “Placement programme for PhD candidates” is the programme offered by the Career Service, in cooperation with the PhD school of Politecnico di Milano.

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Accreditations, Rankings & Memberships

100 Best universities for Mechanical Engineering in Russia

Updated: February 29, 2024

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Environmental Science
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Below is a list of best universities in Russia ranked based on their research performance in Mechanical Engineering. A graph of 714K citations received by 136K academic papers made by 158 universities in Russia was used to calculate publications' ratings, which then were adjusted for release dates and added to final scores.

We don't distinguish between undergraduate and graduate programs nor do we adjust for current majors offered. You can find information about granted degrees on a university page but always double-check with the university website.

1. Moscow State University

For Mechanical Engineering

2. Tomsk State University

3. St. Petersburg State University

4. Bauman Moscow State Technical University

5. Ufa State Aviation Technical University

6. Peter the Great St.Petersburg Polytechnic University

7. Tomsk Polytechnic University

8. Ural Federal University

9. South Ural State University

10. National Research University Higher School of Economics

11. Moscow Aviation Institute

12. Novosibirsk State University

13. ITMO University

14. N.R.U. Moscow Power Engineering Institute

15. National Research Nuclear University MEPI

16. Kazan Federal University

17. National University of Science and Technology "MISIS"

18. Moscow Institute of Physics and Technology

19. Samara National Research University

20. Moscow State Technological University "Stankin"

21. Novosibirsk State Technical University

22. RUDN University

23. Southern Federal University

24. Saratov State University

25. Ufa State Petroleum Technological University

26. Samara State Technical University

27. Siberian Federal University

28. Kazan National Research Technical University named after A.N. Tupolev - KAI

29. Perm State Technical University

30. Omsk State Technical University

31. Saint Petersburg State Electrotechnical University

32. Moscow Polytech

33. Saint-Petersburg Mining University

34. Magnitogorsk State Technical University

35. Saratov State Technical University

36. Moscow State University of Railway Engineering

37. Lobachevsky State University of Nizhni Novgorod

38. Nizhny Novgorod State Technical University

39. Tula State University

40. Belgorod State Technological University

41. Far Eastern Federal University

42. Novgorod State University

43. belgorod state university.

44. Finance Academy under the Government of the Russian Federation

45. Moscow Medical Academy

46. Kazan State Technological University

47. Russian State University of Oil and Gas

48. siberian state aerospace university.

49. Tambov State Technical University

50. Voronezh State University

51. Siberian State Industrial University

52. Saint Petersburg State Institute of Technology

53. Kalashnikov Izhevsk State Technical University

54. St. Petersburg State University of Architecture and Civil Engineering

55. Mendeleev University of Chemical Technology of Russia

56. Murmansk State Technical University

57. South-Western State University

58. Ogarev Mordovia State University

59. Tomsk State University of Control Systems and Radioelectronics

60. south-russian state university of economics and service.

61. Perm State University

62. Kuzbass State Technical University

63. Russian National Research Medical University

64. Plekhanov Russian University of Economics

65. Ulyanovsk State Technical University

66. Ulyanovsk State University

67. Penza State University

68. Kuban State University of Technology

69. Polzunov Altai State Technical University

70. Chelyabinsk State University

71. Yaroslavl State University

72. University of Tyumen

73. National Research University of Electronic Technology

74. Leningrad State University

75. Moscow State Pedagogical University

76. Udmurt State University

77. Irkutsk State University

78. North-Eastern Federal University

79. Bashkir State University

80. Russian Presidential Academy of National Economy and Public Administration

81. Kuban State University

82. Kuban State Agricultural University

83. St. Petersburg State University of Aerospace Instrumentation

84. Kemerovo State University

85. Immanuel Kant Baltic Federal University

86. Orenburg State University

87. Baltic State Technical University "Voenmeh"

88. Tomsk State University of Architecture and Building

89. Chuvash State University

90. ivanovo state power university.

91. Irkutsk National Research Technical University

92. Orel State University

93. State University of Management

94. Tomsk State Pedagogical University

95. Volgograd State University

96. Petrozavodsk State University

97. Tver State University

98. Northern Arctic Federal University

99. Omsk State Transport University

100. Kaliningrad State Technical University

The best cities to study Mechanical Engineering in Russia based on the number of universities and their ranks are Moscow , Tomsk , Saint Petersburg , and Ufa .

Engineering subfields in Russia

Best Global Universities for Engineering in Russia

These are the top universities in Russia for engineering, based on their reputation and research in the field. Read the methodology »

To unlock more data and access tools to help you get into your dream school, sign up for the U.S. News College Compass !

Here are the best global universities for engineering in Russia

Itmo university, tomsk state university, tomsk polytechnic university, lomonosov moscow state university, novosibirsk state university, saint petersburg state university, peter the great st. petersburg polytechnic university, moscow institute of physics & technology, national research nuclear university mephi (moscow engineering physics institute).

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# 307 in Best Universities for Engineering (tie)
# 696 in Best Global Universities (tie)
# 364 in Best Universities for Engineering (tie)
# 587 in Best Global Universities (tie)
# 396 in Best Universities for Engineering (tie)
# 879 in Best Global Universities (tie)
# 632 in Best Universities for Engineering (tie)
# 355 in Best Global Universities
# 809 in Best Universities for Engineering (tie)
# 579 in Best Global Universities (tie)
# 847 in Best Universities for Engineering (tie)
# 652 in Best Global Universities
# 896 in Best Universities for Engineering (tie)
# 679 in Best Global Universities (tie)
# 902 in Best Universities for Engineering (tie)
# 475 in Best Global Universities (tie)
# 915 in Best Universities for Engineering (tie)
# 483 in Best Global Universities (tie)

MyU : For Students, Faculty, and Staff

Fall 2024 CSCI Special Topics Courses

Cloud computing.

Meeting Time: 09:45 AM‑11:00 AM TTh Instructor: Ali Anwar Course Description: Cloud computing serves many large-scale applications ranging from search engines like Google to social networking websites like Facebook to online stores like Amazon. More recently, cloud computing has emerged as an essential technology to enable emerging fields such as Artificial Intelligence (AI), the Internet of Things (IoT), and Machine Learning. The exponential growth of data availability and demands for security and speed has made the cloud computing paradigm necessary for reliable, financially economical, and scalable computation. The dynamicity and flexibility of Cloud computing have opened up many new forms of deploying applications on infrastructure that cloud service providers offer, such as renting of computation resources and serverless computing. This course will cover the fundamentals of cloud services management and cloud software development, including but not limited to design patterns, application programming interfaces, and underlying middleware technologies. More specifically, we will cover the topics of cloud computing service models, data centers resource management, task scheduling, resource virtualization, SLAs, cloud security, software defined networks and storage, cloud storage, and programming models. We will also discuss data center design and management strategies, which enable the economic and technological benefits of cloud computing. Lastly, we will study cloud storage concepts like data distribution, durability, consistency, and redundancy. Registration Prerequisites: CS upper div, CompE upper div., EE upper div., EE grad, ITI upper div., Univ. honors student, or dept. permission; no cr for grads in CSci. Complete the following Google form to request a permission number from the instructor ( https://forms.gle/6BvbUwEkBK41tPJ17 ).

CSCI 5980/8980

Machine learning for healthcare: concepts and applications.

Meeting Time: 11:15 AM‑12:30 PM TTh Instructor: Yogatheesan Varatharajah Course Description: Machine Learning is transforming healthcare. This course will introduce students to a range of healthcare problems that can be tackled using machine learning, different health data modalities, relevant machine learning paradigms, and the unique challenges presented by healthcare applications. Applications we will cover include risk stratification, disease progression modeling, precision medicine, diagnosis, prognosis, subtype discovery, and improving clinical workflows. We will also cover research topics such as explainability, causality, trust, robustness, and fairness.

Registration Prerequisites: CSCI 5521 or equivalent. Complete the following Google form to request a permission number from the instructor ( https://forms.gle/z8X9pVZfCWMpQQ6o6 ).

Visualization with AI

Meeting Time: 04:00 PM‑05:15 PM TTh Instructor: Qianwen Wang Course Description: This course aims to investigate how visualization techniques and AI technologies work together to enhance understanding, insights, or outcomes.

This is a seminar style course consisting of lectures, paper presentation, and interactive discussion of the selected papers. Students will also work on a group project where they propose a research idea, survey related studies, and present initial results.

This course will cover the application of visualization to better understand AI models and data, and the use of AI to improve visualization processes. Readings for the course cover papers from the top venues of AI, Visualization, and HCI, topics including AI explainability, reliability, and Human-AI collaboration. This course is designed for PhD students, Masters students, and advanced undergraduates who want to dig into research.

Registration Prerequisites: Complete the following Google form to request a permission number from the instructor ( https://forms.gle/YTF5EZFUbQRJhHBYA ). Although the class is primarily intended for PhD students, motivated juniors/seniors and MS students who are interested in this topic are welcome to apply, ensuring they detail their qualifications for the course.

Visualizations for Intelligent AR Systems

Meeting Time: 04:00 PM‑05:15 PM MW Instructor: Zhu-Tian Chen Course Description: This course aims to explore the role of Data Visualization as a pivotal interface for enhancing human-data and human-AI interactions within Augmented Reality (AR) systems, thereby transforming a broad spectrum of activities in both professional and daily contexts. Structured as a seminar, the course consists of two main components: the theoretical and conceptual foundations delivered through lectures, paper readings, and discussions; and the hands-on experience gained through small assignments and group projects. This class is designed to be highly interactive, and AR devices will be provided to facilitate hands-on learning. Participants will have the opportunity to experience AR systems, develop cutting-edge AR interfaces, explore AI integration, and apply human-centric design principles. The course is designed to advance students' technical skills in AR and AI, as well as their understanding of how these technologies can be leveraged to enrich human experiences across various domains. Students will be encouraged to create innovative projects with the potential for submission to research conferences.

Registration Prerequisites: Complete the following Google form to request a permission number from the instructor ( https://forms.gle/Y81FGaJivoqMQYtq5 ). Students are expected to have a solid foundation in either data visualization, computer graphics, computer vision, or HCI. Having expertise in all would be perfect! However, a robust interest and eagerness to delve into these subjects can be equally valuable, even though it means you need to learn some basic concepts independently.

Sustainable Computing: A Systems View

Meeting Time: 09:45 AM‑11:00 AM Instructor: Abhishek Chandra Course Description: In recent years, there has been a dramatic increase in the pervasiveness, scale, and distribution of computing infrastructure: ranging from cloud, HPC systems, and data centers to edge computing and pervasive computing in the form of micro-data centers, mobile phones, sensors, and IoT devices embedded in the environment around us. The growing amount of computing, storage, and networking demand leads to increased energy usage, carbon emissions, and natural resource consumption. To reduce their environmental impact, there is a growing need to make computing systems sustainable. In this course, we will examine sustainable computing from a systems perspective. We will examine a number of questions: • How can we design and build sustainable computing systems? • How can we manage resources efficiently? • What system software and algorithms can reduce computational needs? Topics of interest would include: • Sustainable system design and architectures • Sustainability-aware systems software and management • Sustainability in large-scale distributed computing (clouds, data centers, HPC) • Sustainability in dispersed computing (edge, mobile computing, sensors/IoT)

Registration Prerequisites: This course is targeted towards students with a strong interest in computer systems (Operating Systems, Distributed Systems, Networking, Databases, etc.). Background in Operating Systems (Equivalent of CSCI 5103) and basic understanding of Computer Networking (Equivalent of CSCI 4211) is required.

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Victor Mukhin

Scientific Program

Title : Active carbons as nanoporous materials for solving of environmental problems

However, up to now, the main carriers of catalytic additives have been mineral sorbents: silica gels, alumogels. This is obviously due to the fact that they consist of pure homogeneous components SiO2 and Al2O3, respectively. It is generally known that impurities, especially the ash elements, are catalytic poisons that reduce the effectiveness of the catalyst. Therefore, carbon sorbents with 5-15% by weight of ash elements in their composition are not used in the above mentioned technologies. However, in such an important field as a gas-mask technique, carbon sorbents (active carbons) are carriers of catalytic additives, providing effective protection of a person against any types of potent poisonous substances (PPS). In ESPE “JSC "Neorganika" there has been developed the technology of unique ashless spherical carbon carrier-catalysts by the method of liquid forming of furfural copolymers with subsequent gas-vapor activation, brand PAC. Active carbons PAC have 100% qualitative characteristics of the three main properties of carbon sorbents: strength - 100%, the proportion of sorbing pores in the pore space – 100%, purity - 100% (ash content is close to zero). A particularly outstanding feature of active PAC carbons is their uniquely high mechanical compressive strength of 740 ± 40 MPa, which is 3-7 times larger than that of such materials as granite, quartzite, electric coal, and is comparable to the value for cast iron - 400-1000 MPa. This allows the PAC to operate under severe conditions in moving and fluidized beds. Obviously, it is time to actively develop catalysts based on PAC sorbents for oil refining, petrochemicals, gas processing and various technologies of organic synthesis.

Victor M. Mukhin was born in 1946 in the town of Orsk, Russia. In 1970 he graduated the Technological Institute in Leningrad. Victor M. Mukhin was directed to work to the scientific-industrial organization "Neorganika" (Elektrostal, Moscow region) where he is working during 47 years, at present as the head of the laboratory of carbon sorbents. Victor M. Mukhin defended a Ph. D. thesis and a doctoral thesis at the Mendeleev University of Chemical Technology of Russia (in 1979 and 1997 accordingly). Professor of Mendeleev University of Chemical Technology of Russia. Scientific interests: production, investigation and application of active carbons, technological and ecological carbon-adsorptive processes, environmental protection, production of ecologically clean food.

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PhD in Engineering Management
Programme Name: PhD in Engineering Management Programme Code: P6EM4Q. Medium of Facilitation: part-time, Full-Time NQF Level: 10 NQF Credits: 360 SAQA: 96969. ... Research topics must also be accepted and approved by the supervisors in the Faculty and finally by the Senate or Executive Committee of the Senate of the University.
Best Online Ph.D. In Management Of 2024
Per-credit tuition rates for the 10 qualifying Ph.D. programs in our guide range from. $450 to $1,575. Over the course of a typical 60-credit Ph.D. program, this translates to between $27,000 and ...
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Meeting Time: 04:00 PM‑05:15 PM MW. Instructor: Zhu-Tian Chen. Course Description: This course aims to explore the role of Data Visualization as a pivotal interface for enhancing human-data and human-AI interactions within Augmented Reality (AR) systems, thereby transforming a broad spectrum of activities in both professional and daily contexts.
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Engineering Management Dissertation Topics

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2024 Engineering Management Dissertation Topics

Topic 2: An investigation of the challenges faced by the business in leading themselves towards environmental sustainability due to global value chains and how the businesses mitigate such challenges - A case of Nigerian SME.

Topic 3: What are the modern water treatment techniques to minimize the environmental effects of water waste in the Cement Industry? A Cross-Country analysis

Topic 4: An innovative strategic evaluation of university knowledge and technology transfer efficacy for students up to date on new engineering tools.

Topic 5: Investigating the strategies used to reduce water pollution caused by the maritime transportation system.

Covid-19 Engineering Management Research Topics

Topic 2: Role of engineering management during Covid-19

More Engineering Management Dissertation Topics for 2024

Topic 2: Critical analysis of alternative energy in the least developed countries: The emergence of solar power as a means of providing electricity

Topic 3: Assessing the impact of biogas emission on quality of life and health of individuals living in rural areas: A case study of developing countries.

Topic 4: Challenges facing the concept of sustainable and green engineering

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