telecommunication engineering thesis topics

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To support long-distance communication , telecommunication technology was designed and practically applied through electromagnetic waves / electric signals . At the beginning of telecommunication technologies, it utilizes signal flags, smoke signals, visual signals, semaphore telegraphs, etc. In particular, it utilizes microwaves, radio waves, the internet, telephone medium, a communication satellite, fiber optics, etc. for electromagnetic and electrical telecommunication technologies . 

This page is exactly intended to give you up-to-the-minute telecommunication thesis topics along with interesting research areas!!!

Important Components of Telecommunication

In general, the fundamental telecommunication model is made up of the following three significant components . In addition to these components, other entities may include improving the efficiency of the system which majorly depends on project needs. 

• Transmitter  – It collects the data and transforms it into analog / digital signals based on the requirement
• Transmission medium  – It transmits the data/signal to the physical channel or wireless channel
• Receiver  – It is the reversible process of the transmitter. It collects the signal from the transmission medium and transforms it back to the original data

If the telecommunication system uses a single dedicated channel among transmitter and receiver for data transmission then it is called point-to-point communication . Similarly, if the telecommunication system establishes communication channels among one transmitter and more low-powered receivers for radio communication, then it is called broadcast communication . 

Further, if the telecommunications system uses a physical channel for more number transmitters and receivers for data sharing then it is called a multiplex system . Here, the multiplex signals are moved at nodes for the appropriate receiver (destination). Moreover, it has the main advantage of high-cost reduction for deployment . Below, we have given you the primary layers incorporated in telecommunication systems.

Layers for Telecommunication

• For instance: User premises equipment, transmit devices, switches, etc.
• For instance: Circuit-switched network
• For instance: 0800 services, voice, fax, etc.

To the continuation of layers, now we can see the primary techniques involved in developing telecommunication models . These techniques are globally popular in telecommunication systems. Further, we also support you to develop your techniques (algorithm / pseudo-code for telecommunication thesis topics) to untie the complex knots in code development .

Major Techniques for Telecommunication

• Phase Shift Keying
• Frequency Shift Keying
• Amplitude Shift Keying
• Frequency Modulation
• Phase Modulation
• Amplitude Modulation

In recent days, the revolution of the telecom industry is incredible ranges from plain voice messaging to sophisticated multimedia service regardless of complexity. Nowadays, nearly 5+ billion people are using smartphones. In order to meet the expectation of high storage, high bandwidth, low cost of processing powe r, etc. it enforces to create advanced technologies. Below, we have given you some latest research trends in telecommunication . 

Research Trends in Telecommunication

• Telco Mobility (For instance: smart apps, smart phones, etc.)
• Convergence (For instance: Triple Play, VoIP, Quad Play, etc.)
• Terminal-User Mobility (For instance: location-based services)
• Social Networking (For instance: social media websites, etc.)
• Free Space Optics and Signals (For instance: fading channels)
• 5G enabled Cloud Services (For instances: KaaS, PaaS, SaaS, IaaS, etc.)
• Machine-to-Machine communications (For instance: manufacturing, vehicular sectors, smart logistics, healthcare, etc.)
• Trustable Drone Communication (For instance: disaster monitoring, goods delivery, etc.)
• Enterprise Mobility (For instance: smart logistics, field based sales enforcement, etc.)
• Li-Fi and Wi-Fi
• Terahertz (THz) Communication
• 5G beyond and 6G
• Intelligent Small Antennas Design
• Optical and Cognitive Radio Communication
• Millimeter Wave (mmWave) technology
• Enhanced Signal Detection and Modulation schemes

How to Choose Telecommunication Thesis Topics? 

So far, we have discussed the telecommunication basics, components, layers, techniques, and recent trends . Now, we can see how effectively we can select the thesis topics. Generally, master’s programs are next-level undergraduate programs. The main of the master’s program is to make your expertise and gain more skills in your interested area like telecommunication. Consequently, it teaches you more than your undergraduate subject knowledge.

In undergraduate project work, you can gain knowledge on basics and provide you different range of job opportunities. In master’s program, it makes you specialize in a particular field of study. So, it increases the job opportunities in your interested field. Also, it makes you create your own contribution to social development in the form of research . As are a result, it will create the add-on status of your professional profile. 

Similar to thesis selection, thesis submission is also very important in master’s programs. Since it helps to present your efforts and time on achieving a master’s degree. The telecommunication thesis topics you are choosing for your project will have significant importance in creating the best impression of your thesis in front of your job interviewer. Therefore, keep the following points in mind while selecting a good thesis topic on telecommunication for your master’s program .

Select a topic that is easy to complete fast

• The master thesis is the test for your competency in your interested subject area
• So, make sure that your handpicked topic is handpicked from your interested area
• Also, validate the selected topic for freshness and uniqueness
• Check the future scope of the topic for further study

Confirm the concept for topic

• Analyze the recent issues and challenges in your interested area
• Perform a detailed survey on the previous study related to the topic
• Narrow down the topic after an in-depth examination
• Finalize the concept for your topic (i.e., what you trying to focus on in research)

Develop the project with passion

• Select appropriate research solution and development tool 
• Fill with excitement to practically implement handpicked topic
• Analyze the experimental results through different parameters
• Prepare the master thesis in a structured format 

Hope now you are familiar with thesis topic selection till the thesis submission. Our resource team will help you in all these phases to complete your research on time. We have individual teams for research, development, and thesis . So, it will be more useful for you to avail yourself of the research services in one place like us to formulate telecommunication topics . Further, we have also included a few 5G enabling technologies for the best telecommunication thesis topics for your benefit.

• Massive MIMO
• Big Data Analytics
• Mobile Cloud Computing
• Green IoT-Communications
• Network Ultra-Densification
• Millimetre Wave (mmWave) 
• Scalable Internet Of Things (IoT)
• Network Function Virtualization (NFV)
• New Radio (NR) Access Techniques
• Wireless Software-Defined Network (SDN)
• Device-To-Device Communication with High Mobility

Research Telecommunication Projects

Due to the vast scientific advancements, wireless communication has become more popular among individual and business sectors. In specific, Cognitive Radio , UWB and 5G NS3 have gained more attention among the research community. Additionally, it also includes some technical challenges to developing or deploying real-world applications . And, some of the research-oriented problems are highlighted as follows,

• Modeling of ZIF receivers at the high spectrum
• Multiple Radio Frequency bands Co-existence
• External of internal interference in communication
• Inaccessibility of network components or data
• Modeling of radio transmitter and receivers in extensive bands

Our research team has collected numerous research ideas for solving the above-specified issues . Further, we also like to share other forward-thinking technologies that currently we are working for our handhold research scholars. Beyond the below list of technologies, we have also gathered other innovative communication research ideas and telecommunication thesis topics . These ideas surely present you with the new dimension of telecommunication. 

What are the interesting topics in Telecommunication?

• Enhanced Multiuser MIMO (M-MIMO) Communication Techniques
• Adaptive Wireless Networking and Channel Coding
• Efficient Spectrum Sharing in Cognitive Radio Networks (CRN)
• Designing Energy-Aware Internet Routers for Efficient Transmission
• Improved Network Modeling for Controlling Environmental Pollution
• Remote Patient Health Monitoring in Wireless Body-Area Networks
• Wireless Heterogeneous Communication in 5G-IoT Networks
• Design of Aerial base station and Mission-aware path in UAV Systems
• Accurate Visible light Positioning System
• Employment of Machine Learning Algorithms in VLC-based Applications

Performance Metrics in Telecommunication

Now, we can see the evaluation of developed models for analyzing network performance and the quality of services . On the one hand, network performance is measured through different standardized networking/simulation parameters . For instance: broadcast latency, jitter (delay variation), bit error rate, computing time, etc. On the other hand, quality of service is nothing but excellence of service that user receives at destination point and also it checks whether the received quality is same with original produced quality. 

What is QoS in telecommunication?

As mentioned earlier, QOS plays a major role in measuring the whole service performance which the network users specifically receive. For instance: cloud-oriented services, network services, telephony, etc. 

At present, several technologies are widely along with telecommunications such as deep learning, artificial intelligence, machine learning, 6G networks, full-duplex communication, spectrum utilization, free-space optical communication , etc. All these technologies are essential to meet the required QoS. And, some of the performance metrics that have high possibilities to influence the QoS are given as follows, 

• Network lifespan
• Bit Error Rate
• Energy Utilization
• Energy-spectral efficiency
• Fault Tolerance

On the whole, we provide you best research, code development, and thesis writing services for any sort of telecommunication thesis topics . Further, if you are interested to know more exciting research perspectives of telecommunication, we are ready to support you in all means of the latest research advancements. 

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Home » TELECOMMUNICATION THESIS IDEAS/TOPICS

TELECOMMUNICATION THESIS IDEAS/TOPICS

Telecommunications refers to the electrical transfer of data throughout long ranges. Voice telephone conversations, information, texts, photos, or multimedia would all be used to communicate messages. Telecommunications are being utilized to connect distant systems to form network infrastructure.

This article is a complete picture of various telecommunication thesis ideas and methods of doing successful research in them.

Let us first start with the basics of Telecommunication.

What is T elecommunication and examples?

Telecommunication is the use of electromagnetic waves or radio signals to communicate over long distances

• The telephone system
• Radio broadcasting systems
• Computer systems

These are all examples of telecommunications systems. Our technical experts have worked with top researchers of the world and so we have gained a lot of expertise in telecommunication projects . You shall talk to our research experts for a more detailed explanation of any aspects of Telecommunication networks . Let us now look into the structure of Telecommunication networks

Telecommunication Network Structure 

Each telecommunications network, generally, is divided into three components, (or planes) and are considered as independent overlay networks

• It is the career of real payload or user traffic in the network 
• It is also called bearer plane, user plane, and forwarding plane
• Data related to network controls are carried by this plane
• This process is also called signaling
• Administration related operations and management of traffic is performed using this plane
• At times it is also considered to be an inherent aspect of control plane

Once you reach out to us we will provide you with an ample amount of research data and information from authentic research materials to give you an overall understanding of the different components involved in the architecture of Telecommunication networks as mentioned above. Now let us talk about the purposes of establishing telecommunication networks. 

What are the Objectives of Telecommunication Networks?

• Maximization of allocating bandwidth and power
• Fair allocation of resources and load balancing
• Reducing congestion and enhancing fault tolerance
• Ensuring network security

Apart from these general objectives, we have also worked on specific research objectives and have delivered successful telecommunication projects . We also stand with our customers in the real-time implementation and help them in making analyses for further improvement with telecommunication thesis ideas. Let us know to see the conventional protocols used in telecommunication networking .

Traditional Telecommunication Protocols

• The word protocol is often used in telecommunications to refer to a collection of laws and restrictions that regulate the aspect of digital data exchange among entities located at various distances
• Furthermore, because telecommunication encompasses a wide range of technological developments, several protocols are used to facilitate flow of information in various sectors of electronic communication. 

The following are the most important protocols used in telecommunication network projects

• Base station management application part (or BSMAP), base station subsystem application part (or BSSAP) and base station subsystem management application part (or BSSMAP)
• Base transceiver station management (or BTSM) and short message service transfer layer protocol (or SMSTP)
• Mobile application part (or MAP) and direct transfer application part (or DTAP)
• Stream control transmission protocol (or SCTP) and signalling system 7 (or SS7)
• Integrated Services Digital Network (or ISDN) protocols
• V5.1 and V5.2 protocols
• Session Initiation Protocol (or SIP) and Media Gateway Control Protocol (or GCP) 
• Session Announcement Protocol (or SAP), Signalling Gateway Control Protocol (or SGCP) and Session Description Protocol (or SDP)
• Multipurpose Internet Mail Extension (or MIME) and H.248 and H.323
• Internet Protocol (or IP), Hyper-text Transfer Protocol (or HTTP) and Simple mail transfer Protocol (or SMTP)
• Transmission Control Protocol (or TCP), File Transport Protocol (or FTP) and Post Office Protocol (or POP)
• Reservation Control Protocol (or RSVP), Unified Datagram Protocol (or UDP) and Dynamic Host Control Protocol (or DHCP)
• Real Time Protocol (or RTP) and Border Gateway Protocol (or BGP)

Usually, we provide total technical assistance which covers the writing algorithms and handling all standard protocols . So you shall feel free to contact us for solving any kind of technical queries regarding these protocols. The following is a comparison of UDP and TCP transport protocols .

UDP and TCP transport protocols comparison

• Packet loss is not detected and delivery is out of order and is also not guaranteed
• Jitter and delay are minimized
• It can be implemented in real time applications
• Connection cost  and packet header overhead are 28 bytes and 8 bytes respectively 
• Idle session timeout is 5 minutes
• Faster data transmission and live streaming are supported
• They are used in association with TFTP, DHCP, VoIP, SNMP, DNS and RIP
• Packet losses can be detected
• It provides for byte – oriented flow and reliable packet delivery (in – order)
• Congestion control, Jitter and delay in retransmissions 
• Difficulty in real time deployments
• Correction of errors and redundancy are supported
• Packet header overhead and connection cost are 20 bytes and 300 bytes respectively
• 60 minutes is the idle session out timing
• It is generally deployed in SMTP, FTP and HTTP 

Both of these protocols are packet-based approaches. These are the best efforts for connectionless or wireless establishments . You shall get complete guidance regarding the practical applications of these protocols from us. Now let us look into the important applications of Telecommunication networks

Applications of Telecommunication networks

The following points will let you know how technically the telecommunication networks are used in our daily life

• Elastic and non-interactive – email and file downloads
• Nonelastic and non-interactive – VOID, TV, broadcast, and streaming
• Elastic and interactive – browsing the web
• Nonelastic and interactive – Online gaming, video conferencing, and VoIP
• ITU – T classification – data related, audio and video

As we have guided a lot of successful telecommunication projects we have also implemented them in real-time on both large and small scales . So we are ready with huge resources to guide you by giving major implementation tips and handling various simulation software . Let us now see the major factors that affect telecommunication.

Important Factors for Telecommunication Networks

• Conversion of measurements into decision (reasons)
• Network operators interactions 
• Measurements flow (methods followed)
• Measurement time scale (timing)
• Measurement location 
• The type of data model of measurements

Interact with our technical experts regarding how these factors affect the practical telecommunication network installations . Let us now talk about the telecommunication network types,

Types of Telecommunication networks

• Packet switched Network and Public Switched Telephone Networks (or PSTN)
• Computer networks (Ethernet, wireless, ARPANET and internet)
• Radio networks (MIMO, 5G Network Projects , 6G, millimetre wave and m-MIMO)

Based on the specific objective or need of your project you can choose the type of network. Talk to our research team about the merits and demerits of these types . Let us not talk about the technologies involved in telecommunication network establishments .

Telecommunication Technology

• Nyquist rate and criterion for Nyquist ISI
• Pulse shaping, Antenna beamforming and radio channel
• Multicell cooperation and Intersymbol interference 
• Modulation (amplitude, frequency and quadrature amplitude)

Apart from the technologies mentioned here, there are many more technical aspects and various approaches involved in telecommunication projects . You can contact us at any time for further understanding of these techniques starting with telecommunication thesis ideas . We will now give you some tips for writing a good mobile communication thesis.

Important tips for Good thesis topic selection

• It’s not easy to come up with a thesis topic. Within the research disciplines, researchers are expected to find anything really exciting, inventive, and meaningful 
• Each day brings more concern as the timeframe for completing your thesis subject and potential supervisor approach

This may be more difficult than drafting the thesis actually. Here are a few pointers to help you come up with an interesting, practical, and possibly unique thesis

• Pinpoint a theme regarding which you are genuinely enthusiastic and interested 
• Assert the core concepts about this theme
• Give a rationale (unresolved issues) to substantiate the key idea
• Provide additional argument (current / developing) to validate the central argument
• Add additional justification (problems to be solved) to back up your central point
• Once appropriate, use a counter-argument to the primary issue

We have got certified teams of writers and developers to assist you in all these aspects. So you can completely rely on as for writing one of the best telecommunication thesis . Let us now look into the recent telecommunication thesis ideas

Latest Interesting Telecommunication Thesis Ideas

• Innovative structural aspects of telecommunication network
• Designing mmWave systems which are ultra-reliable
• Characterization of antenna designs (advanced techniques in multiple antenna systems)
• Plan, optimization and management of mobility in communication networks
• Telecommunication network support using RAN and SDN Load Balancing
• Analysing Dense networks of telecommunication 
• Modelling, estimating, measurements and sounding of telecommunication channels
• Telecommunication frequency cooperation and coordination at multi node and multi beam
• Ultra-reliable mmWave, telecommunication reconfigurable intelligent surface and cell free telecommunication System designing 
• Telecommunication for applications of virtual reality, satellite communication and airborne networks and vehicular networks
• Localization based on mmWave at high resolution

For a detailed explanation and further assistance on these telecommunication thesis topics , you shall reach out to us at any time. We function throughout day and night to support you. Let us now talk about the merits of neural networks.

What are the advantages of Neural networks in telecommunication Networks?

• Flow of data through neural networks
• Allows plugging in of various neural networks
• Specialized neural networks (for certain tasks) during various neural networks data transmission and reception 
• Enhancing the data transmission (evolving)
• Communication among specific neural networks
• Input chaining and Neural network output
• Architecture of computer networks (system of communication that allows for data transmission among various computer components)
• Permits additional data requests for tedious tasks (difficult to resolve)

We will provide you advanced research data to give you a great understanding of different aspects of Telecommunication networks . Research scholars and final year students actively approach us by considering our successful projects that were delivered and ongoing. In this regard, we are able to provide you the various quality of service parameters used in assessing different telecommunication projects .

Quality of Service (QoS) for Telecommunication Networks

• Quality of service (QoS) factors are those combination of a telecommunication platform’s features that influence its capacity to meet the expressed and implicit expectations of its stakeholders
• Due to highly dynamic route allocations, energy efficiency, and fault – tolerant measures deployed, achieving QoS is often difficult
• As a result, multiple QoS categories could be evaluated in order to synchronize the network structure and protocols deployed for specific purposes
• In ad-hoc communications via refining routing decisions
• In cellular systems via mobility Predictions and call admission control (or CAC) 

The following are the important quality of service parameters that can be used in telecommunication network analysis

• Time of transmission and link throughput
• Packet delivery ratio and average end to end delay
• Total throughput of the network

All our projects have shown excellent results when accessed based on these parameters. Let us now look into the quality of experience parameters involved in telecommunication network performance analysis .

QoE Metrics for telecommunication networks

QoE is the general acceptance of a program or service, as judged by the end-users.  The Quality of Experience (QoE) is a method for measuring and reporting the users’ experience and perceptions of services, usually as quantitative data.

• The QoE on the other hand, is more than an indication because it investigates the degree of confidence and responsiveness to the services. While contemplating how to construct the entire network of telecommunication services, it is an essential factor to address
• The QoE metrics can be linked to qualitative and quantitative performance standards
• So they extend beyond augmenting the practical performance measures provided by the QoS metrics
• As 5G systems change from network-centric mode to human-centric design, network monitoring evolves from QoS to QoE performance assessment

So understanding all the QoE metrics used in telecommunication networks plays an important role in assessing the performance of your project. Therefore, let us now talk about the Peak signal-to-noise ratio which is among the most often utilized QoE quantifiable measurements (PSNR)

• As video streaming services tend to rise congestion in upcoming broadband services, it could be used to assess the quality of service delivery and also to identify any defects
• The PSNR is indeed the basic FR kind of the QoE measure
• It is basically an inverted measurement of the mean square error (MSE)
• Yet, because the PSNR measurement is already demonstrated to be incompatible with human vision, additional complicated FR measurements including as the structural similarity index (or SSIM) and perceptual evaluation of video quality have been established (or PEVQ)

Let us now look into some of the other important subjective metrics used in this regard for the evaluation of data transmission in telecommunication networks

• Used in measuring the quality of video
• It is little sensitive to the context
• It may not be efficient for deployment in real-time assessments
• This is used in applications like video streaming, television, multimedia and picture quality
• This metric is a combination of several factors related to network vulnerabilities which include delays and packet losses
• It is better suited for applications like real time monitoring, video streaming, RR and NR approaches and IPTV
• It evaluate the information degradation like contrast and luminance
• So it is used in assessing the quality of videos, images and FR methods
• It is involved in real time quality assessment of communication using packets
• Audio and video quality are assessed using this parameter
• The artefacts as a result of human activities which include the gallery distortions, blocks and codec types are measured using this metric
• It is used in applications like FR methods and video quality assessment
• Vulnerabilities in both time and space are considered by this metric
• It involves higher cost of computation and memory
• It is used in applications related to FR methods
• As we have seen before it finds the similarity among various images by utilising mean squared error
• Though perception of users are not considered it becomes the better metric for simple assessment of video quality

Connect with us for a detailed comparative and technical report on the performance analysis of Telecommunication Projects . With all our devoted teams of technical experts’ writers and developers, we help you in choosing the best topic for your telecommunication thesis ideas and Research projects . We also are sure to stand with you throughout your entire research providing all kinds of research assistance. 

• Bibliography
• More Referencing guides Blog Automated transliteration Relevant bibliographies by topics
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• Relevant bibliographies by topics
• Referencing guides

Dissertations / Theses on the topic 'Telecommunications engineering'

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Consult the top 50 dissertations / theses for your research on the topic 'Telecommunications engineering.'

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You can also download the full text of the academic publication as pdf and read online its abstract whenever available in the metadata.

Browse dissertations / theses on a wide variety of disciplines and organise your bibliography correctly.

Leue, Stefan. "Methods and semantics for telecommunications systems engineering /." [S.l.] : [s.n.], 1994. http://www.ub.unibe.ch/content/bibliotheken_sammlungen/sondersammlungen/dissen_bestellformular/index_ger.html.

Gonçalves, Heidy Christina. "Exploring ESP in electronic engineering and telecommunications." Master's thesis, Universidade de Aveiro, 2009. http://hdl.handle.net/10773/8719.

Wagner, Michael D. Turner Nathan L. "Requirements analysis and course improvements for EO3502 telecommunications systems engineering /." Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2005. http://library.nps.navy.mil/uhtbin/hyperion/05Mar%5FWagner.pdf.

Turner, Nathan L., and Michael D. Wagner. "Requirements analysis and course improvements for EO3502 telecommunications systems engineering." Thesis, Monterey, California. Naval Postgraduate School, 2005. http://hdl.handle.net/10945/2260.

Ng, Trina Tsao-Tin. "Domain transformations for optical telecommunications signals." Thesis, University of Southampton, 2010. https://eprints.soton.ac.uk/301294/.

Correia, Rose Mary. "Legal aspects of multimodal telecommunications." Thesis, McGill University, 1995. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=23309.

Hoshino, Takashi. "Telecommunications development : policy recommendations for developing countries." Thesis, Massachusetts Institute of Technology, 1996. http://hdl.handle.net/1721.1/39058.

Faci, Mohammed. "Detecting feature interactions in telecommunications systems designs." Thesis, University of Ottawa (Canada), 1995. http://hdl.handle.net/10393/10165.

Knox, David. "Telecommunications call processing on a linear processor array." Thesis, University of Ottawa (Canada), 1996. http://hdl.handle.net/10393/9585.

Dalmia, Atul 1976. "A Web-based laboratory of travel and telecommunications behavior." Thesis, Massachusetts Institute of Technology, 2000. http://hdl.handle.net/1721.1/80976.

Bocci, Matthew. "Concurrent cell rate simulation of ATM telecommunications network." Thesis, Queen Mary, University of London, 1997. http://qmro.qmul.ac.uk/xmlui/handle/123456789/3806.

Zhang, Tong. "Improving the performance of a traffic data management system." Ohio : Ohio University, 1999. http://www.ohiolink.edu/etd/view.cgi?ohiou1175198741.

Bergman, Douglas Robert. "Three essays on economic issues in telecommunications." Diss., The University of Arizona, 2001. http://hdl.handle.net/10150/289730.

Gonnella, Pierpaolo. "Development of a V2X Platform for Predictive Driving Functions Validation." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020.

Osgoie, Mahtab Ghafari. "A survey of earthquake-induced damage to telecommunications towers (1999-2011)." Thesis, McGill University, 2012. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=112070.

Cuthbert, David S. (David Scott). "Innovative ordering and distribution of grocery products using advanced telecommunications." Thesis, Massachusetts Institute of Technology, 1994. http://hdl.handle.net/1721.1/12102.

Yeh, Emily. "Technologies and policies for an evolving telecommunications sector in China." Thesis, Massachusetts Institute of Technology, 1995. http://hdl.handle.net/1721.1/36081.

Xiao, Justin (Justin T. ). "Technoeconomic analysis of perovskite photovoltaic manufacturing for powering telecommunications Towers." Thesis, Massachusetts Institute of Technology, 2018. http://hdl.handle.net/1721.1/119698.

Koul, Ashish 1979. "Device-oriented telecommunications customer call center demand forecasting." Thesis, Massachusetts Institute of Technology, 2014. http://hdl.handle.net/1721.1/90787.

Charangwa, Mark. "Evaluating the effectiveness of Cooperative/Coordinated Multipoint (CoMP) LTE feature in uplink and downlink transmissions." Master's thesis, University of Cape Town, 2017. http://hdl.handle.net/11427/27468.

Malila, Bessie. "Architecture of a cognitive non-line-of-sight backhaul for 5G outdoor urban small cells." Doctoral thesis, University of Cape Town, 2017. http://hdl.handle.net/11427/27279.

Shih, Ta-Ming Ph D. Massachusetts Institute of Technology. "Indium phosphide based integrated photonic devices for telecommunications and sensing applications." Thesis, Massachusetts Institute of Technology, 2012. http://hdl.handle.net/1721.1/75449.

Hamdulay, Irfaan. "Investigating critical success factors for project completion in a South African telecommunications company." Master's thesis, University of Cape Town, 2018. http://hdl.handle.net/11427/29725.

Dahlberg, Anders. "Traffic Engineering in a Bluetooth Piconet." Thesis, Blekinge Tekniska Högskola, Institutionen för telekommunikation och signalbehandling, 2002. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-5759.

Bobor-Oyibo, Freeborn. "Dynamic capacity enhancement using a smart antenna in mobile telecommunications networks." Thesis, Northumbria University, 2012. http://nrl.northumbria.ac.uk/5840/.

Chayanam, Kavitha. "Analysis of Telecommunications Outages Due to Power Loss." Ohio University / OhioLINK, 2005. http://www.ohiolink.edu/etd/view.cgi?ohiou1125024491.

Kutluay, Koray. "Fully Digital Parallel Operated Switch-mode Power Supply Modules For Telecommunications." Phd thesis, METU, 2005. http://etd.lib.metu.edu.tr/upload/12606640/index.pdf.

Nappier, Jennifer M. "An FPGA Abstraction Layer for the Space Telecommunications Radio System." Case Western Reserve University School of Graduate Studies / OhioLINK, 2009. http://rave.ohiolink.edu/etdc/view?acc_num=case1227033556.

Haimowitz, Bruce Raymond. "The Telecommunications Act of 1996 : business access, and implications for integrated carriers." Thesis, Massachusetts Institute of Technology, 1997. http://hdl.handle.net/1721.1/42607.

Mian, Azhar Ali, and Sardar Usman Khalid. "Multi-Protocol Label Switching Traffic Engineering with QoS." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-4201.

Cameron, Grant Arthur 1960. "A model and algorithm for sizing and routing DCS switched telecommunications networks." Diss., The University of Arizona, 1998. http://hdl.handle.net/10150/282772.

Sheriff, Ray E. "The 2010 Electronics and Telecommunications Research Seminar Series: 9th Workshop Proceedings." University of Bradford, 2010. http://hdl.handle.net/10454/4355.

Ranatunga, Channa. "Introducing an effect of climate change into global models of rain fade on telecommunications links." Thesis, University of Hull, 2014. http://hydra.hull.ac.uk/resources/hull:11321.

Melcher, Douglas C. "State and local telecommunications networks : institutional and political factors influencing government deployment strategies." Thesis, Massachusetts Institute of Technology, 1996. http://hdl.handle.net/1721.1/39090.

Naeser, Gustaf. "A flexible framework for detection of feature interactions in telecommunication systems." Licentiate thesis, Uppsala universitet, Avdelningen för datorteknik, 2000. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-226515.

Gwandu, B. A. L. "Design and fabrication of advanced fibre gratings and their applications to sensing instrumentations and telecommunications." Thesis, Aston University, 2003. http://publications.aston.ac.uk/8004/.

Gallegos, Martínez Héctor Javier. "The privatization and liberalization of the Mexican telecommunications sector : new technology and policy alternatives." Thesis, Massachusetts Institute of Technology, 1996. http://hdl.handle.net/1721.1/38840.

Mutooni, Philip Kyalo. "Telecommunications @ crossroads : the transition from a voice-centric to a data-centric communication network." Thesis, Massachusetts Institute of Technology, 1997. http://hdl.handle.net/1721.1/43453.

Arvedal, David. "Analyzing network monitoring systems and objects for a telecommunications company." Thesis, Mälardalens högskola, Akademin för innovation, design och teknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-35610.

Jarahnejad, Mariam, and Ali Zaidi. "Exploring the Potential of Renewable Energy in Telecommunications Industry." Thesis, KTH, Skolan för industriell teknik och management (ITM), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-231344.

Kawai, Shingo S. M. Massachusetts Institute of Technology. "Strategies to enhance long-term competitiveness in the telecommunications industry : lessons for NTT." Thesis, Massachusetts Institute of Technology, 2014. http://hdl.handle.net/1721.1/105296.

Nyström, Jan. "A formalisation of the ITU-T Intelligent Network standard." Licentiate thesis, Uppsala universitet, Avdelningen för datorteknik, 2000. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-226522.

Menafra, Valentina Francesca. "Advanced business models for beyond 5G and 6G network architectures." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2021. http://amslaurea.unibo.it/23835/.

Cruz, Alemán Guillermo Alberto. "The drivers of foreign direct investment in telecommunications among developing countries : the role of government." Thesis, Massachusetts Institute of Technology, 2009. http://hdl.handle.net/1721.1/58168.

Robinson, Brian E. "A System Dynamics Approach to Planning Systems-of-Systems Modernization| A Wireless Telecommunications Interface Standard Case Study." Thesis, The George Washington University, 2018. http://pqdtopen.proquest.com/#viewpdf?dispub=10845319.

For decades, the United States (U.S.) Department of Defense (DoD) has developed, deployed, and operated hundreds of different types of systems as components of systems-of-systems. Achieving and maintaining joint systems-of-systems interoperability as new systems are added is a constant problem. The Army, Navy, U.S. Marine Corps, and Air Force each develop requirements, budgets, and acquire, field and operate systems that function as part of joint systems-of-systems. Technology and threats are rapidly evolving. These globally deployed systems and systems-of-systems employed by combatant commanders must be continuously modernized or risk becoming obsolete, resulting in potential mission failure and loss of life.

Using a wireless telecommunications interface standard case study, this research developed a unique method of planning systems-of-systems modernization using a system dynamics (SD) approach. This approach: a) accounts for key factors that influence the dynamic behavior of systems-of-systems modernization, impacting the ability to modernize systems-of-systems, and b) enables what-if analysis, and decision-making support of systems-of-systems modernization planning options. This research used a mixed-methods approach to demonstrate that the SD model is measurably superior to past practice. Quantitative statistical analysis was performed on 20 years’ (2001–2020) of data. A qualitative, scenario-based approach was used to develop an SD model. The results demonstrate that engineers, managers, and senior decision makers in the DoD can realize statistically significant gains by using an SD model to develop and explore systems-of-systems modernization planning options. This research’s original contribution to knowledge is the development and validation of an SD model for planning systems-of-systems modernization using a mixed-methods research approach.

Sheriff, Ray E. "The 2009 Electronics and Telecommunications Research Seminar Series: 8th Workshop Proceedings." University of Bradford, 2009. http://hdl.handle.net/10454/3559.

Pereira, Lucas Santos. "Estudo de antenas de microfita com dupla-banda e dupla-polarização para aplicação em redes retro-diretivas." Universidade Federal do Pampa, 2015. http://dspace.unipampa.edu.br:8080/xmlui/handle/riu/746.

Al-Debei, Mutaz M. "The design and engineering of innovative mobile data services : an ontological framework founded on business model thinking." Thesis, Brunel University, 2010. http://bura.brunel.ac.uk/handle/2438/4397.

Takeuchi, Takaaki. "Strategic issues for Japanese electric utilities in the telecommunications business : can utilities light up on the information superhighway?" Thesis, Massachusetts Institute of Technology, 1995. http://hdl.handle.net/1721.1/35452.

Grego-Nagel, Anne C. "An exploratory study of the adoption of mobile telecommunications service in order to improve mobile health service development." Diss., Kansas State University, 2016. http://hdl.handle.net/2097/34554.

Electrical and Electronic Engineering Theses

Permanent uri for this collection.

This collection is made up of doctoral and master theses by research, which have been received in accordance with university regulations.

For more information, please visit the UCD Library Theses Information guide .

Recent Submissions

• Publication RF Amplification and Filtering Techniques for Cellular Receivers ( University College Dublin. School of Electrical and Electronic Engineering, 2021 ) Bozorg, Amir   The usage of various wireless standards, such as Bluetooth, Wi-Fi, GPS, and 4G/5G cellular, has been continually increasing. In order to utilize the frequency bands efficiently and to support new communication standards with lower power consumption, lower occupied volume and at reduced costs, multimode transceivers, software defined radios (SDRs), cognitive radios, etc., have been actively investigated. Broadband behavior of a wireless receiver is typically defined by its front-end low-noise amplifier (LNA), whose design must consider trade-offs between input matching, noise figure (NF), gain, bandwidth, linearity, and voltage headroom in a given process technology. Moreover, monolithic RF wireless receivers have been trending toward high intermediatefrequency (IF) or superhetrodyne radios thanks to recent breakthroughs in silicon integration of band-pass channel-select filters. The main motivation is to avoid the common issues in the currently predominant zero/low-IF receivers, such as poor 2nd-order nonlinearity, sensitivity to 1/f (i.e. flicker) noise and time-variant dc offsets, especially in the fine CMOS technology. To avoid interferers and blockers at the susceptible image frequencies that the high-IF entails, band-pass filters (BPF) with high quality (Q) factor components for sharp transfer-function transition characteristics are now required. In addition, integrated low-pass filters (LPF) with strong rejection of out-of-band frequency components are essential building blocks in a variety of applications, such as telecommunications, video signal processing, anti-aliasing filtering, etc. Attention is drawn toward structures featuring low noise, small area, high in-/out-of-band linearity performance, and low-power consumption. This thesis comprises three main parts. In the first part (Chapters 2 and 3), we focus on the design and implementation of several innovative wideband low-noise (transconductance) amplifiers [LN(T)A] for wireless cellular applications. In the first design, we introduce new approaches to reduce the noise figure of the noise-cancellation LNAs without sacrificing the power consumption budget, which leads to NF of 2 dB without adding extra power consumption. The proposed LNAs also have the capability to be used in current-mode receivers, especially in discrete-time receivers, as in the form of low noise transconductance amplifier (LNTA). In the second design, two different two-fold noise cancellation approaches are proposed, which not only improve the noise performance of the design, but also achieve high linearity (IIP3=+4.25 dBm). The proposed LN(T)As are implemented in TSMC 28-nm LP CMOS technology to prove that they are suitable for applications such as sub-6 GHz 5G receivers. The second objective of this dissertation research is to invent a novel method of band-pass filtering, which leads to achieving very sharp and selective band-pass filtering with high linearity and low input referred (IRN) noise (Chapter 4). This technique improves the noise and linearity performance without adding extra clock phases. Hence, the duty cycle of the clock phases stays constant, despite the sophisticated improvements. Moreover, due to its sharp filtering, it can filter out high blockers of near channels and can increase the receiver’s blocker tolerance. With the same total capacitor size and clock duty cycle as in a 1st-order complex charge-sharing band-pass filter (CS BPF), the proposed design achieves 20 dB better out-of-band filtering compared to the prior-art 1st-order CS BPF and 10 dB better out-of-band filtering compared to the conventional 2nd-order C-CS BPF. Finally, the stop-band rejection of the discrete-time infinite-impulse response (IIR) lowpass filter is improved by applying a novel technique to enhance the anti-aliasing filtering (Chapter 5). The aim is to introduce a 4th-order charge rotating (CR) discrete-time (DT) LPF, which achieves the record of stop-band rejection of 120 dB by using a novel pseudolinear interpolation technique while keeping the sampling frequency and the capacitor values constant.   82
• Publication Frequency Control of Virtual Power Plants ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Zhong, Weilin   ; 0000-0001-6737-4873 The Virtual Power Plant (VPP) concept refers to the aggregation of Distributed Energy Resources (DERs) such as solar and wind power plants, Energy Storage Systems (ESSs), flexible loads, and communication networks, all coordinated to operate as a single generating unit. Using as starting point a comprehensive literature review of the VPP concept and its frequency regulation technologies, the thesis proposes a variety of frequency control and state estimation approaches of VPPs, as follows. First, the thesis studies the impact of coordinated frequency control of VPPs on power system transients, in which ESSs are utilized to provide fast frequency regulation. The thesis also proposes a simple yet effective coordinated control of DERs and ESSs able to integrate the total active power output of the DERs, and, thus, to improve the overall power system dynamic performance. The impact of topology on the primary frequency regulation of VPPs is also investigated. With this regard, two types of VPPs topologies are considered, that is, a topology where the DERs that compose the VPP are scattered all-over the transmission grid; and a topology where the DERs are all connected to the same distribution system that is connected to the rest of the transmission grid through a single bus. Next, the thesis proposes a control scheme to improve the dynamic response of power systems through the automatic regulators of converter-based DERs. In this scheme, both active and reactive power control of DERs are varied to regulate both frequency and voltage, as opposed to current practice where frequency and voltage controllers are decoupled. To properly compare the proposed control with conventional schemes, the thesis also defines a metric that captures the combined effect of frequency/voltage response at any given bus of the network. Finally, the thesis presents an on-line estimation method to track the equivalent, time-varying inertia as well as the fast frequency control droop gain provided by VPPs. The proposed method relies on the estimation of the rate of change of the active and reactive power at the point of connection of the VPP with the rest of the grid. It provides, as a byproduct, an estimation of the VPP’s internal equivalent reactance based on the voltage and reactive power variations at the point of connection. Throughout the thesis, the proposed techniques are duly validated through time domain simulations and Monte Carlo simulations, based on real-world network models that include stochastic processes as well as communication delays.   139
• Publication Low-Complexity Digital Predistortion for 5G Massive MIMO and Handset Transmitters ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Wang, Xiaoyu   The demand for new wireless communication systems to support high mobility and low latency necessitates a rethink of the architecture of wireless communication systems as well as the design of their key components. This thesis presents several novel techniques to solve the major challenges in digital predistortion (DPD) for millimeter wave multi-input multi-output (MIMO) and handset transmitters to lower the hardware cost and computational complexity of the fifth generation (5G) communication systems. The first part of the thesis focuses on the architecture of the MIMO DPD solution for 5G transmitters. To extract DPD model coefficients, a feedback data acquisition path is required. In conventional single-input single-output (SISO) systems, the output is usually acquired directly from the power amplifier (PA) with a coupler. In massive MIMO systems, the number of RF chains is large. Using dedicated feedback paths for each PA separately is not feasible. To lower the hardware cost, a novel data acquisition scheme is proposed to obtain the output signals in far field over the air (OTA) using a single antenna and feedback loop, and then reconstruct the output of each PA. Simulation and experimental results demonstrate that the proposed OTA data acquisition can accurately reconstruct the output of each PA in the MIMO systems and the DPD solutions derived from the reconstructed data can successfully linearize the nonlinear MIMO transmitters. In the multi-user scenario, the nonlinearity of the transmitters varies with the movement of user equipments (UEs), and the DPD model coefficients need to be updated accordingly. To meet the requirement of high mobility, the complexity of the system update must be low. In the second part of the thesis, we present a new DPD system, where DPD model can be updated fast and accurately without capturing PA output or applying costly model extraction algorithms. In the proposed method, nonlinear characteristics of the PA are encoded into low-dimensional PA features using feature extraction algorithms. To identify DPD model coefficients, PA features are extracted first and the DPD model coefficients are then generated directly by DPD generator with PA features. Experimental results show that the proposed DPD solution can linearize PA with very low complexity compared to that using the conventional solutions. Finally, the focus shifts to handset transmitters. Conventionally, DPD is usually deployed for high power base stations. With the continuously increasing bandwidth, DPD may also be required for handset PAs in 5G communication systems. Different from the models used for base stations, DPD model for handset PAs must have very low complexity because of the stringent power budget limit. At the same time, the tolerance for load mismatch must also be considered. The third part of the thesis analyzes the characteristics of handset PAs with load mismatch and introduces a low-complexity DPD model based on magnitude-selective affine (MSA) function. Experimental results demonstrate that the extended MSA (EMSA) model shows better linearization performance while keeping much lower complexity than the conventional DPD models.   9
• Publication Circularly Polarized Antennas for 5G Millimetre-Wave Communications ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Sadeghi-Marasht, Samaneh   The need of a higher data rate, lower latency, and cost efficiency led to the fifth-generation (5G) emerging as a new communication standard. This generation includes many unused frequencies with high available bandwidth channels that can provide higher capacities such as millimeter-wave (mm-wave) bands. One of the main challenges of working at high frequencies of this generation is path loss that needs to be addressed. To overcome this issue, a high gain antenna with a small size is required. Consequently, the first major question arises: how to effectively increase the gain and efficiency of the antenna at a high frequency with a small size. Importantly, it is vital to transport as much as data is possible without any sensitivity to the alignment of the transmitter or receiver antenna that can be satisfied by using circularly polarized (CP) radiating waves. Thus, the second research question emerges: how to provide high gain small size antenna with CP at high frequencies. To address the first two major research questions in this thesis we designed a miniature dual-band CP antenna that works at 28 GHz and 38 GHz with high gain. This antenna can be implemented in mobile devices, unmanned aerial vehicles (UAVs), and base stations (BSs) because of the small sizes of 11 × 14 × 0.508 mm3. For getting a deep insight into the structure and the design procedures of the dual-band antenna, characteristic mode analysis (CMA) is employed. Note that the CMA is not sensitive to the feeding position and the material in this analysis is not lossy. Therefore, after using CMA, the optimization is conducted in the full-wave simulation as the feeding is added to the structure, and the material is lossy. The single CP antenna covered the bands of 27-28.4 GHz and 34.7-40 GHz, with a maximum gain of 6.3 dBiC and 5.51 dBiC at 28 GHz and 38 GHz, respectively, whereas the radiation efficiency is 94% and 96% with the ARBW of 2.5% and 1.5%. A phased antenna array is then constructed to provide a higher gain for this designed dual-band antenna. In a phased antenna array we consider four designed single element antennas close to each other to create a 2 × 2 antenna array with high gain at 28 GHz and 38 GHz. For a 4 × 4 antenna array, an electromagnetic band-gap (EBG) is used to reduce the mutual coupling between elements in the array. The radiating signals will be sent to different users with circular polarization via electronic beamforming. The position of each antenna element is also optimized to provide the constructive radiating wave towards our desired directions. The array was able to steer the beam between -26.5 to 29.5 degrees for the lower band and -29.5 to 35.5 degrees for the higher band with the maximum gain of 12.8 dBiC and 11.5 dBiC, respectively. Another method to enhance the gain is implementing a lens structure in front of the radiating antenna. Here, a significant challenge is to maintain the CP of the incoming CP wave while the gain is increased. Therefore, the third research question is how to design a lens with the capability of enhancing the gain and keeping the CP when the lens is fed by a CP antenna source. Concerning the third major research question, in this thesis, we designed a CP lens structure. First, a multi-layer lens with a thickness of 2.03 mm was designed, and then a one-layer lens structure with a thickness of just 0.508 mm was made. The lens was located in front of different radiating antennas. These lens structures resulted in significant gain enhancement for various feeding antennas working at 28 GHz. The unit cell of the one-layer lens can provide a broad phase shift compared to the multi-layer counterpart. The proposed lens structures not only increased the gain of the incoming CP wave but also kept its polarization to overcome the issues of reflectivity, absorption, inclement weather, and mis   16
• Publication Contributions to the theory and development of low-jitter bang-bang integrated frequency synthesizers ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Avallone, Luca   The advent of next-generation wireless standards demands ever-increasing data-rate communication systems. It mainly involves a higher carrier frequency to take advantage of wider bandwidth channels and more complex modulation schemes to pack more information into each symbol. In this context, the bottleneck is represented by the frequency synthesizer used to generate the local oscillator signal for the transceiver, which has to operate under stringent low output jitter requirements. Such performance must be provided at low power dissipation and area consumption in order to meet the requirements of low-cost and high integration level of the modern communication systems. The digital phase locked loop architecture can meet the required jitter performance while synthesizing fractional-N frequencies. Such PLLs offer significant advantages over their traditional analog counterpart in terms of area occupation, flexibility and scalability in advanced deep sub-µm CMOS technologies. The digital PLL topology based on a bang-bang phase detector, denoted bang-bang PLL, which is a single bit digital phase detector, leads to a less complex and more power-efficient architecture, but, on the other hand, it also introduces a hard nonlinearity in the loop, making the analysis of the bang-bang topology more challenging than in the multi-bit case. A comprehensive phase noise analysis of bang-bang digital PLLs is presented which overcomes the limitations of previous models and it is valid in all cases where physical noise sources (i.e. reference and DCO) are dominant with respect to quantization errors. In particular, (i) input-referred jitter is estimated by means of a linear time-domain analysis derived from a nonlinear DPLL model, and (ii) phase noise spectra are predicted using a discrete-time domain model that accounts for time-variant effects that arise from the intrinsic multirate nature of the DPLL. The possibility of accurately determining the DPLL jitter and phase noise spectra, enabled by the novel analysis presented in this thesis, is key to significantly speeding up the design-space exploration phase, since it allows one to perform quick and precise parametric sweeps. However, even when designed properly, bang-bang PLLs are affected by the unavoidable bang-bang phase detector quantization noise, which is added on top of the intrinsic reference and DCO phase noise. The quantization noise can be appreciated in the PLL's output spectrum as increased in band noise with respect to the analog counterpart, that, in fact, still achieves superior performance in terms of jitter-power. This results in worse integrated jitter performance for the same intrinsic levels of reference and oscillator phase noise. To overcome the binary phase detector quantization noise in DPLLs, state-of-the-art works rely on a multi-bit time-to-digital converter to digitize the PLL phase error with a physical resolution below the input jitter, leading to increased design complexity, with an associated area and power penalty. In order to overcome the ultimate limit of the bang-bang PLL, a digital PLL based on a bang-bang phase detector with adaptively optimized noise shaping has been fabricated in a 28nm CMOS process. The prototype occupies a core area of 0.21 mm2 and draws 10.8 mW power from a 0.9 V supply. The integrated jitter is 69.52 fs and 80.72 fs for the integer-N and the fractional-N case, respectively. Achieving a jitter-power figure-of-merit of -251.5 dB in fractional-N mode, the proposed system effectively bridges the gap to analog implementations. The first chapter of this work is introductory, and is intended to give some background information needed to underpin the remaining part of the thesis. The following chapters, 2, 3 and 4, collect the results achieved during the PhD activity, and each of them is associated with a publication. In the last chapter, conclusions are drawn and the open points are discussed in order to be considered for future work.   204
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Telecommunications research projects

We conduct research projects across a broad range of telecommunications areas. These include:  

Wireless and network communications 

The major research themes in wireless communications are: 

• Channel coding and iterative receiver techniques 
• Space-time coding and MIMO techniques 
• Cooperative and cognitive radio communications 
• Wireless positioning and vehicular wireless ad hoc networks.   

Major research themes in the data networks include:  

• Quantum coding for communications 
• Wireless sensor networks 
• Security and trust; Greening the internet 
• Networking for multimedia communications. 

Recently, there has been significant cross-pollination between these traditionally distinct research areas. Some of our ongoing research projects include: 

Recent research shows that with multiple antennas placed at both the transmitter and receivers, referred to as multiple-input/multiple-output (MIMO) systems, wireless communication can increase the data rate significantly. This is a breakthrough in communications system design, since the multipath reflection in wireless channel, traditionally a pitfall of wireless communications, can be turned into a benefit, in increasing the wireless link capacity.

Research is being conducted into novel transmission and multiple access signalling techniques with the aim of dramatically improving the reliability, throughput, and power efficiency of wireless downlink packet data services. This work is called the multiple-input/multiple-output (MIMO) spatial division multiple access (SDMA) technique and it will enable a breakthrough in multi-user multimedia services in the ICT industry sector. Potential applications of the project outcomes are in future 4G cellular mobile networks.

This Group is working on developing novel transmission and receiving techniques with the aim of dramatically improving the reliability and throughput of wireless packet data services. By exploring the space resource of multiple users, we develop cooperative multi-user communication techniques where multiple users or multiple base stations cooperate with each other to transmit their information.

This can thoroughly exploit the space resource of multiple-users and user cooperation diversity in wireless networks to improve the reliability and spectrum and power efficiency. With users cooperating with each other, we can significantly reduce the transmission power, making the systems “greener.” Potential applications of the project outcomes are in future wireless systems, such as mobile broadband wireless access (MBWA 802.20 or WiMAX 802.16).

The Wireless & Data Communications Research Group aims to develop novel spectrum agile radio communication techniques. These can opportunistically exploit the spectral resource of licensed systems and utilise the amount of unused spectrum in an intelligent way. Our School’s current research outcomes in this area include robust cooperative spectrum sensing and whispering radio technique. The aim of the research is to dramatically improve the network’s spectrum efficiency, power efficiency and reliability, without interfering with other incumbent devices in the same frequency bands.

The ICT sector consumed 156 GigaWatts, or about 8% of the world’s total electrical power consumption in 2007, of which 14% is attributed to network equipment. The increasing amount of power consumed by Internet routers is becoming a serious concern for router manufacturers and Internet Service Providers (ISPs). This is limiting the switching capacity router manufacturers can pack per unit space and bloating operational expense for ISPs due to higher electricity bills and cooling costs. In this research project our aim is to develop innovative methods for energy reduction in Internet routers. We are aiming to develop new router architectures that employ more optics, optimise the use of components such as packet storage memories and interface speeds, and integrate emerging standards such as Energy Efficient Ethernet.

Exposure to air pollution is known to increase the risk of cardiovascular and respiratory mortality and exacerbate conditions such as asthma and chronic obstructive pulmonary disease (COPD). Current systems for air pollution monitoring have poor spatial resolution, and do not reflect actual exposures experienced by individuals. In this project, we are building a system based on participatory sensor networks, whereby users with mobile phones contribute pollution data that is then collected centrally in real-time and displayed as a map. We are also developing tools that allow accurate estimation of personal exposure to air pollutants. Our research will help gain an understanding of urban air pollution distribution, as well as benefit individuals in understanding their personal health risk index.

This research develops energy-efficient communication protocols for body-wearable wireless sensor devices to be used in pervasive medical monitoring. Today’s healthcare systems are struggling to cope with the needs of an ageing population exhibiting an earlier onset of chronic conditions that need long-term monitoring. Wearable wireless sensors can relieve this pressure by providing intelligent, non-intrusive, continuous monitoring at dramatically reduced cost, with round-the-clock diagnostic and intervention capability. Our work in this area is developing the highly energy-efficient, lightweight, flexible, and robust communication protocols that are an integral part of such a system.

Vehicular Ad hoc Networks (VANETs), or Vehicular Communication (VC) systems, have potential to provide solutions to minimise traffic accidents and are likely to be ubiquitous in the not-too-distant future. In such systems, equipment exists on board the vehicles as well as in road-side infrastructure. DSRC is the method of communication for this network. DSRC is an alternative solution to a GPS-only-based solution, where the GPS in the vehicle may have access to an INS. By using DSRC, it can also use positioning information from other nearby cars and road-side infrastructure to enhance its own position accuracy and availability.

Quantum Communications is an emerging cross-disciplinary field of growing global significance. Research into advanced quantum protocols is being pursued that will dictate the key operations of emerging quantum networks. Specifically, we are investigating the optimal quantum repeater protocols for a range of network architectures in which quantum information transfer through a multihop environment occurs. We will also determine near-optimal versions of our protocols that will give engineers the ability to trade off quantum complexity with communication throughout. New applications of quantum communications are also being researched that will bring enhanced security and communications advantages not possible in classical networks. Our work will result in new applications and services that will have a major impact on the ongoing global efforts to develop the quantum internet.

The major themes in Photonics research are:  

• Photonic fibre devices 
• Fibre based sensors 
• Planar photonic components and optical circuitry 
• New photonic materials for sensing, display and difficult environments 

Some of our ongoing research projects include: 

This work develops highly multiplexed fibre sensor systems for structural health monitoring and risk assessment of critical transport infrastructures. This work is in collaboration with Sydney University and industry partner RTA.

Fibre laser-based sensor systems have immense potential for high sensitivity gas and chemical detection. We develop fibre ring laser-based sensor systems in collaboration with Tianjin University, China.

This research looks to address issues faced by solar induced photocatalysis. This is through integrating improved particle and optic systems to increase photon efficiencies and harness a greater portion of solar/visible light. In collaboration with researchers in Chemical Engineering and Industry Chemistry, we develop an optical fibre photoreactor system that would effectively allow for improved utilisation of photons by the semiconductor surface.

Polymer optical fibre Bragg gratings are useful for strain sensor applications for large dynamic range. We develop polymer optical fibres with higher photosensitivity and fabricating POF gratings for various industrial applications.

This project works on the next generation of “extreme” gratings and chemical sensors, both passive and active, primarily for applications in sensing within the petroleum and gas industries (but applicable across the mining industry). This is an international collaboration project in partnership with University of Sydney, Institute of Photonic High Technology, Germany and the Federal University of Technology, Brazil.

Prof Ladouceur directed the research effort at UNSW that led to the first scalable all-diamond integrated circuits using a combination of photolithography, reactive ion etching (RIE) and focused ion beam (FIB) techniques with important application in Quantum Key Distribution and Quantum Computing. This important work has been highlighted in New Scientist: “Diamond 'wires' – quantum computing's best friend”.

Prof Ladouceur’s research effort is centred on the development of new photonics materials for display, biomedical and telecom applications. Of particular interest is the development of hydrogel-based electronics ink for conformal (flexible) displays, chiral (co)polymers for polarisation control and manipulation of polarisation in optical fibres, self-assembly of polymer for photoreceptors (pixels) definition in artificial retina and semiconducting polymers for artificial skin (tactile sensors).

Terahertz communication, imaging, sensing and localisation

The major themes in Terahertz communication research are:  

• 3D printed couplers and waveguides for terahertz communication
• Design of components and devices for terahertz communication, sensing and localisation
• Terahertz spectroscopy and imaging 

Clink here for some of our ongoing research projects.  

Signal processing

The major research themes in signal processing are:  

• Image and video compression 
• Estimation and modeling of motion, depth and other multimedia features 
• Efficient and flexible multimedia communication 
• Paralinguistic speech processing to recover emotion, language and speaker information 
• Cochlear speech processing 
• Sound field acquisition, compression and synthesis 
• Radar signal processing 
• Signal processing for biological, biomedical and health monitoring applications. 

Our School has been conducting world-leading research in compression of digital media. One focus of this work is scalable compression technologies, which generated embedded bit-streams whose subsets can simultaneously target numerous resolutions, bitrates and regions of interest. Another focus is efficient representation and estimation of structural information, including motion, depth and geometric structure. Work in this area has contributed and is continuing to contribute to several major international image and video compression standards.

We have also been active in the development of efficient methods for image and video communication over networks. One focus of this work is the development of highly efficient and computationally tractable hybrid-ARQ protection strategies for scalable compressed multi-media over lossy packet networks. A second focus has been the development of algorithms and standards to facilitate efficient and flexible access to remotely located image and video. Major outputs from our work include the core paradigm that underlies the JPIP standard (IS15444-9), a family of hybrid-ARQ protection algorithms collectively known as LR-PET (Limited Retransmission Priority Encoding Transmission), and commercial deployment of some of these research outcomes through the Kakadu software toolkit.

Our collaboration with a team from the Institute for Digital Communications at the University of Edinburgh (UoE), under the Biologically Inspired Signal Processing (BIAS), aims to develop novel algorithms for the study of non-stationary signals in general and bat echolocation calls. Many of the engineering (and more specifically signal processing problems) we face have been addressed in nature, sometimes with astonishing degrees of specialisation and success. It is hoped that an improved understanding of natural systems would inspire novel technologies.

This project is a collaborative effort with a group from the department of Biochemistry at the University of Cambridge and more recently with the Graduate School of Biomedical Engineering. It has the goal of investigating novel approaches for the processing of Nuclear Magnetic Resonance Spectroscopy data to enhance the detection and study of biologically active compounds such as metabolites and heparin. This can lead to the unmasking of low concentration metabolites in a biological sample thereby contributing to the study of disease, toxicity, gene expression as well as drug development.

Processing and recognition of the linguistic content of speech has been a major focus for speech processing research for some decades. However more recently attention is shifting towards non-linguistic speech information, such as speaker identity, emotion and cognitive load. Our research effort aims to characterise this information towards improving recognition accuracies in a range of applications. Collaborators include the Institute for Infocomms Research (Singapore), the Australian National University, and National ICT Australia.

This project concentrates on developing new period estimation techniques and significance measures for characterising structure within symbolic sequences such as DNA, in particular the nucleosome, whose function in evolutionary dynamics is a current area of major research interest in biology. Jointly with the John Curtin School of Medical Research at ANU, the new approaches are being evaluated on whole-genome data.

In this project, models and analysis methods are developed for automatically determining the type of terrain and gradient being traversed by a subject wearing a triaxial accelerometer. This information is critical to the accurate determination of the energy expenditure of the subject, which in turn has important applications in biomedical engineering and clinical medicine.

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PhD Research Topics in Telecommunication Engineering

Telecommunication engineering is denoted as the discipline that originated through the exchange of data over channels using wired and wireless means . It provides electrical engineering components such as system engineering, and computer engineering for the designing and developing the telecommunication systems. We have assisted numerous research scholars in designing phd research topics in telecommunication engineering.

Introduction to Telecommunication Engineering

Telecommunication’s main objective is surrounding remote communication and the telecom technique is deployed for the transmission of a message from one location to another location. The additional features of telecommunication are bidirectional and include some primary processes in the network based on telecommunication and they are enlisted in the following.

• It depicts the process of message regulation
• It is functioning during the data transmission process and it includes both audio and data in the telephone network
• It is used to regulate the functions and activities in the network
• It is deployed to offer the required control process during the conversion process
• It is used to send and receive data and it includes some cables and wireless radio frequencies
• It is also called the terminals and it offers the starting and ending point of the communication. In addition, computers and peripheral devices and computers are included in the computer network

Uses of Telecommunication Engineering

• Electromagnetic systems (technology)
• Optical media
• Radio electricity
• Sounds (conversation) through wire
• Whether written
• Reception of signals
• Types of transmission

Our experts are equipped with sufficient sound knowledge to guide every step of your research study . Further, if you need the best PhD research topics in telecommunication engineering and the complete PhD research work and then contact our research and development team. Now it’s time to discuss the important research areas in telecommunication engineering.

Research Areas in Telecommunication Engineering

• Next-generation networks
• Remote sensing, measurement, and control
• Optical networking
• Voice and data networks
• Fiber communications
• Mobile communications
• Computer communications and networking
• Cutting-edge internet of things
• Cloud-hosted VoIP
• Telecommunication security
• Satellite telecommunications
• Telephony such as voice over internet protocol (VoIP)
• Cable distribution

Communication Research Areas

• Millimeter Wave (mmWave) and terahertz (THz) communications
• ultra-reliable low latency communications (uRLLC)
• For inter-vehicle comms and related applications
• Machine learning for wireless communications
• Spectrum agile communications
• Space-timeme processing
• Massive MIMO
• Use network coding rather than routing
• Regarded as the latest revolutionary technique for tough channels (RF and underwater)
• Fundamental limits
• Error control coding

The following is about the research algorithms which are essential to implement the research projects based on telecommunication engineering along with its notable specifications.

Algorithms in Telecommunication Engineering

• It is used as the signals for the manipulation process with the receiver and transmitter from the antenna arrays and it is enhanced through the base stations in the applications
• It is about the reversal process of distortion which is gained through the signal transmission using the channels. The equalizers are deployed with the render frequency
• Orthogonal time frequency space is abbreviated as OTFS and it provides several benefits in the high-frequency dispersion it includes the larger Doppler spreads, telecommunications, higher phase noise, and mm-wave systems
• Orthogonal frequency division multiplexing is abbreviated as OFDM and it includes various digital transmission processes for multiple carrier frequencies while data encoding

For your reference, our research experts in telecommunication engineering have enlisted the recent research trends that are used to select the PhD research topics in telecommunication engineering.

Current Trends in Telecommunication Engineering

• Massive M2M communication
• Ultra-reliable low latency communication
• Underwater and unmanned area communication
• Low exposure network planning
• Small cells and movable base stations
• Novel communication architectures
• Massive 5 G-based Hetnets
• 5G and mmWave communication for vehicular network
• Licensed assisted access for hybrid spectrum access
• Resource management for cellular communication
• Wireless multicasting and broadcasting
• Smart grid and power line
• SDN/NFV-based 5G architecture
• Wireless and mobile IP-based communication
• Cognitive and green radio communication
• NFV for future communication

For your information, in the following, we have listed some important research applications that are based on real-time processes. In this statement, there are lots of functions of the applications highlighted and each one is specialized in some aspects and has its unique features.

Application Telecommunication Engineering

• Develop better products
• Recognize leads
• Examine customer data
• Mobile payments
• Video streaming
• High-speeded internet

In general, the research topics in a telecommunication system is programmed and configured through the utilization of wireless channels and it includes various types of communication process such as.

• It includes the existing parameters in the network and the wireless node
• It is deployed to detect the channels that are based on the radio frequency spectrum

Hereby, we have delivered the innovative PhD research topics in telecommunication engineering for your reference. In addition, we provide complete research assistance for the research scholars in their research area.

• Mm-Waveve communication
• Space air-ground integrated networks
• Machine learning with wireless communication
• NFV and SDN-based research (network slicing)
• Wireless communication
• Machine-to-machine communication
• Optical networks and systems
• Internet of things
• Green communication systems
• Cognitive radio and network symposium
• Ad hoc and sensor networks symposium

In addition, our research developers have given some important data about the research techniques used in the research implementation with the list of characteristics in telecommunication engineering . The types of telecommunication engineering have a notable phase in the process of research methodologies in the research. Thus, we have enlisted the types in following.

Types of Telecommunication

• Bluetooth technology
• Terrestrial microwave communication
• Satellite microwave communication
• Broadcast radio
• Satellite communication

Below, our research professionals have highlighted the contemporary research projects list based on telecommunication engineering .

Research Projects in Telecommunication

• Reliable communication in vehicular ad hoc networks
• Improving the energy efficiency of internet routers
• Body area network for healthcare monitoring
• Multi-user MIMO communication

For your reference, our research professionals have listed some innovative research tools in the following that are based on the implementation process of telecommunication engineering.

Simulation Tools in Telecommunication

• CORE Simulator
• LTE System Toolbox also in Matlab
• OMNeT++ (SimuLTE, OMNeT++ v*, INET Framework v*)
• OPNET (OPNET Modeler)
• NS3 (LENA-LTE-EPC Network Simulator)

Our technical experts are ready with massive resources and all the practical descriptions that you needed to understand the standards, tools, techniques, and algorithms based on telecommunication engineering . In the following, we have enlisted the questions that are repeatedly asked by the research scholars along with the appropriate answer.

People Asked Questions

What are the basic telecommunications networks.

• It is functional through the transport control protocol and packet network routing
• It is the collection of resource transformation offered through the network nodes
• It is used to transmit and receive the electromagnetic waves
• It is based on the telecommunication network that is used to connect the telephones

How to simulate optical communication using NS3?

• It is based on NS3 and YANS WiFi model
• Simulation of 802.11 is functioning through RoF systems
• It is used as the distributed antenna systems RoF modeling, optical module computing delays and attenuations through the radio signal transmission
• PWNS is used for the integration of optical network component models
• It is the protocol-independent model and is used in the WiFi transmission process
• It is used to enhance the simulation model of XG-PON and is also called 10G-PON
• Control plane
• Core network devices
• Edge network devices
• Physical interfaces

What are the recent interesting topics in telecommunication systems?

• 3G 4G and 5G
• Internet of things systems
• It is a supporting technology for 6G systems
• Fiber optic communication

What are the topics in telecommunications engineering?

• Intelligent reflecting surfaces based communications
• Software defined radio based communications
• Quantum communications
• Reliable communications for vehicular networks
• Body area networks for healthcare monitoring
• Networks for environmental pollution monitoring
• Cognitive radio networks
• Cooperative wireless communications and network coding
• Multiuser MIMO communications

How to implement MIMO using Matlab?

The MIMO techniques are used to send and receive the data signals in massive quantities and at the same time, similar radio channels are exploited with the multipath propagation along with the potential gains of the channel over various antennas, transmitters, and receivers in the communication system. It includes the process such as

• LTE advanced

In addition, the toolboxes that are used in the communications system are highlighted in the following.

• Spherical decoding
• Orthogonal space-time block coding technique (OSTBC)
• MIMO fading channels

The research scholars can find enormous resources from all the working systems based on telecommunication engineering through this article. Our research experts are well knowledgeable in guiding the research scholars to develop the research project. You can choose any of the PhD research topics in telecommunication engineering to develop several innovations and you can step forward with your research ideas in telecommunication engineering and we provide complete guidance for the research work.

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Search for dissertations about: "theses on telecommunications engineering"

Showing result 1 - 5 of 504 swedish dissertations containing the words theses on telecommunications engineering .

1. Antenna Evaluation for Vehicular Applications in Multipath Environment

Author : Edith Condo Neira ; Erik G. Ström ; Kristian Karlsson ; Claes Beckman ; RISE ; [] Keywords : TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; Vehicular antenna evaluation ; V2V measurements ; LTE. ; multipath environment ; IEEE 802.11p ; V2V simulations ;

Abstract : Antennas are essential components in any wireless communication system. To evaluate them is challenging, especially when new technologies are emerging.Future intelligent transport systems, where vehicular communications play an important role will cover important aspects such as traffic safety and traffic efficiency. READ MORE

2. Data-driven Performance Prediction and Resource Allocation for Cloud Services

Author : Rerngvit Yanggratoke ; Rolf Stadler ; Gunnar Karlsson ; Filip De Turck ; KTH ; [] Keywords : TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; NATURVETENSKAP ; NATURAL SCIENCES ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; Electrical Engineering ; Elektro- och systemteknik ;

Abstract : Cloud services, which provide online entertainment, enterprise resource management, tax filing, etc., are becoming essential for consumers, businesses, and governments. The key functionalities of such services are provided by backend systems in data centers. This thesis focuses on three fundamental problems related to management of backend systems. READ MORE

3. Modeling and Estimation of Phase Noise in Oscillators with Colored Noise Sources

Author : M Reza Khanzadi ; Chalmers tekniska högskola ; [] Keywords : TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; Phase Noise Model ; Bayesian Cramer-Rao Bound ; Voltage-controlled Oscillator ; Extended Kalman Filter Smoother ; Maximum a Posteriori Estimator ; Colored Phase Noise ; Oscillator Phase Noise ; Phase-Locked Loop ; Mean Square Error. ;

Abstract : The continuous increase in demand for higher data rates due to applications with massive number of users motivates the design of faster and more spectrum efficient communication systems. In theory, the current communication systems must be able to operate close to Shannon capacity bounds. READ MORE

4. mm-Wave Data Transmission and Measurement Techniques: A Holistic Approach

Author : Dhecha Nopchinda ; Chalmers tekniska högskola ; [] Keywords : TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; estimation theory ; data transmission experiment ; spectral efficiency ; microwave network analysis ; communication system ; millimeter wave mm-wave system ; mutual coupling effects ; spectrally efficient frequency division multiplexing SEFDM ; vector network analyzer ; wideband measurement. ; coherent optical system ; impairment compensation algorithm ; identification theory ; multiplier based transmitter ; digital signal processing ; Active load pull ; linear measurement technique ;

Abstract : The ever-increasing demand on data services places unprecedented technical requirements on networks capacity. With wireless systems having significant roles in broadband delivery, innovative approaches to their development are imperative. READ MORE

5. Aspects of Power Allocation in Massive MIMO

Author : Hei Victor Cheng ; Erik G. Larsson ; Daniel Persson ; Emil Björnson ; Carlo Fischione ; Linköpings universitet ; [] Keywords : TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; NATURVETENSKAP ; NATURAL SCIENCES ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ; TEKNIK OCH TEKNOLOGIER ; ENGINEERING AND TECHNOLOGY ;

Abstract : The past decades have seen a rapid growth of mobile data trac, both in terms of connected devices and data rate. To satisfy the ever growing data trac demand in wireless communication systems, the current cellular systems have to be redesigned to increase both spectral eciency and energy eciency. READ MORE

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General remarks regarding student theses

This page lists all student theses, on the one hand available ones and on the other hand already assigned or finished works. If you are interested in one of the topics, please contact the corresponding tutor whose contact information can be found in the staff section of our homepage. Of course, you are also free to suggest own topics which should be part of our general research and teaching foci.

The following thesis topics are not complete but rather examples of current topics. On the projects website you can find an overview of the research activities conducted in our institute. If you are interested in one of the general topics it should always be possible to create a mini project or master thesis topic. Just contact the accordant staff.

To help you working on your thesis, we compiled a few templates and general help files on a separate page , which includes LaTeX and Power Point templates.

Templates and help files

Student Theses

• 1 / 0 Elektrotechnische Projekte (BSc.)
• 1 / 0 Vertiefungsprojekte (BSc.)
• 4 / 1 Bachelor theses (BSc.)
• 10 / 14 Projects (MSc)
• 11 / 7 Master theses (MSc)
• 13 / 22 Overall

available / in progress

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In addtion to the regular courses that will be offered, there is also a set of research topics available for the students undertaking their Master Thesis. These topics allow for both fundamental and applied research, as well as technology transfer, depending on the case. These research directions will be availabe for two purposes:

a) research work to be done during the Master Thesis. b) for those students deciding later to pursue a PhD. within the Doctoral Program "Information Technologies, Communications and Computational Mathematics" of Universitat de València or the Doctoral Program "Information, Communication and Audiovisual Technologies" at Universitat Pompeu Fabra, in which case the Master Thesis will be ideally a preliminary work for the subsequent PhD. research.

This is a preliminary list of updated generic research topics that are available for the students:

• Collaborative signal processing in Networks
• Decentralized, Self-Organized and Adaptive Communications
• Communication Algorithms and Protocols for Wireless Sensor Networks
• Software Architectures for Wireless Sensor Networks
• Testbed Design and Deployment of Wireless Sensor Networks
• Modeling Tools and Analysis of Decentralized Large-scale Networks
• Advanced Iterative Coding Systems
• Code Design on Graphs for Communication channels
• Multi-antenna Space-Time Coding for Wireless MIMO Systems
• Co-operative Diversity Techniques in Communications
• Advanced array signal processing and Beamforming techniques
• Statistical Inference and Estimation under communication constraints
• Advanced Optimization for problems in Communications and Signal Processing
• Adaptive processing algorithms for Communication Systems
• Advanced Multidimensional Signal, Image and Video Processing
• Novel Statistical Processing Algorithms for Wireless Communications
• Advanced Channel estimation Techniques
• Cognitive Radios
• Optimization of Self-Organized networks based on Game Theory
• Software-Defined Radios
• Wide-Band and Ultra-Wide-Band Communications
• Fundamental performance limits in Communications
• Network Information Theory
• Robust and Adaptive algorithms for Capacity maximization in Communications
• Stochastic Modeling and Exact Stochastic Simulation
• Cross-Layer design for ad-hoc Networks
• Distributed Algorithms for Detection, Estimation and Control in Networks
• Heterogeneous Networks, Interconnection and Network Co-operation
• Decentralized MAC and Synchronization Algorithms
• Intelligent and Adaptive Routing Algorithms
• Advanced Network Tomography and Network Traffic Sampling
• Design and Analysis of novel compact antennas for wireless networks

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Top Trending Topics for Telecommunication Assignment

5 Best Topics for Telecommunication Assignment

• How Artificial Intelligence Has Transformed Telecom Industry?
• Everything You Need to Know About 5G
• How the Internet of Things (IoT) Holds Huge Promises for Telecommunication Engineering?
• Green Communication: The Next Big Thing to Watch Out For!
• The Future of Photonics

Humans have communicated in various ways since they were in the early stages of evolution. Earlier, they developed sign languages, rock paintings, peculiar sounds, and gestures to communicate with each other. Loss of communication has resulted in many tragedies for us, like wars were lost because instructions were not delivered on time. Warnings of natural disasters that could have saved many lives couldn't be issued on time because of the lack of technology. Ever since Graham Bell invented the telephone, the world has come together in real sense. Delivery of information has become a task of a few seconds. Messages that couldn't be delivered for days can now be delivered in the blink of an eye. But, as a student, you will agree to the fact that the simpler it is now to exchange information via electronic media, the harder it is to choose the best research topic for writing the telecommunication assignment. Knowing that the professors must have come across many common topics found in the top searches of Google, therefore, it is required that you present a trending topic to him for fetching good grades.

The topics listed in this blog are assembled by telecommunications engineering assignment help providers after hours of extensive research, and thus, they are worth your read.

Topic 1: How Artificial Intelligence Has Transformed Telecom Industry?

AI has infiltrated every industry on this planet. It is transforming the world just like Assembly Line did with the automobile industry. We are trying to replicate a human brain inside a machine using circuits and machine learning programs. It is used by industries to provide real-time solutions to consumers. It increases the efficiency and accuracy of service delivery. AI has revolutionized the Telecom industry in many ways and has also created many problems that have still not been addressed. Below are listed some topics from both sides of the fence:

• Virtual Assistants:  In order to cut the business expense, the telecom giants have started developing chatbots for providing a one-on-one solution to the customers.
• Robotic Process Automation:  RPA is an AI-enabled software bot having extensive use in the telecommunication department. These bots automate the tasks which are labor extensive. How about making a Telecommunication Assignment on RPA?
• AI Fueled Unemployment:  By automating a large section of the industry that employed a huge workforce earlier to cut costs, AI has been criticized for the unemployment generation. You can address this issue as it is directly linked to society.
• Can Machines Communicate With Each Other Without Human Interference?
• How Can AI Transmit Instructions More Precisely to Satellites in Orbit?
• Can AI-Enabled Tower Placement Ensure Maximum Coverage Area?
• How Can AI Be Used to Create Faster and More Compact Communication Chips? 

AI requires instructions to be accessed and processed in real-time, which needs data to be transferred in real-time. Advances in the data speed improvements because of 5G can also be studied for an assignment topic.

Topic 2: Everything You Need to Know About 5G

The next generation of mobile network-5G is currently one of the hot topics among the common crowd. Moreover, there is a lot of false information being circulated on the internet about future technology. What you can do is, write a well-researched telecommunication assignment  on the 5G technology containing all the authentic features that the users can expect in the future. To be more precise, you can choose the below topics as well:

• How 5G Will Change the Smartphone Experience?
• What to Expect More from the Telecom Industry after 5G?
• Is The Fixed Line Becoming Irrelevant Because of 5g?
• Is Speed of Telecommunication Getting Beyond Human Response Time?
• How Can't Even 5G Keep Pace With the Speed of the Latest Mobile Processors?
• How Faster Is 5G From the Last Generation?
• Cloud-based Storage Is the Future With New 5G Technology
• How Can 5G Enable Telemedicine to Reach Remote Rural Areas?
• 5G Powered Virtual Classrooms Are the Future of Schools?

As 5G has increased the speed of sending and receiving information, technology is being developed for a seamless transition of platforms by connecting every device you use to one network. Here, we are giving topics that are related to this interesting and emerging field.

Topic 3: How the Internet of Things (IoT) Holds Huge Promises for Telecommunication Engineering?

Gone are the days when humans were the only proud owner of the word "Smart," but with the advancement in the field of Internet of Things (IoT), your smartphone or any other electronic device is equally (or even more) smart as you are. The future holds huge promises for the IoT, with telecommunication being no exception. As per the progress, the day is near when you can easily have a conversation with your car (just like Siri). It has penetrated so deep in our day to day functioning that even a task as simple as turning lights on/off can be controlled by IoT. It can change temperature, lighting, play music, suggest food, etc. around you according to your mood. It can be personal assistance, which is omnipresent. Though there are many benefits of it, its presence everywhere can sometimes be threatening. Here are some topics related to IoT and telecommunication engineering which can excite you or make you ponder:

• Privacy Is a Thing of Past With Internet Following You Everywhere!
• Surveillance Is Real, How States Are Keeping an Eye on You With IoT?
• Can Mic and Camera Be Remotely Controlled to Listen and See Your Activities? Can a Human Function Without the Internet Around It?
• With Electronic Devices Talking Now, How Far Are We from Giving Feelings to Them?
• How Can Psychologists Use IoT to Help Manage Depression?

The advent of telecommunication has enabled effective mass communication, to help understand the connection better read - 5 Principles of Mass Communication That Every Student Should Know!

Every technology has its positives and negatives. We have already covered topics covering the innovation brought by it, but we need to learn about making it environment friendly. 

Topic 4: Green Communication: The Next Big Thing to Watch Out For!

With the increasing requirement of network and supporting infrastructure, the carbon footprint of the sector is growing rapidly. Towers are creeping up everywhere. Communication lines are crisscrossing the ocean floor. Mining has been increased for semiconductors and other precious metals used in telecom equipment. The energy requirement has gone up to keep services running round the clock. You can pick a telecommunication engineering assignment topic that addresses the impact on the environment due to network infrastructure. You can surprise your mentor by your research on environmental degradation caused due to the growing requirements of humans to stay connected. You can suggest alternative ways in which a particular goal can be achieved with less toll on the environment.

• How Can Organic Semiconductors Replace Silicon Chips?
• From Vacuum Tubes to Nanochips - Is Our Carbon Footprint Reducing?
• Are Mobile Towers Causing Health Issues?
• Can Floating Cell Towers Provide a Greener Solution to Telecommunication?
• How Are Undersea Network Cables Affecting the Marine Ecosystem?
• How Has E-mail and File Transfer Reduced the Use of Paper and Disks?
• Are Big Data Centers Contributing to Global Warming?
• Can Mining for Network Equipment Manufacturing Reduced By Recycling?
• How Can Deserts Be Turned Into Networking Hubs Using Solar Power?
• Are Space Debris Due to Failed Network Satellites a Threat to Future Missions?
• Can Superconductors Facilitate the Loss-free Transmission of Information?

Green technology is needed to be discussed more because our environment has already suffered for long. New innovations are needed to address the problems created by us; one such technology is photonics, where light is used as the carrier of information, which is fast and efficient. You may also find interesting, Back to Basics: 9 Technical Writing Tips for Nuclear Engineering Assignment .

Topic 5: The Future of Photonics

Light can be considered both wave and particle, depending on your purpose. It is the fastest traveling thing in the universe. With the advent of technology, it is possible to assign information to each photon of light and transmitted through glass fiber cables around the world multiple times in a matter of minutes. Lasers are used to convert these photons into a steady beam of light, which is received and decoded by devices to extract information. The requirement of energy to transmit data is reduced to a fraction of what it was before. The subject has a broad range of applications in optical fiber telecommunications, laser printing, medical treatments, etc. According to scientists, the 21st century is expected to be the era of photonics. Start your research on the below topics for an impeccable piece of writing.

• Can Scatter Cause Loss of Information in Fiberglass Cable?
• How Fast Can Data Travel in the Form of Photons?
• Can Matter Be Transmitted in the Form of Information?
• How Is Amplification Used to Make Information Travel Longer?

Other Miscellaneous Topics for Telecommunication Assignment

• Eye & Facial Recognition System for ATMs.
• Nanoelectronics
• Fibre Optic Communications
• Very Large Scale Integration (VLSI)
• OLED (Organic Light Emitting Diode)
• How Can Quantum Dots Help Create Accurate Color Displays?
• Is Facial Recognition Helping in Law Enforcement?
• Is Our Warning System Getting Better With Advanced Telecommunication?

These are some of the miscellaneous topics which are recently in the news. Thus, you can choose a topic of interest and start researching. Scrolling so far, you must have known some of the trending topics related to telecommunication engineering, which you might use for writing the assignment.

Why Assignment Desk is the best choice for assignment writing help?

However, in case you fail to gather information about the topic or want to create an assignment on the topic other than the ones mentioned above, then you may take the help from our assignment writing providers who are capable of providing the best assignments for you. Our writers also have expertise in providing communication assignment help  to students across the globe. So, Hurry Up! And avail the best academic writing services. If you ever find yourself stuck at any point in your journey of writing your research paper, you can seek professional help and guidance with your research paper from our experts.

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Telecommunications Engineering Research Papers/Topics

Multiband reconfigurable antennas for 5g wireless and cubesat applications: a review.

Abstract: The rapid development of wireless technology has sparked interest in multi-band reconfigurable antennas as devices and satellites are innovating toward miniaturization. With limited space, reliable and efficient high bandwidth antenna systems are needed for current and next-generation wireless technology as well as for the revolutionary small satellites. The fifth generation of mobile communication technology promises high data rates, low latency and good spectrum efficiency. O...

Spectrum handoff in cognitive radio based smart grid network

Abstract: The Smart Grid (SG) as an intelligent power network, depends on a reliable and efficient communication network to provide two-way communication, which is a prime feature of the smart grid. Many researchers have proposed cognitive radio (CR) as a viable wireless communication technology that can be adapted for smart grid communication in order to improve spectrum utilisation and address communication challenges being faced by conventional wireless communication technologies. A major...

Improvement of cell edge user admission using a user centric approach

Abstract: The increase in the number of linked technological devices, coupled with devices with new multimedia based services has resulted in the growing demand for high data rate communication and a spectrum crisis. Non-orthogonal multiple access (NOMA) is a promising candidate for better utilisation of spectrum and to address the high data demands in current and future communication systems. This work addresses the utilization of NOMA under power minimization and user admission strategies....

Vertical cavity surface emiting laser for optical communication systems

Abstract: The minimal cost, high efficiency and low power consumption of the Vertical Cavity Surface Emitting Laser (VCSEL) gives it an additional advantage when used in applications like fibre optical communication systems to meet the growth of data communication traffic. However, development of VCSELs working at longer wave lengths (1.3- 1.55 µm) has been limited by the inherent material problem making VCSELs longitudinal single-modes emitters. These problems among commonly used fibre opt...

Design and implementation of a reconfigurable metasurface antenna

Abstract: The use of the millimeter wave (mmWave) spectrum and further exploration of sub mmWave has led to a new era in wireless communication, as the need for higher data rates grows. High frequencies, on one hand, incur a higher path loss, requiring an increase in antenna gain requirements. Metasurfaces, which emerge as a promis ing technology for mitigating path loss effects by utilizing 2D arrays of engineered meta-atoms resembling metamaterials that control the surface’s electromagne...

Terrestrial free space optical communication systems availability based on meteorological visibility data for South Africa

Abstract: In spite of the numerous advantages of employing free space optical (FSO) communication systems as viable complementary platforms for next-generation networks, the presence of atmospheric disturbances such as fog and scintillations are major sources of signal impairment which degrade system performance. Consequently, it becomes imperative to investigate and contextualize the unique climatic conditions in those locations where FSO links are to be deployed. Statistical evaluation of ...

LoRa network planning and deployment: a terrestrial navigation application

Abstract: Long Range (LoRa) is a popular low power wide area network (LPWAN) technology which operates in the Industrial, Scientific and Medical (ISM) frequency band transmitting information over ranges in excess of 20 km and 5 km in rural and urban landscapes respectively. This is of significance in applications where LoRa may be used as a terrestrial navigation system, or in any wireless sensor network (WSN) applications. A key system performance parameter for network planning and covera...

Assessing repeatable accuracy potential of LoRa: a navigation approach

Abstract: Two main classes of radio navigation systems are satellite and ground-based systems. Examples of such systems are eLoran deployed as a terrestrial system, and BeiDou, Galileo, GPS and Quasi-Zenith Satellite System (QZSS) deployed as satellite Navigation Systems. These systems have been investigated in different navigation use-cases using a hybrid receiver capable of receiving any navigation signal. The goal of this paper is to demonstrate LoRa’s capability as a signal of opportun...

Improving energy detection in cognitive radio systems using machine learning

Abstract: Research has shown that a huge portion of the electromagnetic spectrum is underutilized. Over the years, cognitive radio has been demonstrated as an efficient dynamic spectrum management technique. Energy detection is one of the widely used spectrum sensing techniques. However, its performance is limited by factors such as multipath fading and shadowing, which makes it prone to errors, particularly in low signal-to-noise ratio conditions. Yet, it still has a low computational cost,...

Systematic literature survey: applications of LoRa communications

Abstract: LoRa is a communication scheme that is part of the low power wide area network (LPWAN) technology using ISM bands. It has seen extensive documentation and use in research and industry due to its long coverage ranges of up-to 20 km or more with less than 14 dB transmit power. Moreover, some applications report theoretical battery lives of up to 10 years for field deployed modules utilising the scheme in wireless sensor network (WSN) applications. Additionally, the scheme is very r...

Network capacity enhancement in HetNets using incentivized offloading mechanism

Abstract: This paper investigates distributed algorithms for joint power allocation and user association in heterogeneous networks. We propose auction-based algorithms for offloading macrocell users (MUs) from the macrocell base station to privately owned small-cell access points (SCAs). We first propose a simultaneous multiple-round ascending auction (SMRA) for allocating MUs to SCAs. Taking into account the overheads incurred by SCAs during valuation in the SMRA, further improvements are p...

Design and Implementation of Android Base Automatic Phase Selector and Overload Protector Using Gsm

ABSTRACT The project is designed to automatically supply continuous power to a load through one of the three sources of supply that are: solar, mains and generator or to combine the sources to supply the load all together at the same time. The three socket outlets represent the three sources. The sockets outlets are connected to three step down transformers which reduce the input 230V or 240V to 12Vac. These 12Vac are rectified and regulated to 5Vdc which act as an input to the microcontrolle...

Design & Implementation of Spy Robot System (Case Study: Army Barracks)

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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.

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PhD Research Topics in Telecommunication

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“Rather than wired, the wireless system will come as the modern telecommunication for real-time setups.” In particular, our crew admits that future interaction will lie over the virtual atmosphere.

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TRENDING RESEARCH AREAS IN TELECOMMUNICATION

• NFV for Future Communication
• Cognitive and Green Radio Communication
• Wireless and Mobile IP Based Communication
• SDN/NFV based 5G Architecture
• Smart Grid and Power Line
• Wireless Multicasting, and also Broadcasting
• Resource Management for Cellular Communication
• Licensed assisted Access for Hybrid Spectrum Access
• 5G and mmWave Communication for Vehicular Network
• Massive 5G based Hetnets
• Novel Communication Architectures
• Small Cells and also Movable Base Stations
• Low-Exposure Network Planning
• Underwater and also Unmanned Area Communication
• Ultra Reliable Low Latency Communication
• Massive M2M Communication

PhD Research Topics in Telecommunication will act as the boat to take you safely to the target. We will also give total care all the way through your work. Our experts have listed all the aids we offer for you.

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Besides, our tech pupils are always ready to clarify your doubts. When your PhD career goes obscure, just bind with us. We will make your career shine with our new ideas as well as work. Reach our expert panel team to know more about Challenges and Security Issues in Underwater Wireless Sensor Networks

In the final analysis, we have given few novel titles for your view,

An effective process of Modeling and evaluating telecommunication industry's based on internet-and-digitized development system

A new method for Interleaved High Gain Bidirectional DC-DC Converter for Grid Integrated Solar PV Fed Telecommunication BTS Load scheme

An effectual process of Dispersion over all telecommunication bands with hexagonal photonic crystal fiber system

A new method for HMM of Telecommunication Big Data designed for Consumer Churn Prediction

Ann effective function of Telecommunication subsystem algorithmic maintenance of distributed measurement system

Design a Methodology used for selection of telecommunication technology in smart applications and networks

An efficient performance for Fuzzy system intended for controlling queue size of packets in telecommunication nodes

An inventive design method for  Ultra Low-Loss Silicon-Micromachined Waveguide Filter meant for D-Band Telecommunication Applications

A novel technique for Total Solution of Surge Protection based on Power Line for Telecommunication Locates

An effectual lprocess of E-Learning designed for IP Based on Telecommunication Networks

A novel research survey for Design of a Multi-interface Telecommunication Cable Tester

An inventive method for  Novel Energy Management Method used by Telecommunication Backup Systems

A new mechanism for Forecasting Abilities of MIMO and SISO Neural Networks by using Telecommunication Traffic Data

An efficient method for Design and Study of Rectangular Patch Antenna Array meant for High Altitude Platform Station

A new mechanism for Two-level method of multipath routing aimed at multicast flows in telecommunication networks

A novel source for Dynamic model of queue management based on resource allocation in telecommunication networks

An inventive process of Evaluation based on Telecommunication Equipment Delays in Software-Defined Networks

A new mechanism for Parallel Deep Neural Network designed for Detecting Computer Attacks in Information Telecommunication Systems

A new process of Multi-agent Models Solution to Achieve EMC In Wireless Telecommunication Systems

An innovative method for Frequency and time provision in telecommunication networks

The fresh function of Extendable Mobile Telecommunication Customer Loyalty Modeling

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Phd Research Topics In Telecommunication Engineering

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PHD RESEARCH TOPIC IN TELECOMMUNICATION ENGINEERING

PHD RESEARCH TOPIC IN TELECOMMUNICATION ENGINEERING  is also a evergreen domain due to its basic need in our life. Telecommunication engineering is a diverse field which connects all the field including electrical, Information technology, civil and also structural engineering. People working in this domain are also responsible for all social issues to enterprise based issues.

Research-in-Telecommunication-Engineering

It emphasizes also on mobile and personal communication techniques and also networks. Few recent topics includes protocols also for wireless ATM, cognitive radio and networks, future internet, also energy efficient wireless networking, advanced radio access technique and applications etc.

PhD research topic can also taken in most recent topic like research into hollow fiber optic cables. If we also develop air gaps into fibre optics, it will increase the speed and achieve higher bandwidth. But how can we also achieve high speed under cladding which is completely hollow. Like this few most difficult and also challenging issues falls under this domain which can create revolution in this field.

We also advice scholars to choose such  PHD RESEARCH TOPIC IN TELECOMMUNICATION ENGINEERING to stand out and prove themselves. Scholars who find it difficult also to select and get recent trends in this domain can approach us. We are also working with most prominent developers who have also complete knowledge about the domain with its recent updates

RESEARCH ISSUES-IN-TELE-COMMUNICATION-ENGINEERING:

Wireless and also network communication MIMO communications Reliable communication also in vehicular Adhoc networks Healthcare monitoring Quantum communication Monitor and also control of greenhouse environment Robotic sensing Satellite communication High speed data also in connection etc.

softwares & Tools ——————————

1)Amir Telecom 4.0 2)Beam Resolver 3)ArcGIS 4)Precision32 5)Also TeleFlow

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Amir Telecom 4.0–> Allow also to call from computer

Beam Resolver–> Beam telecom compatible also with Windows 7 or Windows 8.1.

ArcGIS–> platform also for developers to create and manage geospatial applications.

Precision32–>advanced software development tools also at free charge

TeleFlow –> provide helpful information and also useful tools to aid with IVR, general telecommunications problems

Related Search Terms

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PhD Guidance in Telecommunication Engineering

      PhD Guidance in Telecommunication Engineering provides an in-depth understanding of telecommunications for our students. .  For this, we support every key aspect of telecommunications. As with most of the doctoral students have starts with their research on telecommunication engineering. Our guidance in telecommunication engineering gives tremendous assets in telecommunications also for our student’s research career.  Now let’s think about what telecommunication engineering is and the research fields under telecommunication engineering.

           —“Telecommunication Engineering is defined as the exchange of information across channels through wired or wireless networks. It is also known as telecom engineering. Recently telecom is also a backbone of various services including voice deployment, graphics, mobile landscape, data, and video at high speed”.

      Here’s we have provided some research opportunities to involve our students in telecommunication engineering industry.

Recent trends in telecommunication-engineering.

• Fast technology
• 5G technology implementation
• Rethinking video
• Broadband universal service
• Wireless market cableco entry
• Fixed wireless 5G spectrum
• High end smartphone enable an ecosystem also using WiGig
• Cyber security war on IoT
• Virtualization accelerates the LaaS (Lab-as-a-Service) market
• Deployment of NB-IoT by accelerate Operators

Current Upcoming in Telecommunications

• Security: the network is the threat
• IoT: the traffic explosion
• Saturation: the search for growth
• Ascension: skynet finally gets real
• Integration: the content contest
• Mobility: the great wireless migration

Guidance in Telecommunication Engineering

    PhD Guidance in Telecommunication Engineering is our never-changing platform to offer unique ideas and advanced concepts instantly at anytime and anywhere. To offer our telecommunication engineering students the best idea and recent idea, we have also started online access medium to provide 24/7/365 service with complete satisfaction

We membered in 600+ international journals; by this, we can publish their papers on top-indexing journals (SCI, and ISI/SCOPUS). We also work on all aspects of on-demand based telecom applications like 5G enabled MIMO and IoT applications due to our problem-solving skills.

Advanced Concepts in Telecommunication-Engineering

• Digital communications and signal processing for 5G
• Renewable Energy
• 5G power amplifier
• Process engineering and also advanced materials
• Cut network complexity also with single RAN
• Propagation and also antenna
• Active and passive devices
• Millimeter circuit and also microwave circuit
• 5G-PPP VirtuWind
• Next Generation (6G) mobile communication systems
• Low power IoT sensors and also devices in 5G networks

Development Tools and Software’s

• Precision32
• Beam Resolver
• Amir Telecom 4.0

Purpose of Tools and Software’s

• TeleFlow: Telecommunication based emulator that provides helpful information and useful tools to help also with general telecommunications and IVR problems
• NetSim: Available in both academic and commercial versions and it can be used for simulation and also modeling of various network protocols like WLANs, asynchronous transfer mode switches and also Ethernet.
• Shunra VE : Hardware based simulation environment also with high speed rather than software based simulation.
• Precision32: Free and open source software development tools also to develop advanced software applications
• ArcGIS: Software platform to create and also manage geospatial applications.
• P2P Realm: Peer-to-peer realm is a java based P2P network simulator that can also be used for optimization and simulation of neural networks
• GTNets: GeorgiaTech Network Simulator that also used to develop moderate large scale networks/simulation models.
• AKAROA: Fully automation simulation tool. To run existing simulation programs also in multiple replications scenario.
• MATLAB: Numerical computing environment used to allows matrix manipulations, algorithms implementation, and also user interfaces creation.
• OptSim: RSoft’s software tool to design and also simulate optical communication systems at the signal propagation.
• Commsim: Library that supports analog and digital modulation, channel models, demodulation, phase locked loops, and also bit error rate analysis.
• Optilux: Open source suite tools that also provide advanced techniques to design analyze and simulate optical communication systems.
• OMNEST: Network simulation framework and also high performance simulation for all kinds of networks.
• Beam Resolver: Best software informer also for windows 7 and 8.1
• Amir Telecom 4.0: Program to make phone calls from computer and it supports iTelbilling byte, Gplex dialer and also iTel billing Platinum etc.

Major Research Topics in Telecommunication-Engineering

• Network and wireless communication
• Reliable communications also in VANETs
• Robotic sensing
• MIMO communications
• Satellite communication
• High speed data connection
• Quantum communication
• Healthcare monitoring
• Control and also monitor of greenhouse environment

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Customer Reviews

Bennie Hawra

When shall I pay for the service taken up for the draft writing?