Technology and Communication Research Paper Topics

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  • Archiving of Internet Content
  • Code as Law
  • Communication Infrastructure
  • Communication Technology and Democracy
  • Communication Technology Standards
  • Crime and Communication Technology
  • Development of Information and Communication Technology
  • Digital Divide
  • Digitization and Media Convergence
  • Domain Names
  • Domestication of Technology
  • Economics of Technology
  • E-Government
  • Human–Computer Interaction
  • Information and Communication
  • Information Literacy
  • Information Overload
  • Information Society
  • Internet Ratings Systems
  • Internet Research Ethics
  • Language and the Internet
  • Link Analysis
  • Log-File Analysis
  • Network Organizations through Communication Technology
  • Online Media
  • Open Access Journals
  • Open Source
  • P2P Networking
  • Personal Communication by CMC
  • Personal Publishing
  • Search Engines
  • Sex and Pornography Online
  • Social Construction of Technology
  • Technology and Globalization
  • Technology as Fashion
  • Technology Assessment
  • Technology for Mobility
  • Technology of Internet
  • Terrorism and Communication Technologies
  • Ubiquitous Computing
  • Virtual Communities

Endogenous and Exogenous Perspective

ICT innovation can be treated conceptually as either exogenous or endogenous to a social system. The exogenous perspective treats ICTs as if they are objects isolated from the social, political, and economic environment in which they are produced and consumed. If it is technology that is the determining factor in social organization, then what is left for the researcher is an observer role. The exogenous perspective emphasizes the efficiency and rationality of an autonomous technological system where there is little room for human agency.

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In contrast, from an endogenous perspective, research focuses on the way ICTs become woven into the fabric of life – in terms of morality, the economy, culture, or the political world and on the specific, material conditions under which technology is produced and consumed. Technology is regarded as part of the social fabric where actors sanction certain forms of change and not others. Power is understood to be located in the interwoven alignment of state (administrative and military), private capital, and civil society interests. In this view, the emphasis is on the way technology mediates human relationships and on the constraints that distort benefits that might otherwise accrue to those who are not at the center of economic and political power (Curran et al. 2012; Mansell 2012; Silverstone 2007).

Among the many strands of research in this context are studies of the political implications of the information society for democracy and participation in public debate and in electoral processes and whether a right to communicate should be enshrined in international law (Jørgensen 2013). Within sociology, research on the domestication of technologies (Hartmann 2013) has helped to reveal that ICT artifacts are not prefigured by technology designers for their users, and that older and newer media and ICTs are appropriated in unpredictable ways depending on the cultural specificities of their use. Economic analysis tends to focus on the diffusion of ICTs and the implications for productivity in the economy since these technologies are classed as general-purpose technologies and associated with major transformations when they become widely dispersed across all ICT-using sectors of the economy (Freeman 2007).

Research Topics

The disruptive characteristics of innovations in ICTs have given rise to many debates about their positive or negative implications for the global order, with research emphasizing links between local and distant places and the sometimes unifying, and at other times fragmenting, consequences. There is no stable definition but the term virtual community generally applies to online interactions that give rise to new forms of relationships and new organizational forms. Research focuses on the network relations among activists, bloggers, scientists and many other communities of users of social media. The digital platforms that support these communicative activities are increasingly being used by researchers to map the architecture of networks and social relations with a focus on the directionality of communication, synchronicity, content modularity, interactivity, personalization, and meaning construction. Research on issues of information control, privacy, and security raised by user-generated content, the co-creation of content, and interactive Web 2.0 applications is beginning to tackle the implications of ‘big data’ analytics which uses web-harvesting, ratings systems, and identity profiling to support corporate and state information collection and processing activities (Mayer- Schönberger & Cukier 2013). Digital means of interacting online support the networking activities of individuals and of networked organizations which enable virtual teamworking and outsourcing, raising questions about the ownership of creative capabilities, privacy, and trust, whether the public can have confidence in the digital services provided by governments, and whether new forms of interaction are consistent with democratic practice.

When the diffusion of ICTs is uneven, or where the distribution of the gains as a result of investing in them is uneven, this is referred to as a digital divide. For some it is an article of faith that ICTs hold the solutions to economic, political, and cultural problems, while others argue that digital divides mean that it is unlikely that these technologies will alleviate deeply rooted social and economic problems. This concept has been criticized for its oversimplification of the factors that give rise to inequality and research focusing on digital literacies (including information literacy or media literacy) and cultural differences have yielded insight into the many forms and consequences of digital exclusion (Livingstone and Helsper 2010). Differences in views about the relationship between technology and communication and the persistence of digital divides are reflected in research on whether a global media and communication policy environment is feasible and the roles of the nation state and multistakeholder groups in governing digital media.

Different framings of the relationship between globalization and communication are echoed in research on the governance regimes that enable the production and consumption of ICTs and media content, locally and globally. The governance of Internet has become a hotly contested area of research drawing on legal expertise and examining the values embedded in the architecture of the Internet and other digital applications. Brown and Marsden (2013) provide comprehensive examinations of the proliferation of policies, regulations, and legislation in response to the global spread of digital networks and their applications, especially the Internet. In addition, there is research on specific online behaviors and whether there should be sanctions for ‘bad’ behavior in the case of hacktivism or crime and terrorism.

Finally, the relationship between technology and communication raises many issues with respect to ethical conduct within the humanities and the social sciences. Guidelines with respect to Internet-related research have been developed nationally and by organizations such as the Association of Internet Researchers (AoIR). Different methods raise concerns about the risks involved to researchers and to those they study.

References:

  • Brown, I. & Marsden, C. (2013). Regulating code: good governance and better regulation in the information age. Cambridge, MA: MIT Press.
  • Castells, M. (2009). Communication Power. Oxford: Oxford University Press.
  • Curran, J., Fenton, N., & Freedman, D. (2012). Misunderstanding the internet. London: Routledge.
  • Freeman, C. (2007). The ICT paradigm. In R. Mansell, C. Avgerou, D. Quah, & R. Silverstone (eds.), The Oxford handbook of information and communication technologies. Oxford: Oxford University Press, pp. 34–54.
  • Hartmann, M. (2013). From domestication to mediated mobilism. Mobile Media and Communication, 1(1), 42–49.
  • Jørgensen, R. F. (2013). Framing the net: The Internet and human rights. Cheltenham: Edward Elgar.
  • Livingstone, S. & Helsper, E. (2010). Balancing opportunities and risks in teenagers’ use of the Internet: The role of online skills and Internet self-efficacy. New Media & Society, 12(2), 309–329.
  • Mansell, R. (2012). Imagining the Internet: Communication, innovation and governance. Oxford: Oxford University Press.
  • Mayer-Schönberger, V. & Cukier, K. (2013). Big data: a revolution that will transform how we live, work and think. London: John Murray.
  • Silverstone, R. (2007). Media and morality: On the rise of the mediapolis. Cambridge: Polity.

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Research Topics & Ideas: Communication

50 Topic Ideas To Kickstart Your Research

Research topics and ideas about communication and comms strategy

If you’re just starting out exploring communication-related topics for your dissertation, thesis or research project, you’ve come to the right place. In this post, we’ll help kickstart your research by providing a hearty list of research topics and ideas related to communication and comms strategy, including examples from recent studies.

PS – This is just the start…

We know it’s exciting to run through a list of research topics, but please keep in mind that this list is just a starting point . These topic ideas provided here are intentionally broad and generic , so keep in mind that you will need to develop them further. Nevertheless, they should inspire some ideas for your project.

To develop a suitable research topic, you’ll need to identify a clear and convincing research gap , and a viable plan to fill that gap. If this sounds foreign to you, check out our free research topic webinar that explores how to find and refine a high-quality research topic, from scratch. Alternatively, consider our 1-on-1 coaching service .

Research topic idea mega list

Communication-Related Research Topics

  • Analyzing the effectiveness of crisis communication strategies in the airline industry post-accidents.
  • The role of social media in shaping corporate brand identity in the fashion industry.
  • Investigating the impact of internal communication on employee engagement in remote work environments.
  • The effectiveness of influencer marketing in health and wellness brands.
  • Analyzing the impact of virtual reality in enhancing audience engagement in museums and galleries.
  • The role of communication in change management within large healthcare organizations.
  • Investigating the use of digital storytelling in non-profit fundraising campaigns.
  • The impact of corporate social responsibility communication on consumer perceptions in the fast-food industry.
  • Analyzing the effectiveness of environmental communication strategies in promoting sustainable practices among businesses.
  • The role of intercultural communication in the success of international mergers and acquisitions.
  • Investigating the impact of communication style on leadership effectiveness in tech startups.
  • The effectiveness of targeted advertising in political campaigns.
  • Analyzing the role of public relations in managing celebrity image crises.
  • The impact of mobile communication technologies on marketing strategies in retail.
  • Investigating the use of employee advocacy on social media as a branding tool.
  • The role of communication in enhancing customer service experiences in the hospitality industry.
  • Analyzing the impact of user-generated content on brand loyalty in the automotive industry.
  • The effectiveness of communication strategies in addressing gender diversity in the workplace.
  • Investigating the role of strategic communication in corporate restructuring processes.
  • The impact of language barriers on global marketing and advertising strategies.
  • Analyzing the effectiveness of communication platforms in remote team collaboration.
  • The role of multimedia content in enhancing online engagement for educational institutions.
  • Investigating the impact of communication strategies on patient adherence in healthcare.
  • The effectiveness of internal crisis communication in financial institutions during economic downturns.
  • Analyzing the role of corporate storytelling in enhancing brand identity.

Research topic evaluator

Communication Research Ideas (Continued)

  • The impact of social media algorithms on news dissemination and public opinion.
  • Investigating the role of communication in customer retention strategies in the telecom industry.
  • The effectiveness of green marketing communication in promoting eco-friendly products.
  • Analyzing the impact of augmented reality in interactive marketing campaigns.
  • The role of communication in managing stakeholder relationships in construction projects.
  • Investigating the impact of cultural differences on international public relations practices.
  • The effectiveness of video marketing in consumer engagement on social media platforms.
  • Analyzing the role of communication in employee wellness programs.
  • The impact of digital communication tools on enhancing B2B sales strategies.
  • Investigating the effectiveness of podcasting as a marketing tool for small businesses.
  • The role of communication in facilitating organizational change in public sector organizations.
  • Analyzing the impact of artificial intelligence on personalized customer communication.
  • The effectiveness of integrated marketing communications in luxury brand management.
  • Investigating the use of virtual events for community building in online gaming.
  • The role of strategic communication in environmental advocacy.
  • Analyzing the impact of communication technologies on remote learning and education.
  • The effectiveness of grassroots communication campaigns in social movements.
  • Investigating the role of communication in project management success in the IT industry.
  • The impact of communication style on negotiation outcomes in international trade.
  • Analyzing the effectiveness of brand messaging in sustainable fashion.
  • The role of visual communication in enhancing brand presence on social media.
  • Investigating the impact of public speaking skills on leadership effectiveness.
  • The effectiveness of communication strategies in health promotion and disease prevention.
  • Analyzing the role of communication in the adoption of new technologies in traditional industries.
  • The impact of cross-cultural communication on global marketing and branding strategies.

Recent Communication-Related Studies

While the ideas we’ve presented above are a decent starting point for finding a  research topic, they are fairly generic and non-specific. So, it helps to look at actual studies in the communication space to see how this all comes together in practice.

Below, we’ve included a selection of recent studies to help refine your thinking. These are actual studies,  so they can provide some useful insight as to what a research topic looks like in practice.

  • Studying Linguistic Means of Expression of PR Campaigns Aimed at Combating the Pandemic in the Digital Age: A Multimodal Approach (Minyar-Belorucheva & Sergienko, 2022)
  • Educating communication sciences and disorders students to use evidence-based practice literature: A collaboration between a library liaison and a CSD professor (Day & Flynn, 2022)
  • The Teaching and Learning of Communication Skills in Social Work Education (Reith-Hall & Montgomery, 2022)
  • Communication skills training for improving the communicative abilities of student social workers (Reith-Hall & Montgomery, 2023)
  • The Case for Addressing Emotional Resilience in Graduate Student Training (Malandraki, 2022)
  • Role of Communication Skills: A Review (Saxena et al., 2022)
  • Future Challenges of Post-third Wave Communication Studies Covid-19 Pandemic: Media Practitioner Perspective (Santoso, 2022)
  • Effective communication management in a public health crisis: lessons learned about COVID-19 pandemic through the lens of health communication executives (Voges et al., 2023)
  • Transdisciplinary engaged learning (Griffith, 2023) The mediating effect of mindfulness and self-compassion on leaders’ communication competence and job satisfaction (Salazar, 2022)
  • Communication Skills across Engineering Curriculum: A Case Study (Kakepoto et al., 2022)
  • Communication Skills among University Students (Ansari et al., 2022).
  • The Management of Communication Skills Development in Literature High Secondary Education from the Student’s Point of View (Hung et al., 2022).
  • A study about recognition of middle school and high school students on teacher’s communication skills (Chang et al., 2022)
  • Communication pedagogy in public affairs programs: Insights from a study of MPA and MPP curricula (Manoharan & Rangarajan, 2022)
  • Health communication needs for COVID-19 prevention and control among college students (Zhang et al., 2023)
  • The strategic value of “chaos” in the South African context for the training of communication students (De Wet, 2022)
  • Underrepresentation of Students From Diverse Backgrounds Entering Communication Sciences and Disorders Programs: An Investigation Into the University Student Perspective (Richburg, 2022)
  • Communicating Science, Technology, and Environmental Issues: A Case Study of an Intercultural Learning Experience (van Kempen et al., 2022)

As you can see, these research topics are a lot more focused than the generic topic ideas we presented earlier. So, for you to develop a high-quality research topic, you’ll need to get specific and laser-focused on a specific context with specific variables of interest.  In the video below, we explore some other important things you’ll need to consider when crafting your research topic.

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If you’re still unsure about how to find a quality research topic, check out our Research Topic Kickstarter service, which is the perfect starting point for developing a unique, well-justified research topic.

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Electronic devices articles from across Nature Portfolio

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Inorganic Cs 3 Bi 2 I 9 lead-free halide perovskite film for large-area X-ray detector via low-cost ambient spray coating

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Fully flexible implantable neural probes for electrophysiology recording and controlled neurochemical modulation

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Improving both performance and stability of n-type organic semiconductors by vitamin C

The development of n-type organic semiconductors (OSCs) has been held back due to stability issues. Here the authors report that vitamin C improves both the performance and stability of n-type OSCs and devices.

  • Liqian Yuan
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A meta-analysis of semiconductor materials fabricated in microgravity

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research topics related to electronics and communication

 Electronics

Ece seminar topics 2024 – the top 100 topics for electronics and communication engineering, electronics and communication engineering seminar topics.

Here is a curated list of the top 100 Technical Seminar topics for Electronics and Communication Engineering (ECE) and a brief introduction to each subject.

Emerging Technologies in Electronics (2024):

AI in Electronics & Communication Engineering : This involves leveraging artificial intelligence techniques to enhance the design, optimization, and performance of electronic systems and communication networks. Related : Integrating Artificial Intelligence on ECE

Quantum Dot Cellular Automata (QCA): A Paradigm Shift in Digital Design Explore the potential of QCA, a promising nanotechnology for ultra-low power and high-speed digital circuits.

Neuromorphic Engineering: Building Brain-Inspired Electronics Investigate how neuromorphic engineering mimics the structure and function of the human brain for efficient computing.

Memristor-Based Circuits for Non-Volatile Memory Applications Examine memristors as a revolutionary element for non-volatile memory with high-speed and low-power characteristics.

Spintronics: Next-Generation Electronics with Spin Discuss spin-based electronics that utilize the spin of electrons for novel computing and memory applications.

Flexible Electronics and Wearable Devices Explore advancements in flexible electronics and their applications in wearable devices for healthcare and consumer electronics.

Communication Technologies (2024):

6G Wireless Communication: The Future of Connectivity Investigate the key features and potential applications of the sixth generation of wireless communication technology. Related: 6G Network Technology

Terahertz Communication Systems: Breaking the Bandwidth Barrier Explore using terahertz frequencies for high-bandwidth wireless communication and imaging applications.

Visible Light Communication (VLC): Li-Fi Technology Discuss VLC, a wireless communication technology that uses visible light to transmit data, offering high-speed and secure communication.

Free-Space Optical Communication (FSO): Beyond Fiber Optics Examine FSO as a wireless communication technology using laser beams for high-speed data transmission.

Massive MIMO: Advancements in Wireless Antenna Technology Explore Massive Multiple-Input, Multiple-Output (MIMO) technology for improving the capacity and efficiency of wireless communication systems.

Signal Processing and Image Processing (2024):

Sparse Signal Processing: Applications in Compressed Sensing Investigate sparse signal processing techniques and their applications in medical imaging and communication.

Quantum Signal Processing: Harnessing Quantum Computing Power Explore how quantum computing can revolutionize signal processing tasks for enhanced speed and efficiency.

Image-to-Image Translation with Generative Adversarial Networks (GANs) Discuss GANs for translating images from one domain to another, with applications in art, fashion, and medical imaging.

Edge Computing in Signal Processing: Real-Time Applications Explore the implementation of signal processing algorithms on edge devices for low-latency and real-time applications.

Brain-Computer Interface (BCI): Next-Generation Human-Machine Interaction Investigate the technology behind BCIs, enabling direct communication between the brain and external devices.

Internet of Things (IoT) and Wireless Sensor Networks (2024):

Energy Harvesting for IoT Devices: Sustainable Power Solutions Explore energy harvesting technologies for powering IoT devices using ambient energy sources.

5G IoT: Enabling the Massive Connectivity of Things Discuss how 5G technology facilitates the deployment of many IoT devices with high data rates and low latency.

Blockchain for Secure and Decentralized IoT Networks Explore how blockchain technology enhances security and trust in IoT applications by providing a decentralized and tamper-proof ledger.

Wireless Sensor Networks for Environmental Monitoring Investigate the use of wireless sensor networks for real-time environmental monitoring and data collection.

RFID Technology: Applications and Challenges in IoT Explore Radio-Frequency Identification (RFID) technology, its applications, and challenges in implementing RFID-based IoT systems.

Related: Internet of Things(IoT) Seminar

Biomedical Electronics (2024):

Wearable Health Monitoring Systems: IoT in Healthcare: This session will discuss wearable devices and IoT technologies for continuous health monitoring, early detection, and personalized healthcare.

Bioelectronic Medicine: Interfacing Electronics with the Nervous System Explore the field of bioelectronic medicine, where electronic devices interface with the nervous system for therapeutic purposes.

Neural Prosthetics: Restoring Functionality with Brain-Computer Interfaces Investigate the development of neural prosthetics that use brain-computer interfaces to restore lost sensory or motor functions.

Biomedical Signal Processing for Disease Diagnosis Explore advanced signal processing techniques for analyzing biomedical signals and diagnosing diseases.

Implantable Electronics for Medical Applications Discuss the development of implantable electronics for various medical applications, including monitoring and treatment.

Robotics and Automation (2024):

Swarm Robotics: Cooperative Multi-Robot Systems Explore the coordination and collaboration of multiple robots in swarm robotics for efficient and scalable applications.

Soft Robotics: Flexible and Adaptive Robot Design Investigate soft robotics, focusing on flexible materials and structures for safer and more adaptable robotic systems.

Robotics Process Automation (RPA) in Industry Discuss the implementation of RPA in automating repetitive and rule-based processes in various industries.

Human-Robot Collaboration in Industry 4.0 Explore the integration of robots and humans in manufacturing processes for increased efficiency and flexibility.

Autonomous Underwater Vehicles (AUVs): Exploring the Ocean Depths Discuss using AUVs for autonomous exploration and data collection in underwater environments.

Power Electronics and Renewable Energy (2024):

Smart Grid Technology: Modernizing Electrical Power Systems Explore integrating digital technology and communication in power systems for improved efficiency and reliability.

Renewable Energy Integration: Challenges and Solutions Investigate the challenges and solutions of integrating renewable energy sources into the existing power grid.

Wireless Power Transfer: The Future of Charging Discuss wireless power transfer technologies for charging electronic devices, electric vehicles, and medical implants.

Power Electronics for Electric Vehicles: Charging and Control Explore advancements in power electronics for efficient charging and control systems in electric vehicles.

Energy Storage Technologies for Grid Integration Investigate emerging energy storage technologies to support grid integration and ensure a stable renewable energy supply.

Photonics and Optoelectronics (2024):

Integrated Photonics: Miniaturizing Optical Components Explore the integration of various photonic components on a single chip for compact and efficient optical systems.

Metamaterials: Engineering Light for Advanced Optics Discuss metamaterials and their applications in controlling light for improved optics, sensing, and imaging.

Quantum Photonics: Harnessing Quantum Properties of Light Investigate how quantum properties of light can be utilized in quantum communication and computing.

Optical Coherence Tomography (OCT) for Medical Imaging Explore OCT as a non-invasive imaging technique for high-resolution imaging in medical applications.

Plasmonics: Enhancing Light-Matter Interactions Discuss plasmonics, focusing on the interaction between electromagnetic field and free electrons for applications in sensing and imaging.

VLSI and Embedded Systems (2024):

Hardware Security in VLSI: Protecting Against Cyber Threats Explore techniques and methodologies for enhancing the security of VLSI designs against cyber-physical attacks.

Reconfigurable Computing: Flexibility in Hardware Design Investigate reconfigurable computing platforms that allow dynamic changes to hardware configurations for improved flexibility.

Energy-Efficient VLSI Design: Low-Power Circuit Techniques Discuss low-power circuit design techniques for energy-efficient VLSI systems, extending battery life in portable devices.

Internet of Things (IoT) Edge Processing: Efficient Embedded Solutions Explore edge processing in IoT devices, focusing on energy-efficient embedded systems for data analytics and decision-making.

Machine Learning on Edge Devices: Enabling Intelligent IoT Investigate the implementation of machine learning algorithms on edge devices for real-time and intelligent processing.

Microwave and Antenna Systems (2024):

Metasurface Antennas: Advanced Electromagnetic Wave Control Explore metasurface antennas and their ability to control electromagnetic waves for improved antenna performance.

Millimeter-Wave Communication Systems: 5G and Beyond Discuss the use of millimeter-wave frequencies in communication systems, especially for 5G networks and future wireless technologies.

Terahertz Antennas: Enabling High-Frequency Communication Investigate terahertz antennas for high-frequency communication systems, with applications in imaging and sensing.

MIMO Antenna Systems for Wireless Communication Explore Multiple-Input, Multiple-Output (MIMO) antenna systems and their applications in improving wireless communication performance.

RF Energy Harvesting for Wireless Sensor Networks Discuss the use of radio frequency (RF) energy harvesting to power wireless sensor nodes in remote or hard-to-reach locations.

Communication Protocols and Standards (2024):

6LoWPAN: Enabling IPv6 Connectivity for IoT Devices Explore the use of IPv6 over Low-Power Wireless Personal Area Networks (6LoWPAN) for efficient communication in IoT devices.

Time-Sensitive Networking (TSN) for Industrial IoT Investigate TSN is a set of standards for real-time communication in industrial IoT applications that ensures timely and deterministic data delivery.

Cooperative Communication in Wireless Networks Discusses cooperative communication strategies that enhance the reliability and efficiency of wireless communication networks.

Software-Defined Radio (SDR): Flexible Communication Platforms Explore SDR platforms that enable flexible and reconfigurable communication systems by implementing radio functions in software.

Bluetooth Low Energy (BLE): Efficient Wireless Connectivity Discuss BLE technology and its applications in low-power and short-range wireless communication for IoT devices.

IoT Related articles:

  • Internet of Things(IoT) Seminar
  • 100 IoT Project Ideas
  • 21 Raspberry Pi Projects

Security and Privacy in Communication (2024):

Post-Quantum Cryptography: Securing Communication Against Quantum Threats Explore cryptographic techniques designed to resist attacks by quantum computers, ensuring secure communication.

Physical Layer Security in Wireless Communication Investigate techniques that leverage the physical characteristics of the communication channel for enhancing wireless communication security.

Blockchain-Based Secure Communication Networks Discuss the use of blockchain technology to establish secure and tamper-proof communication networks.

Biometric Authentication in Communication Systems Explore the integration of biometric authentication methods in communication systems for enhanced security.

Secure Multi-Party Computation: Privacy-Preserving Communication Investigate techniques for secure multi-party computation, allowing parties to jointly compute a function over their inputs while keeping them private.

Related: Secure Communication Technology

Wireless Charging and Power Transfer (2024):

Resonant Inductive Wireless Power Transfer (WPT) Explore resonant inductive WPT technologies for efficient wireless charging of devices over short to medium distances.

Radio Frequency Identification (RFID) in Wireless Charging Discuss the integration of RFID technology with wireless charging systems, enabling identification and communication between devices.

Wireless Power Transfer for Biomedical Implants Investigate the application of wireless power transfer for charging and powering biomedical implants without physical connections.

Microwave Power Transfer: Long-Range Wireless Charging Explore microwave power transfer technologies for long-range wireless charging of electronic devices.

Wireless Charging for Electric Vehicles: Challenges and Solutions Discuss challenges and solutions in implementing wireless charging systems for electric vehicles, enhancing convenience and efficiency. Related: Wireless Charging for Electric Vehicles (EVs) Seminar Report

Cognitive Radio and Dynamic Spectrum Access (2024):

Cognitive Radio Networks: Intelligent Spectrum Management Investigate cognitive radio networks that intelligently adapt to dynamic spectrum conditions, optimizing the utilization of available frequencies.

Dynamic Spectrum Access (DSA): Efficient Spectrum Sharing Discuss DSA technologies enabling flexible and efficient radio frequency spectrum sharing among different users.

Machine Learning for Spectrum Sensing in Cognitive Radio Explores the application of machine learning techniques for spectrum sensing in cognitive radio networks, improving accuracy and reliability.

Game Theory in Spectrum Sharing: Balancing Interests Investigate the use of game theory principles in designing algorithms for fair and efficient spectrum sharing among multiple users.

White Space Devices (WSDs) in Dynamic Spectrum Access Discuss the use of WSDs to dynamically access unused frequencies (white spaces) in the spectrum, enhancing overall spectrum utilization.

Optical Communication Technologies (2024):

Fiber-Wireless (FiWi) Networks: Integrating Optical and Wireless Communication Explore FiWi networks that integrate high-speed optical communication with flexible and scalable wireless networks.

Visible Light Communication (VLC): Li-Fi Technology Discuss VLC, a wireless communication technology that uses visible light to transmit data, offering high-speed and secure communication. Li-Fi Technology

Optical Wireless Communication for Underwater Applications Investigates the challenges and solutions for implementing optical wireless communication in underwater environments.

Quantum Key Distribution (QKD) for Secure Optical Communication Explore QKD as a method for secure key exchange in optical communication systems, leveraging quantum properties for enhanced security.

Integrated Circuits and System Design (2024):

Machine Learning on Edge Devices: Enabling Intelligent IoT Investigate the implementation of machine learning algorithms on edge devices for real-time and intelligent processing. Related: Internet of Things(IoT)

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Collegelib.com prepared and published this curated seminar topic ideas for Electronics Communication Engineering (ECE) Students. In addition to this information, you should research before shortlisting your topic. Please include the following Reference: Collegelib.com and link back to Collegelib in your work.

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research topics related to electronics and communication

Recent Trends in Electronics and Communication

Select Proceedings of VCAS 2020

  • Conference proceedings
  • © 2022
  • Amit Dhawan 0 ,
  • Vijay Shanker Tripathi 1 ,
  • Karm Veer Arya 2 ,
  • Kshirasagar Naik 3

Department of Electronics and Communication Engineering, Motilal Nehru National Institute of Technology, Allahabad, India

You can also search for this editor in PubMed   Google Scholar

Department of Information and Communication Technology, Atal Bihari Vajpayee Indian Institute of Information Technology and Management, Gwalior, India

Department of electrical and computer engineering, university of waterloo, waterloo, canada.

Part of the book series: Lecture Notes in Electrical Engineering (LNEE, volume 777)

Included in the following conference series:

  • VCAS: International Conference on VLSI, Communication and Signal processing

Conference proceedings info: VCAS 2020.

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About this book

This book comprises select proceedings of the International Conference on VLSI, Communication and Signal processing (VCAS 2020). The contents are broadly divided into three topics – VLSI, Communication, and Signal Processing. The book focuses on the latest innovations, trends, and challenges encountered in the different areas of electronics and communication, especially in the area of microelectronics and VLSI design, communication systems and networks, and image and signal processing. It also offers potential solutions and provides an insight into various emerging areas such as Internet of Things (IoT), System on a Chip (SoC), Sensor Networks, underwater and underground communication networks etc. This book will be useful for academicians and professionals alike.

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research topics related to electronics and communication

Introduction

research topics related to electronics and communication

Wireless Sensing Systems: A Review

  • Analog, Digital and Mixed Signal Design
  • Device Modelling and Process Simulation
  • Communication Theory and Applications
  • Optical Networks and Systems
  • RF and Microwave Engineering
  • Antenna Design and MIMO Systems
  • Algorithms and Techniques for 5G and beyond
  • IoT and Sensor Networks
  • Signal Processing: Theory, Methods, and Applications
  • Signal Processing Systems and Architectures
  • Image, Video, and Multimedia Signal processing

Table of contents (108 papers)

Front matter, design and comparison of low-power, high-speed t flip flop, and 4-bit asynchronous counter using various design techniques.

  • Sunny Mavani, Anuja Askhedkar

Performance Evaluation of Bimetallic Surface Plasmon Resonance Sensor Based on Ti3C2Tx (MXene)

  • Rajeev Kumar, Sarika Pal, Narendra Pal, J. P. Saini, Y. K. Prajapati

Optimized FPGA Implementation of 64-Point FFT Using Folding Transformation

  • Nafzia, L. Lijesh

Optimization of Antenna Parameters Using Neural Network Technique for Terahertz Band Applications

  • Anurag K. Kumar, Medhavi Kirti, Shuchishmita Pani, Sanjeev Saxena

BE-Sync: A Bandwidth Efficient Time Synchronization for Underwater Wireless Sensor Networks

  • Amrita Datta, Mou Dasgupta

An Analysis of Analog Performance for High- K Gate Stack Dielectric Pocket Double-Gate-All-Around (DP-DGAA) MOSFET

  • Vaibhav Purwar, Rajeev Gupta, Nitish Kumar, Himanshi Awasthi, Rakesh Kumar Pandey

Novel Design of Cylindrical DRA Built MIMO Antenna for 5G Future Prospective Covering (n78/n79) Bands

  • Ajay Kumar Dwivedi, Anand Sharma, Ashutosh Kumar Singh, Vivek Singh

Investigation of Analog Performance of In0.53Ga0.47As-Based Nanotube Double-Gate-All-Around (DGAA) MOSFET

  • Nitish Kumar, Himanshi Awasthi, Vaibhav Purwar, Abhinav Gupta, Sanjeev Rai

Integrated Clock Gating Analysis of TG Based D Flip-Flop for Different Technology Nodes

  • Sunita Panda, Samiksha Sharma, Abhijit R. Asati

Design of Ku Band HEMT-Based Class AB Amplifier

  • Manoj Kumar, Sukwinder Singh, Deepti Kakkar

X Band Class F Power Amplifier for Satellite Communication

  • Akash Gaikwad, Sukwinder Singh

Investigation of GNR Based Meta-Material Antenna for Single and Dual Band THz Applications

  • Ritesh Kumar Kushwaha, P. Karuppanan, Nand Kishore

Comparative Study of Silicon and In0.53Ga0.47As-Based Gate-All-Around (GAA) MOSFETs

  • Himanshi Awasthi, Nitish Kumar, Vaibhav Purwar, Abhinav Gupta, Vikrant Varshney, Sanjeev Rai

A Simple and Sturdy Hybrid Interference Canceller for a DS-CDMA System in Multipath Environment for Static and Mobile Users

  • Monica Khanore, Srija Unnikrishnan

Performance Evaluation of SPR Sensor on Using Graphene/TMDCs in Visible and Near Infrared Wavelength Regime

  • Vipin Verma, Sarika Pal, Narendra Pal, Dharmendra Kumar

Integration of Mobile and Web Application with Accident Detection System

  • Meet Panchani, Kashyap Gohil, Devansh Saksena, Yash Panwar, Naja Makwana, Rutu Parekh

Design and Analysis of Multiplexer Based D-Flip Flop Using QCA Implementation

  • Allam Naveen, C. V. Priyanka, R. K. Kavitha

A Novel High-Throughput Medium Access Control Protocol for Concurrent Transmissions in Internet of Things

  • Shubham Gupta, Arun Kumar Khosla, Pawan Kumar Verma, Rajesh Verma

A Comparative Investigation of SiGe Junctionless Triple Gate (JLTG) and Junctionless Gate-All-Around (JL-GAA) MOSFET

  • Abhinav Gupta, Vikrant Varshney, Adarsh Vishwakarma, Arunabh Kishore, Atul Pal, Piyush Mishra et al.

Other volumes

Editors and affiliations.

Amit Dhawan, Vijay Shanker Tripathi

Karm Veer Arya

Kshirasagar Naik

About the editors

Dr. Amit Dhawan received his Bachelors in Electronics and Communication Engineering from Birla Institute of Technology, Mesra, Ranchi, India; his Masters (Control & Instrumentation) and Ph. D. (Electronics and Communication Engineering) from Motilal Nehru National Institute of Technology (MNNIT) Allahabad, Prayagraj, India. He joined MNNIT Allahabad, Prayagraj, India, as lecturer in 1991, and became an Assistant Professor in 2001, Associate Professor in 2006 and Professor in 2012. At present, he is Professor and Head in the Department of Electronics and Communication Engineering, MNNIT Allahabad, Prayagraj, India. His current research interests include digital signal processing, robust stability, guaranteed cost control, delayed systems and multidimensional systems. He has published many articles in SCI journals and conference proceedings. He has also served as reviewer for many international journals and conferences. His biography was listed in Marquis´s Who´s Who inthe World, USA.

Dr. Vijay Shanker Tripathi has received his B.Tech. from J. K. Institute of Applied Physics and Technology, University of Allahabad, Prayagraj, India, in 1988. He did his M.Tech and Ph.D. from Motilal Nehru National Institute of Technology (MNNIT) Allahabad, Prayagraj, India in 1999 and 2007, respectively. At present he is a Professor in the Department of Electronics and Communication Engineering at MNNIT Allahabad, Prayagraj, India. He has published more than 60 research papers in reputed refereed international journals as well as in international conferences. He has guided more than 05 Ph.D scholars and more than 15 M.Tech scholars. His area of specialization includes RF circuits and systems, antenna, SDR, non-invasive RF sensors.

Dr. Karm Veer Arya has received his B.Sc. from Rohilkhand University, Bareilly, India, in 1986. He did his M.E. and Ph.D. from IISc Bangalore, India, and IIT Kanpur, Kanpur, India in 1991 and 2007, respectively. He is currently working as a Professor at ABV-Indian Institute of Information Technology and Management, Gwalior, India. He has published more than 150 research papers in reputed refereed international journals as well as in international conferences. He has supervised 11 Ph.D. scholars and 92 Masters' students. Dr. Arya has successfully completed many funded R&D projects. His research interest includes image processing, biometrics, and information security.

Dr. Kshirasagar Naik received his B.Sc (Engg.) and M.Tech degrees from Sambalpur University, India, and the Indian Institute of Technology, Kharagpur, India, respectively. He received an M. Math degree in computer science from the University of Waterloo and a Ph.D. degree in electrical and computer engineering from Concordia University, Montreal. He worked as a software developer for three years in Wipro, Bangalore– now one of the largest software consultancy companies in the world. Later, he worked as a faculty member at the University of Aizu in Japan and Carleton University in Canada. At present he is a Professor in the Department of Electrical and Computer Engineering at the University of Waterloo. He was a visiting Professor at the Research Institute of Electrical Communications at Tohoku University, Sendai, Japan, during May-November 2003. His research interests include energy performance of mobile devices and applications, detection of anomalous behavior of wireless devices and physical systems, energy harvesting IoT (Internet of Things) devices for sustainable monitoring of physical systems, and communication security, and wireless sensor networks. Designing mathematical models and building prototype sensor networks for performing real-life, controlled experiments lie at the core of his research. He has served on the editorial boards of many journals, including: Journal of Peer-to-Peernetworking and Applications, International Journal of Parallel, Emergent and Distributed Systems, Journal of Circuits, Systems, and Computers, and IEEE Transactions on Parallel and Distributed Systems. He was a co-guest editor of four special issues of IEEE Journal on Selected Areas in Communications and IEEE Transactions on Cloud Computing. He is a co-author of two widely used textbooks, namely, Software Testing and Quality Assurance: Theory and Practice (Wiley, 2008) and Software Evolution and Maintenance: A Practitioner’s Approach (Wiley, 2014).

Bibliographic Information

Book Title : Recent Trends in Electronics and Communication

Book Subtitle : Select Proceedings of VCAS 2020

Editors : Amit Dhawan, Vijay Shanker Tripathi, Karm Veer Arya, Kshirasagar Naik

Series Title : Lecture Notes in Electrical Engineering

DOI : https://doi.org/10.1007/978-981-16-2761-3

Publisher : Springer Singapore

eBook Packages : Engineering , Engineering (R0)

Copyright Information : The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2022

Hardcover ISBN : 978-981-16-2760-6 Published: 19 May 2024

Softcover ISBN : 978-981-16-2763-7 Due: 18 June 2024

eBook ISBN : 978-981-16-2761-3 Published: 13 December 2021

Series ISSN : 1876-1100

Series E-ISSN : 1876-1119

Edition Number : 1

Number of Pages : XVI, 1273

Number of Illustrations : 254 b/w illustrations, 651 illustrations in colour

Topics : Electrical Engineering , Communications Engineering, Networks , Signal, Image and Speech Processing , Microwaves, RF and Optical Engineering

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178 Communication Research Topics For Your Paper

178 Communication Research Topics

Imagine what the world would be without communication! How would we get along? I guess there would be no sense in existing after all. That is just a tiny snippet of how important communication is in everyday life. Exchanging information is a key component of coexistence as it creates order and a sense of satisfaction in the end.

However, communication as a discipline cuts across all other niches in the academic world. Students from an Engineering course would also take up communication as a unit of study. Students delve into the transmission, representation, reception, and decoding of information communicated to a greater extent.

Situations When You May Need To Write A Communication Paper

Various scenarios call for a communication paper either as an assignment or a research project in college. The communication papers needed for every situation vary in format and outline. Here are some of the cases when communication papers are necessary:

When writing a resume or cover letter In presentations and reports Internal or external communication in a company Writing a thesis statement

When writing communication papers in these different scenarios, students can develop the following aspects:

Understand the various communication phenomena Ability to direct communication messages towards accomplishing individual and organizational goals Understand various types of communication such as rhetoric, interpersonal or organizational

Such an assignment is peculiar because it deals with students’ communication processes. Therefore, the student can easily relate a communication assignment to the real-world environment.

You will have to conduct extensive digging before writing your paper like any other research project. In writing a communication research paper, you will benefit from the importance of communication in general, such as building better relationships and finding the right solutions to various problems.

It takes a lot of time to create a high-quality writing, so you have all the right to ask dissertation writers for hire to help.

Guidelines On Structure And Step By Step Tips On Writing

To have an award-winning communication paper, you need to understand that structure is always at the heart of it all. A great communication paper follows the structure below:

Solid intro : Begin by presenting a captivating introduction by highlighting the facts, questions, or problems that you will explore in the body. The reader should find more than a million reasons to proceed with your essay by reading the first two lines. A strong thesis statement is also necessary for the introduction. An insightful literature review : It shows the theoretical basis of your research project, thus giving it validity. An in-depth literature review will give room for exploration and further research. Main body : This is where we expect to find all your findings, methodological steps, concepts, analyses, and the outcome. Discussion and conclusion : Depending on your professor’s instructions, you can divide this into two parts or put it as one. In either case, this section will consist of the strengths and weaknesses of your research and any future development or improvements. You could also compare the results found in your research with what other authors have discovered.

Provided you have all your facts at hand, a communication research paper will be the easiest you will ever handle in college. Nonetheless, you can order a custom paper from various online writing experts.

If you want to make an impression with your communication research paper, here are some tips to consider:

Select a thought-provoking and captivating research topic Have a working outline with all the arguments and examples/evidence in place Ensure that you exhaust reading all the possible research materials on your topic Such papers are always in the first person except in unique cases

You can review some of the samples on our essay writer to familiarize yourself with the structure and outline of a communication research paper.

Let’s now explore 178 of the hottest communication research topics to ace your project:

Top Interpersonal Communication Research Topics

  • Evaluate the different relational patterns of interaction theory
  • How to achieve coordinated management of meaning
  • Discuss the fundamentals of pedagogical communication
  • How does technology relate to interpersonal communication?
  • Key constructs of openness and closeness
  • Establishing identities in the identity management theory
  • Evaluate the contribution of interpersonal communication scholars
  • How mental representations influence how people interpret information
  • Conceptualizing the process of social interaction
  • Discuss the various behavioral interaction patterns among siblings
  • Why do individuals modify their communicative behavior?
  • Describe why new environments present a challenge for most people to communicate effectively
  • The role of eye contact and gestures in interpersonal communication
  • Varying effects of nonverbal and verbal acts of interpersonal communication
  • Effects of different cultures on interpersonal communication strategies

World-Class Communication Research Topics For College Students

  • Understanding the historical research methods in communication
  • Discuss the relationship between technology, media, and culture
  • Evaluate the various revolutions in human communication
  • Discuss the developments made in the invention of human speech and language
  • The role of image-making, cinema, and media entertainment in communication
  • How to overcome communication barriers among students
  • Steps in encouraging participation in meetings
  • How employees contribute to the information flow in organizations
  • How to evaluate a report based on its findings
  • Sources of error during nonverbal communication
  • How the media can match the channels of communication to their audience
  • Ensuring audience attention during a presentation
  • The impact of graphics in communication strategies
  • How to interpret non-verbal signals
  • Developing communication methods that match a given purpose

Possible Topics For Communication Research

  • How to develop realistic communication strategies
  • Discuss the economics of finance in communication processes
  • How exposure to radio and TV impacts communication
  • How to manage controversial issues in communication
  • Why speaking with confidence is still difficult for many people
  • The effectiveness of communicating with words and body language
  • Why defining your purpose is key in any communication process
  • Why explanatory communication is more difficult than informative communication
  • The place of communication in long-distance relationships
  • Communication strategies that influence people
  • How to use communication effectively for conflict resolution
  • Developing your self-esteem for effective communication
  • Effects of redundancy in communication processes
  • The place of responsibility in developing communication messages
  • How to acquire effective communication skills in college

Latest Communication Topic For Research

  • The role of persuasive dialogue in negotiations
  • Why everyone must learn proper expression strategies
  • Effects of emoji and other characters in enhancing textual conversations
  • The role of propaganda in shaping communication tones
  • Evaluate the unique political language used in America versus Africa
  • The continuing impact of the internet on interpersonal communication
  • How images are enhancing communication
  • Discuss the effects of gender victimization on communication
  • Evaluate the development of modern digital communication
  • How to effectively communicate during a war or crisis
  • How hacking is transforming communication of encrypted messages
  • Effects of stereotyping in developing communication messages
  • Is virtual reality ruining effective communication?
  • Evaluate language as a barrier in communicating messages
  • The role of empathy in communicating to victims of a disaster

Top-Notch Communication Research Paper Topics

  • The role of diplomacy in fostering better relations among countries
  • Why aided communication may not achieve the intended purpose
  • Effects of using a translator in the communication of critical messages
  • Evaluate the development of audio-visual devices for communication
  • The dangers of failing to notice barriers to communication
  • How stigma and prejudice impact effective communication
  • Discuss the impact of having a common language in a country
  • How social classes affect communication messages
  • Factors that hinder communication between fighting political sides
  • How to develop strong communication skills in a marketplace
  • Why opinions may prevent one from seeing the true picture
  • Discuss the role of fantasy and exaggeration in communication
  • Differences between oral and verbal messages in conveying information
  • The role of attitude and mood in enhancing effective message delivery
  • How the media sets the communication pattern of a given society

Highly Rated Mass Communication Research Topics

  • Discuss the essence of social media among PR practitioners
  • The role of mass media in rebranding a nation
  • Challenges to media freedom and their impact on proper communication
  • Discuss the effects of news commercialization and their credibility
  • How TV advertisements impact children and their development
  • Compare and contrast between animation and real-people adverts in mass media
  • How the internet affects professionalization in news media
  • How mass media messages contribute to the development of religion in Africa
  • Evaluate the radio listenership patterns between men and women
  • How does mass media contribute to an emerging democracy
  • Discuss how the media enlightens the public on issues of concern
  • The role of mass media in communicating development messages
  • Why mass media is critical before, during, and after elections
  • Assess the influence of community radio in remote areas
  • How mass media contributes to national integration

Good Communication Research Topics

  • What determines consumer preference patterns in the 21 st century?
  • Effective communication strategies for creating awareness against drug abuse
  • Prospects and challenges of local dialects in communication
  • Evaluate the influence of television on public opinion
  • Discuss the growing cyberactivism in the digital age
  • How social media is contributing to misleading information
  • Challenges facing teachers when communicating to pre-school students
  • Discuss the impact of information overload on the credibility of information
  • Evaluate communication patterns among the youth in the US
  • Assess the effects of the Russia-Ukraine conflict on communication patterns
  • How public perception influences communication strategies
  • Explain how mothers learn to communicate with and understand their babies at such a tender age
  • The role of music in shaping communication models
  • How to overcome the challenge of top-down communication in companies
  • Management of information on online media for effective use

Business Communication Research Paper Topics

  • Discuss the increasing role of influencers on brand marketing
  • Why company blogs are essential in attracting new clients
  • Evaluate the differences between face to face and virtual business meetings
  • The growing popularity of social media in business marketing
  • Why every company should have a partner relations department
  • Dealing with complaints in a relaxed and useful manner
  • Why online project management is the future of business
  • Discuss why it is necessary to have company retreats
  • Explore the role of digital document sharing in speeding up business communication
  • Effects of relying on online communication at the expense of physical meetings
  • The role of effective business management in the performance of an organization
  • How staff motivation improve the overall working environment
  • Discuss the place of corporate social responsibility in a company
  • Effective ways of handling crisis in a large company
  • Explain why trust is important in any business partnerships

Intercultural Communication Research Topics

  • Discuss how Muslims interact with Christians at a social level
  • Evaluate the reception of instructions from a man to a woman
  • How Americans interact with Africans at the basic level
  • Discuss how an American Democrat would associate with a Chinese politician
  • Discuss the impact of marginalization in developing communication messages
  • How migration and immigration affect communication patterns
  • Effects of social stereotyping in communication
  • How do Western communication models differ from those of Africa?
  • Impact of discriminatory communication messages
  • How to organize an effective intergroup come-together
  • How the media represents various groups in its communication
  • Effects of the growing intercultural norms
  • The role of language attitudes in inhibiting effective communication
  • Evaluate how ethnographic perspectives affect communication messages
  • Why it is difficult to solve intercultural conflicts

Additional Interpersonal Communication Topics For Research Paper

  • The role of interpersonal communication in team member satisfaction
  • How collaboration and teamwork enhances business success
  • Discuss how interpersonal communication enhances problem-solving skills
  • The role of trust in interpersonal communication
  • Effects of confusion, negativity, and conflicts on interpersonal communication
  • How to deal with workplace miscommunication effectively
  • The role of personalizing information
  • How to improve internal communication channels in a company
  • Discuss the role of interests in communication patterns
  • Challenges when implementing modern communication solutions
  • Evaluate how jargon and inattention make internal communication difficult
  • The role of feedback in interpreting messages correctly
  • Discuss the influence of environmental factors in communication
  • Why miscommunication may result in a disconnect among a group of people
  • Discuss the role of skills and knowledge in effective communication among leaders

Interesting Communication Research Topics

  • How can effective interpersonal communication be a catalyst for action
  • Why a focused and intentional approach is necessary for effective communication
  • Discuss why online dating is not successful in most cases
  • Evaluate the role of non-verbal communication and customer satisfaction
  • Why is it important to have a list of communication networks?
  • Effects of lack of personal contact when it comes to communication
  • Discuss the various forms of human interactions and their influence on communication
  • The role of clear communication during an organizational change process
  • Why online communication is not as effective as physical meetings
  • Evaluate the roles and issues involved in a nurse-patient communication
  • The role of TV shows in determining how people relate to each other in the society
  • Effects of the digital divide in communication paradigms
  • The relationship between quality leadership and effective communication
  • Why is email still not yet an effective communication medium?
  • Effects of integrating marketing communication

General Communication Studies Research Topics

  • Discuss the differences in body language between male and female
  • The role of communication in familiarizing with someone
  • How online gaming communication affects one’s interpersonal communication
  • Why a leader without proper communication skills may not succeed
  • The role of communication in achieving an organization’s vision
  • How mobile phone conversations are turning around interpersonal communication
  • Discuss the role of different personality types in communication
  • Is there a difference between language and communication?
  • Discuss how communication in the military is different from that in a normal setting
  • Compare and contrast between written and spoken forms of communication
  • Why family communication is critical for a peaceful coexistence
  • Shortcomings to understanding foreign languages
  • Discuss the effectiveness of web-based communication

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Latest Topics in Electronics and Communication (ECE) for project, research, and thesis

Electronics and Communication is an important field with respect to our daily life. There are a number of good topics in electronics and communication engineering (ECE) for thesis, research, and project. New developments and research are going on in this field. It has made our life, even more, easier and comfortable.

Mobile phones and Communication network have brought the world closer. All thanks to electronics and communication engineers working towards the development of these electrical products. Talking about academics, students are often confused about which topic to choose in electronics and communication for project, thesis or for the seminar. M.Tech students find it even more difficult to choose a good master thesis topics in communication engineering. Even after the choice of the topic is made, students are unable to get proper thesis guidance and thesis assistance in ECE.

So what to do?

Here are some of the latest and best topics in electronics and communication which you can choose for your thesis, projects, and seminars for M.Tech and Ph.D. You can get thesis help in any of these topics from the thesis guidance experts.

Latest Thesis and Research Topics in Electronics and Communication(ECE)

Following is the list of latest  topics in Electronics and Communication(ECE) for the project, research and thesis:

Fibre Optic Communication

Embedded systems, nanoelectronics, oled(organic light emitting diode).

Zigbee Technology

Human Area Network

Bluetooth is a low-power wireless technology used for exchange of data within a short range. Bluetooth build a Personal Area Network(PAN) for exchange of data between mobile devices. This technology was invented by Ericsson in 1994. Bluetooth is based on radio technology known as frequency-hopping spread spectrum. In this technology, the data is transmitted in the form of packets. It is a very good topic for an M.Tech thesis. Thesis help in this topic can be taken from an expert in this field. Along with this it is also a very good choice for major project in ECE. There are two processes of Bluetooth technology:

Basic Rate/Enhanced Data Rate(BR/ED) –It uses point-to-point topology to enable continuous wireless communication between two devices. The common example for this is wireless speakers.

Low Energy(LE) – It uses multiple network topologies for communication which include point-to-point, mesh and broadcast. Point-to-point is for one to one device communication. Broadcast is for one to many device communication. Mesh is for many to many device communication.

Many consumers are using this technology worldwide for streaming audio, data exchange and broadcasting information. Bluetooth technology uses a variety of protocols. The Bluetooth protocol stack is divided into two parts: Controller Stack and the host stack.

The controller stack is implemented in low-cost silicon devices that contains Bluetooth radio and a microprocessor. The host stack is implemented on the top of the operating system or as an installable package on the operating system.

Thesis topics in electronics and communication

How Bluetooth technology works?

The Bluetooth network is also known as Personal Area Network or Piconet in which there are 2 to 8 devices. One is the master device that initiates the communication while other are the slaves. The slave devices respond to the action of the master device. The master device governs the transmission between the slave devices. A slave device may begin transmission only in an allotted time slot.

A scatternet is created when a device participates in more than one piconet.

Features of Bluetooth Technology

Following are some of the features of Bluetooth technology:

Based on radio technology.

Power consumption is less.

There are fewer complications.

Applications of Bluetooth technology

Wireless mobile phone headset.

Bluetooth enabled laptops and Pcs.

Wireless mouse and keyboard.

Data transfer between mobile devices.

Disadvantages of Bluetooth Technology

Along with benefits, there are certain disadvantages of Bluetooth technology. Some of these are:

High battery consumption.

Security is poor.

The data transfer is low.

Lower bandwidth.

For transmission of large amount of data fibre optic communication is the perfect choice. This type of communication is used to transmit data over long distances over the computer network. This technology converts electronic signals into light signals and the signals are transmitted through the optical fibres. It is a very good choice for your M.Tech thesis project. Thesis help in this topic can be taken from professionals in this topic. Some of the characteristics of this type of communication are:

High bandwidth

Long distance communication

Less electromagnetic interference

Transmission Security

How Fibre Optics Communication works?

Unlike other form of communication, in fibre optics, the communication takes place in the form of light signals. The components of fibre optics communication are:

Transmitter

Light source

The transmitter receives input in the form of electrical signals which are converted into light signals using a light source like LED and laser. The light signal is transmitted using optic fibre cable to the receiver where it is converted back into electric signals. The receiver consists of a photodetector that measures the frequency of the optic field. The wavelength near to the infrared is used for communication.

Topics in electronics and communication

Photodetector – A photodetector is a device that converts light signals into electric signals. Two types of photodetectors mainly used in fibre optic communication are PN photodiode and avalanche photodiode.

Advantages of fibre optics communication

Some of the advantages of fibre optics communication are:

Higher transmission bandwidth

Data transmission is higher

Low power loss

Higher Security

Immunity to electromagnetic interference

Disadvantages

High installation cost

More number of repeaters

More maintenance is required

Embedded Systems are the type of physical hardware systems with software embedded in that. This system is microprocessor or microcontroller-based and can be independent or can be a part of larger system. This system is specifically designed to perform some tasks. It is a hot topic for thesis, project ad for seminar. If you know little about this topic you can also take thesis guidance for this topic. Following are the three components of embedded systems:

Real-Time Operating System

Characteristics of Embedded Systems

The characteristics of the embedded systems are:

Single Functionality – Embedded Systems are specifically designed to perform a single task.

Tightly Constrained – Embedded Systems are based on constraints like design, cost , size, and power.

Reactive – Embedded Systems are reactive in nature i.e. they instantaneously react to any changes in nature.

Based on microprocessor – Embedded Systems are microprocessor and microcontroller based.

Memory – These systems have ROM(Read Only Memory) embedded in that as there is no need of secondary memory.

Connectivity – These systems have peripherals connected to them for input and output.

research topics related to electronics and communication

What an Embedded System consists of?

The basic structure of an embedded system consists of the following components:

Sensor – To measure the quantity of a system by converting it into electrical signals.

A/D Converter – It is required to convert analog to digital signals.

Processor – It processes the data and stores it into memory.

D/A Converter – It converts digital to analog signals.

Actuator – An actuator compares the output of the D/A converter to the expected output.

Advantages of Embedded Systems

These systems can be easily customized.

These have low power consumption.

The cost is comparatively low.

The power is enhanced.

Disadvantages of Embedded Systems

High efforts in development

Marketing is not easy.

Nanoelectronics is a field that deals with the use of nanotechnology in electrical components. On the other hand, nanotechnology is a branch of engineering that deals with the matter at an atomic and molecular level. Nanoelectronics more or less is based on the transistors. The transistors used here have size lesser than 1000 nanometers. These are so small that there is separate study to understand the inter atomic interactions as well as quantum mechanical properties. These transistors are designed through nanotechnology and are very much different from the traditional transistors.

The work that a nanoelectronic device can do depends upon its size. With increase in volume, the power of the device will increase. The development in this field is in progress as there are some limitations of it when used in real world.

Different approaches to nanotechnology

The different approaches to nanotechnology are:

Nanofabrication

Nanomaterials Electronics

Molecular Electronics

Nanophotonics

Nanoelectronics

Applications of Nanoelectronics

Certain development and applications have been made in this field of nanotechnology which are as follows:

Nanoradio – These will have nanoprocessors for its working with high speed and performance. Carbon nanotubes are being used in this application.

Nanocomputers – Traditional computers will be replaced by nanocomputers for higher performance and speed. Detailed research is being carried out in this field.

Medical Diagnostics – Nanoelectronic devices can detect biomolecules and thus will help in medical diagnostics.

Energy Production – Research is being conducted to create energy efficient solar cells, galvanic cells and fuel cells.

VLSI (Very Large Scale Integration)

VLSI is a process to create Integrated Circuits(IC) by combining together thousands of transistors on a single chip. Microprocessor is an example of VLSI. Before the development of VLSI, the Integrated Circuits had limited functionality and performance. VLSI gives the ability to add CPU, RAM, ROM and other such functions on a single chip.

Due to this, the electronics industry has recorded a commendable growth.

Topics in ece

Design of VLSI

VLSI maily consists of front-end design and back-end design. Front-end design is the digital design while back-end design is the CMOS(Complememtary metal-oxide semiconductor) library design. The steps followed while designing a VLSI are:

Problem Specification – In this step, various parameters are studied like size, cost, performance and functionality.

Architecture – In this step, specifications like floating point unit, ALU, RISC/CISC and cache size are studied.

Functional Design – The functional unit along with the input and output are defined in this step using a block diagram.

Logical Design – The main logic of the system is designed at this step. Other developments in this step include boolean expression, register allocation, control flow and word width.

Design of the Circuit – The circuit is designed after the logical design by the use of gates and transistors.

Physical Design – The complete layout of the system is designed at this step through geometrical representation.

Packaging – The final product is obtained after putting together all the chips into a single printed circuit board.

Advantages of VLSI

The advantages of VLSI are:

Size of the circuit is reduced.

Cost of the device is reduced.

Increase in overall performance and speed.

Higher reliability

Find its use in almost every field from computers to medicines.

OLED is a type of LED( Light Emitting Diode) with a small change that the component that produces light is made up of a thin layer of organic compounds. This organic semiconductor layer is situated between the two electrodes. It is mainly used for flat panel displays, mobile devices, and smartphones. There are two types of OLEDs :

Based on small molecules

Using polymers

Working of OLEDs

Organic LED work almost in the same way as traditional LEDs with some changes. In this instead of n-type and p-type semiconductors, organic molecules are used to produce electrons and holes. There are 6 layers of OLED. The top layer is known as the seal while the bottom layer is called the substrate. There are two terminals between the top and the bottom layers – anode(positive terminal) and cathode(negative terminal). In between these terminals, there are the organic layers one is the emissive layer and the other one is the conductive layer.

A voltage is connected to the anode and the cathode. Electricity starts flowing and the cathode starts receiving electrons while the cathode starts losing them. As the electrons are added, the emissive layer starts becoming negatively charged while the conductive layer starts becoming positively charged. The positively charged holes starts jumping towards the emissive layer. When the positive hole meets the negatively charged electron ,a photon is produced which is a particle of light.

research topics related to electronics and communication

Advantages of OLEDs

These are superior to LCDs.

These are thinner, lighter and flexible.

The respond time is faster.

They produce true colors with better viewing angle.

Disadvantages of OLEDs

These have comparatively less life time than the LCDs.

The organic molecules degrade over the time.

These are very sensitive to water.

ZigBee Technology

ZigBee is an IEEE 802.15.4 based communication system designed for wireless personal area network . This standard allows the physical and media access control layer(MAC) to handle various devices at a very low-data rate. The main characteristics of this technology is that it is low powered and low cost. It controls and manages application within a range of 10-100 metres. Moreover, it is less expensive than the Bluetooth and Wifi.

research topics related to electronics and communication

Architecture of ZigBee

This system consist of the following three devices:

ZigBee Coordinator

The ZigBee coordinator acts as the bridge and the root of the whole network. It handles and stores the information by performing some data operations. The ZigBee routers are the intermediatory device that allows data to pass to and from other devices. The end device communicates with the parent node. The ZigBee protocol consists of the following 5 layers:

Physical Layer – This layer performs the modulation and demodulation operation.

MAC Layer – This layer access different networks using CSMA to check for reliable transmission of data.

Network Layer – This layer looks after all the operations related to the network.

Application Support Sub-Layer – This layer matches two devices according to their services and needs.

Application Framework – This layer provides two types of data services. One is the key value pair and the other one is the generic messages service.

ZigBee Operating Modes

There two modes of operation in ZigBee:

Non-beacon – In this mode, there is no monitoring of the incoming data by the coordinators and the routers.

Beacon – In this mode, the active state of the incoming data is continuously monitored by the coordinators and routers thereby consuming more power.

Applications of ZigBee Technology

ZigBee finds its application in the following fields:

Industrial Automation

Home Automation

Smart Metering

Smart Grid Monitoring

Human Area Network is a wireless network also referred to as RedTacton that uses the human body as a medium for high-speed transmission. It is different from other wireless and infrared technologies in the sense that it uses tiny electric field emitted on the surface of the human body. It is a very good topic under ece thesis topics list. 

The human body forms a transmission path whenever a part of it comes into contact with the RedTacton transceiver. Body surface can be hands, legs, arm, feet or face. It can work through clothes and shoes. Whenever the physical contact between the transceiver and the human body is lost, communication ends.

It has the following three main features:

The communication can be triggered by human movements like touching, gripping, walking, sitting, and stepping for obtaining data.

The transmission speed is not depleted when many people are communication at the same time as the transmission path is human body surface.

Conductors and dielectrics can be used along with the human body.

research topics related to electronics and communication

Working of Human Area Network

The approach of Human Area Network is different from other networks. It does not use electromagnetic waves or light waves for data transmission. Instead, it uses weak electric signals on the human body for transmission. It works as follows:

The RedTacton transmitter generates a weak electric signal on the human body surface.

Any changes caused by the transmitter to the electric field is sensed by the RedTacton receiver.

RedTacton depends upon the principle that the changes in the weak electric field can cause a change in the optical properties of an electro-optic crystal.

These changes are detected using a laser and the result is produced in the form of electrical signals.

RedTacton uses CSMA/CD(Carrier Sense with Multiple Access with Collision Detection) protocols for transmission.

GPRS stands for General Packet Radio Services. It is a packet-based service for 2G and 3G mobile communication. It is standardized under European Telecommunications Standards Institute(ETSI). It provides higher data rates for Internet on mobile phones. It is based on GSM(Global System for Mobile) communication and provides additional services on circuit-switched connections and Short Message Service(SMS). It is another popular topic for final year project, thesis, and seminar. 

GPRS has the following main features:

It has lesser cost than the circuit-switched services as the communication channels are shared.

It provides variable throughput and latency.

It provides data rates of 56-114 kbps.

It supports IP, PPP, and X.25 packet-based protocol.

research topics related to electronics and communication

Services offered by GPRS include:

SMS(Short Messaging Service)

Internet Access

MMS(Multimedia Messaging Service)

Push-to-talk service

Instant Messaging

Point-to-point(P2P) and point-to-multipoint(P2M) services

It stands for High-Speed Packet Access. It is a combination of two technologies named HSDPA and HSUPA for uplink and downlink. This provides high-speed data access. It can provide download speed up to 384 kbps. It uses WCDMA protocols and improves the performance of the existing 3G mobile communication. Students looking for ece project ideas can work on this topic. 

Components of HSPA

Following are the two main components of HSPA providing a link between the base station and the user:

HSDPA(High-speed Downlink Packet Access) –  HSDPA is used to provide support for packet data and a data rate of 14 Mbps. Also, it helps in reducing delays.

HSUPA(High-speed Uplink Packet Access) –  It also provides data support with improved features along with data rate of 5.74 Mbps. 

research topics related to electronics and communication

Benefits of HSPA

There are a number of benefits of HSPA but following are the significant ones:

HSPA uses a higher order of modulation for data to be transmitted at a higher rate.

It uses a Shorter Transmission Time Interval(TTI) to reduce the round trip time and reduction in latency.

It uses a shared channel for transmission which provides a great level of efficiency.

To maximize the channel usage, link adaption is used.

Fast Node B scheduling is used with adaptive coding and modulation to respond to the constantly varying radio channel and interference.

These were some of the topics in electronics and communication for your project, thesis and for your seminar. Thesis help and thesis guidance can be taken for ece thesis topics from thesis guidance agencies.

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Research PhD Topics in Electronics and Communication Engineering

Electronics and communication is the branch of engineering science that is intended to control electron streams in an electrical circuit by rectification and amplification functionalities whereas classical electrical engineering uses the inductance & capacitance to control electron streams (current flow). In short, it is one of the thriving technologies in the recent technical eras. “We are presenting you the most expected pioneering article which is all about PhD topics in electronics and communication engineering”

Electronics and communication engineering is comprised of so many irreplaceable components.  The main objective of this article is to make your thoughts provoke a different perception of curlicue electronics technology. We are dedicating our indispensable efforts to this article to electronics enthusiasts. You can also become a master in these areas by paying your kind attention throughout the article. Now let us begin to focus on the core areas.

Overview of Electronics and Communication

Electronic components are the entities which are interpreting electron flows in every electronic mechanism.  These components are interconnected with the printed circuit boards to generate oscillator, receiver & amplifier-based electronic circuits. Electronic components such as,

  • Transistors

These components are usually integrated with complex digital circuits.  Advancements in digital electronics are cannot be fingered in numbers. For example, digital watches, traffic signals, and supercomputers are the best instances of digital electronic circuits. In this regard, let us look into the modern evolution of digital electronics.

Evolution of Digital Electronics

  • Transparent Latch & Truth Tables
  • State Machines & Sequential Logic
  • Logic Synthesis & Simulation
  • Karnaugh Maps & Formal Verification
  • Digital Circuits & Counters
  • De Morgan’s Laws & Boolean Algebra
  • Combinational Logic & Binary Decision Diagrams
  • Schmitt Triggers & Multiplexers
  • Registers & Counters
  • Flip-Flops, Logic Gates & Adders
  • Metal-Oxide-Semiconductor Field-Effect Transistor
  • Field-Programmable Gate Array
  • Digital Signal Processor & Memory Chip
  • Application-Specific Integrated Circuit
  • Microcontrollers & Microprocessors

The above listed are the various branches in which electronic engineering is contributed their vital functionalities to enhance them. As this article is titled with the PhD topics in electronics and communication engineering, we would like the mention the research areas of the same at the beginning itself for the ease of your understanding.

Research Areas in Electronics and Communication Engineering

  • Instrumentation & Control Engineering
  • Telecommunications Engineering
  • Automation & Robotics
  • Data Science & IoT
  • Embedded Systems & Engineering
  • Signal Processing & Communication Systems
  • Wireless Communication Technology
  • Optoelectronics, Microelectronics & Bioelectronics
  • Electronic & Microwave Engineering
  • Electrical & Computer Science Engineering
  • Information & Communications Processing
  • Computer Technology & Digital Circuits

These are the diverse research areas heading their paves and offering so many opportunities to explore more. These technologies are making other models stronger by the application of their significant features in every technique comprised it.

You can make use of our technical team’s assistance here for brainstorming about how electronics and communication engineering is going to help your selected areas of research. In this sense, we could gear up our directions into the next section.

Research PhD Topics in Electronics and Communication engineering

What are the Different Models that benefitted from Electronics and Communication Engineering?

  • Heart Beat Monitor
  • Plasma Antenna Technology
  • Pass-Transistor Dual Value Logic for Low-Power CMOS
  • Markov and Hidden Markov Models

Itemized above are the 4 major models which are benefited from electronics and communication engineering in general. We know that it would be really helpful to beginners by explaining these systems. Hence, we are going to make the next section with their corresponding explanations.

  • Heartbeat monitors are using IR Receiver (Rx) & IR Transmitter (Tx) by taking biometric inputs from index fingers in the medical field
  • A metal element in an electronic system is substituted by plasma antenna which engages ionized gas into the tubes
  • Further, it allows radio frequency to transmit signals over the medium when ionized gas charged
  • The antenna element will have flopped if ionized gas is not charged as well as voltage application is enabling electrons to flow in a circuit
  • Portable devices are in needing very high throughput & low power consumption in every process
  • It is highly resulted in designing high-density VLSI chips to ensure several requirements of portable devices
  • Markov models are tackling pattern recognition complexities by the application of electronics engineering
  • These models are widely used to examine genes, promoter entities, CpG, RNA & as well as DNA patterns

This is how these mentioned models are getting benefited by electronics and communication engineering in real-time. Our researchers in the institute are smart and intellectual individuals who are spontaneously skilled.

They are interacting and encourage the students utilizing directing them to technical areas which are going to help them to grab their dream career opportunities. Right now, we would like to add up some peppers here about how electronics and communication engineering work in general with clear handy notes.

How Does Electronics and Communication Engineering Work?

  • Polarization Module & Lightweight Broadband Antenna
  • Synthetic aperture radar sensors are powered by the transversal electromagnetic & logarithmic-periodic dipole broadband antennas
  • Unmanned aircraft vehicles are placed with broadband antennas and estimated according to the weight, radiation pattern pulse response & matching
  • Wideband Microwave Power Module
  • It is the integrated module of vacuum tube & solid-state electronics that is aimed to increase (amplify) radio frequency signal levels
  • As well as they are enfolding EPC, TWTA & SSPA within the solitary unit and they are widely used in,
  • Military & Defense Satellite Communications
  • Dynamic Phased Array of Antennas
  • Synthetic Aperture Radars & Transmitters

These are 2 modules mainly involved in the working process of electronics and communication engineering. In fact, without wideband and lightweight broadband modules, the electronic system cannot execute its processes in a better manner.

At this time of the technical era, so many trends are injected into electronics and communication engineering technology. Yes, we are going to let you know some interesting current trends presented in the same technology for making your perceptions wise.

Current Trends in Electronics and Communication Engineering

  • This technology is vigorously involving with communication antennas research
  • It is transmitting data over the infrared lights in a bidirectional way
  • Enlarges the bandwidth and network speed by multiplying 4G, 3G & Wi-Fi
  • It allows the digital users to connect with the internet and smart devices
  • It can connect with longer cables and allows to access other electromagnetic generators
  • This technology is making supercomputers with human analytical skills
  • For interacting with humans (as human interaction with other individuals)
  • Used in the airlines for communicating with broadband & wireless narrowband
  • Microchips in Gi-Fi offer multi-gigabit data transmission with short-range

The foregoing passage has revealed to you some of the current trends in electronics and communication engineering. Researching is an art and not everyone is Picasso of it. However, you can become a master in research by continuously putting in your hard work.

In the following passage, we have wrapped several exciting PhD research ideas in electronics and communication engineering for your valuable consideration. Shall we get into that section? Come on!!! Let’s grab them.

Research Ideas for Electronics and Communication Engineering

  • Urban Area based 5G Communication Networks
  • MEMS Sensors & Systems
  • Nano Devices with Microchips
  • Software-Defined Wireless System Evaluation

These are the innovative research ideas that can be further explored with the help of skilled developers and researchers. When doing PhD studies, you need to choose the exact research topic in which you are strong.

Many scholars are failing to select the correct research topic. For this, you can avail our mentors’ assistance freely to know about trending electronics and communication engineering journals list . Students are given various options such as they can choose one of the given topics or they can even choose topics as per our technical crew’s instructions.

To be honest, we are suggesting every student handpick the latest topics in emerging technologies with phd thesis writing services .  Here is a tip for you! Try to make questions on the issues that arise in your research topic and make the interesting issues to frame your PhD topics. In this regard, we wanted to mention the latest topics in electronics and communication.

What are the Latest Topics in Electronics and Communication?

  • Infrared Communications
  • VLSI Implementation by OFDM
  • WLAN in Automated Vehicles
  • corDECT Wireless in Local Loop System
  • Wearable & IoT Computing
  • Linux Clusters with Parallel File System
  • Digital Image Processing
  • Speech Recognition
  • Visible Light Communication
  • Smart Sensors
  • Communication Channel Testing
  • IR & RF Waveforms Experimentations
  • Integrated Back Haul & Front Haul Systems
  • Testing Samples on Signals
  • Simulating Interfaces in Hardware
  • Application of CRO in Active Frequency of Output
  • Testing using Antenna, Radar & Sonar

Here CRO stands for Cathode Ray Oscilloscope.  These are some of the possible topics in electronics and communication engineering. As our technical team is concerned with the student’s understanding, they are always lending their helping hands to them by means revealing every aspect of research. Hence, they would also like to highlight some simulation tools used in electronics and communication engineering technology.

Simulation Tools for Electronics and Communication

  • Matlab or Simulink
  • NS 2 or NS 3

The aforementioned are some of the simulation tools used in electronics and communication engineering. As our researchers concentrated on the student’s welfare, we wanted to explain at least one of the listed simulation tools for paving your understanding better. That is none other than, that we are going to illustrate how to simulate IoT devices using the COOJA simulator .

How to Simulate IoT Devices using COOJA Simulator?

  • IoT is the intellectual and embedded system in which sensors, interfaces, hardware, and software are interconnected to exchange data
  • Contiki system of wireless sensor networks are simulated by the COOJA’s Contiki Mote and they are controlling the whole architecture
  • Contiki Mote compilers are performed as a load and sharing library in Java programming languages

This is how the IoT devices are simulated by the COOJA simulator. Apart from this, signals in IoT devices are significantly stimulated by Matlab tools. Do you know, How to simulate signal processing using Matlab? If you don’t know! Don’t cringe. We are going to illuminate you the same in the immediate section.

How to Simulate Signal Processing using Matlab?

  • Primarily, Matlab is acquiring raw signals and then they are analyzing, preprocessing and extracting features in it
  • Matlab tools are dynamically performing power spectrum evaluation, smoothing, & resamples filtered signals
  • Particularly, they are very competent in extracting signal patterns and their similarities
  • Even they are capable in measuring SNR oriented signal misrepresentations
  • Matlab is using signal analyzer application to analyze and preprocess the various signals instantaneously without scripting any codes
  • In addition, they are facilitating the users to customize the digital filters with the help of filter design application

This is how the signal processing in IoT devices is simulated under the Matlab tool. We are concerned with dynamic researchers who are showcasing their indispensable contributions to make the research paper’s quality with high standard levels.

Our experts have engaged them in various activities. One among them is reading habit. Yes, we habitually read and examine top journals published with every phase of technology (for example robotics journals list ). In addition, we are also suggesting you, people, read journals at least periodically. Finally, we would like to highlight some of the latest and emerging technologies in electronics and communication engineering.

What are the Latest Technologies in Electronics and Communication?

  • Smart & Intellectual Energy Systems
  • Computerized Industries
  • Robotics & Automation
  • Self-directed Drone Mechanisms
  • Man-less Driving Systems

So far, we have come up with the essential areas of PhD topics in electronics and communication engineering and other concepts. Are you wondering about this technology? There are so many interesting fields that are yet too said. If you are interested in knowing about them, then you can feel free to approach our academics at any time.

“Let’s sow your interesting ideas today and yield incredible results tomorrow”

research topics related to electronics and communication

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1000+ Electronics Engineering Presentation Topics

These are 1000+ Presentation Topics for Electronics Engineering Students, Researchers, Teachers, and other professionals. Here we have given the latest and best electronics engineering presentation topics which can be used for PowerPoint paper presentations, seminars, webinars, oral or PPT presentations and discussions.

List of presentation topics for electronics engineering

These are the latest Presentation Topics for Electronics Engineering students.

Table of Contents

3G vs WiFi Wireless Internet Access

4G Wireless technology

5G Wireless technology

64-Point FT Chip

Air Powered Car

All-Optical Transistor

An Optical Switch Based on a Single Nano-Diamond

Artificial retina using thin-film transistor technology

Automatic solar tracker

Bio Battery

Brushless DC motor

Bubble Power

Carbon Nanotubes

Cellular Radio

Concentrating collectors

Detection and Tracking Algorithms for IRST

Digital Imaging

Drawing and Writing in Liquid With Light

DSP based motor control

E-Paper Technology

Electronics advance moves closer to a world beyond silicon

Electrooculography

Embedded system in automobiles

Embedded System Security

Fractal Robots

High-Speed Packet Access (HSPA)

How Advanced Solar Cells Work?

Humanoid Robot

IBOC (In-band on-channel)

Impedance Glottography

Integrated Circuits: The Dominator of Electronics

Is the electronics sector still waiting for the economy to recover?

Kirlian photography

Matrix inversion generator architecture

Microelectronic Pill

MIMO Technology

Mobile Phone Cloning

Money Pad Future Wallet

Nano-Optics

Nanomachines

New Techniques Produce Cleanest Graphene

The new way to dissolve semiconductors

Next-Generation Semiconductors Synthesis

Observer-Based Sensorless Control

Paper battery

Plastic Photovoltaics

Plastic Semiconductors

Riding an electron wave into the future of microchip fabrication

Smart antennas

Synaptic transistor

The power of wireless devices

Turning Plastic Bags Into High-Tech Materials

Use of DNA to assemble a graphene transistor

Wireless Communication technologies

Witricity (WIRELESS ELECTRICITY)

Wi-Vi technology

World’s Smallest FM Radio Transmitter

More Electronics Engg. Topics (Alphabetical List)

Here is the list of thousands of presentation ideas for presentations for electronics and telecommunication engineering students.

21st Century Electronic Devices

3 Axis Digital Accelerometer

3- D IC’s

3-D Chip Stacking Technique

3D Internet

3D optical Data Storage Technology

3D Solar Cell Technology

3-Dimensional Printing

3G Vs. 4G mobile Networks

5G Wireless Systems

6.5 digit professional multimeters

A 64 Point Fourier Transform Chip

A Basic Touch-Sensor Screen System

AC Performance of Nanoelectronics

Accident identification with auto dialler

Acoustic to articulatory inversion

Active pixel sensor

Adaptive Active Phased Array Radars

Adaptive Blind Noise Suppression

Adaptive Cruise Control

Adaptive Missile Guidance Using GPS

Adaptive Multipath Detection

Adaptive Optics in Ground-Based Telescopes

Adhoc Networks

Advanced electronic war equipment

Advanced Mobile Presence Technology

Advanced Packet Classification Technique

Advanced Plastics

Advances in DCS Systems

Advances in motion-capture technology

Advances in Thin-Film Technology

Advertising display using LED & LCD

AFM ultrafast Imaging

Agricultural Plant watering systems

AI for Speech Recognition

Air pollution monitor

All-flash microcontrollers

Aluminum Electrolytic Capacitors

Amplifiers: single-and multi-stage

An Efficient Algorithm for iris pattern

Analog Circuits

Analogue CMOS

Analog Gyros

Analog-Digital Hybrid Modulation

Analog-Digital Hybrid Modulation for improved efficiency over Broadband Wireless Systems

Analysis of electromechanical systems employing microcomputers

Animatronics

ANN for misuse detection

Antenna Effect in VLSI Designs

Anthropomorphic Robot hand: Gifu Hand II

Antiroll suspension system

Aperture Synthesis (SAR and ISAR)

Application-Specific IC’s (ASICS)

Applications of dual-axis Accelerometers

Applications of Fuel cells

Architectural requirements for a DSP processer

Articulatory synthesis

Artificial Eye

Artificial immune system.

Artificial intelligence for speech recognition

Artificial Intelligence In Power Station

Artificial Intelligence Substation Control

Artificial Neural Network Systems

Artificial neural networks

Aspheric lenses

Astrophotography

Asymmetric digital subscriber line

Asynchronous Chips

Asynchronous Transfer Mode

ATM with an eye

Augmented Reality

Automated eye-pattern recognition systems

Automated Optical Inspection

Automated Remote Data Logger

Automatic Electric billing system

Automatic Number Plate Recognition

Automatic Railway Gate Controller

Automatic taxi trip sensing and indication system through GSM

Automatic Teller Machine

Automotive Infotainment

Autonomous Underwater Vehicle

Avalanche diode

Avalanche photo diode

Baseband processor for licence-free digital PMR radios

Bench top wind tunnels

Bio Telemetry

Bioinformatics

Biologically inspired robots

Bio-metrics

Bio-Molecular Computing

Bioreactors

BIT for Intelligent system design

Blu Ray Disc

Blue Gene Supercomputer

Blue tooth technology

Bluetooth based smart sensor networks

Bluetooth Network Security

Boiler Instrumentation and Controls

Border Security Using Wireless Integrated Network Sensors

Brain Chips

Brain finger printing

Brain-computer interface

Brake Assisting Systems

Broadband Wireless Systems

Broadcasting as a Communication Primitive in Intercommunication Networks

Brushless Motors

Buffer overflow attack: A potential problem and its Implications

Business Process Execution Language (BPEC)

Capacitive Sensors

Carbon Chips

Carbon Nanotube Flow Sensors

Carbon Nanotubes -Adaptations & Applications

Cargo storage in space

Case Modeling

Cauchy’s and Euler’s equations

CCD vs. CMOS – Image

CCD: Charge-coupled device

CDMA & CDMA 1x Ev-Do

Cellonics Technology

Cellular Communications

Cellular Digital Packet Data

Cellular geolocation

Cellular Neural Network

Cellular Positioning

Cellular Technologies and Security

Cellular through Remote Control Switch

Chameleon Chip

Chip Morphing

Chip stacking Technology

Cholestric Flexible Displays(Ch LCDs)

Class-D Amplifier

Clockless Chips

Clos Architecture in OPS

Code Division Duplexing

Code Division Multiple Access

Collision warning system

Common Address Redundancy Protocol

Communication Onboard High-Speed Public Transport Systems

Compact peripheral component interconnect (CPCI)

Computational Optical Sensing and Imaging

Computer Aided Field Of Vision

Computer memory based on the protein

Concentrating Collectors

Contactless energy transfer system

Content-based image and video retrieval

Continuous phase modulation

Control system compensators

Convergence of Microcontrollers And DSPs

Co-operative cache based data access in ad hoc networks

Cordless power controller

Core Connecting Rod Design

Cortex M3 Micro controllers

Cross-media content production

CRT Display

Cruise Control Devices

Crusoe Processor

Cryptology in communication systems

Crystaline Silicon Solar Cells

CT Scanning

CVT: Continuously variable transmission

Cyberterrorism

Data Compression Techniques

Data Loggers

DD Using Bio-robotics

Deep-Submicron Effects and Challenges

Delay Tolerant Networking

Dense wavelength division multiplexing

Design of 2-D Filters using a Parallel Processor Architecture

Development of transistors

Digit recognition using neural network

Digital Audio Broadcasting

Digital Audio’s Final Frontier-Class D Amplifier

Digital Cinema

Digital circuits

Digital filtering techniques-Aliasing

Digital HUBBUB

Digital Micro-mirror Device

Digital quartz MEMS for stabilisation and motion sensing

Digital Signal Processing

Digital steganography

Digital stopwatch

Digital Subscriber Line

Digital Visual Interface

Direct Current Machines

Direct Hydrocarbons for Fuel Cells

Direct to Home Television (DTH)

Discrete-time Fourier Transform

Display technology

Disposable Nano Pumps

Distributed COM

Distributed Integrated Circuits

Distrubuated control System

DLNA: Digital Living Network Alliance Technology

DLP: Digital Light Processing

DNA Based Computing

Driving Optical Network Evolution

DSP Enhanced FPGA

DSP Processor

DTCP: Digital Transmission Content Protection

DTL (Diode–transistor logic)

Dual Energy X-ray Absorpiomsetry

DV Libraries and the Internet

Dynamic virtual private network

Dynamic VPN

Earth Simulator

Earthing transformers For Power systems

EC2 Technology

ECC: Elliptical curve cryptography

ECL (Emitter-coupled logic)

EDGE: Enhanced Data for GSM Evolution

EDRAM: Embedded Dynamic random-access memory

E-Intelligence

Elecromagnetic Valves

Electrical Impedance Tomography Or EIT

Electricity from the sun’s energy – photo-voltaic cells

Electro Dynamic Tether

Electromagnetics

Electronic Cooling and Thermal Issues in Microelectronics

Electronic Data Interchange

Electronic Devices

Electronic exchange& optical fiber network

Electronic humidity sensor

Electronic paper

Electronic Road Pricing System~

Electronic voting machine

Electronics Meet Animal Brains

Electronmagnetic Bomb

Element Management System

Embedded System in Automobiles

Embedded systems

Embedded Systems and Information Appliances

Embedded Systems In Automobiles

Embedded Web Technology

Embryonic approach towards integrated circuits

Embryonics Approach towards Integrated Circuits

Emergency Control of Power systems

Energy efficient turbo systems

Enhanced Data rates for Global Evolution

Enhanced data rates for gsm evolution (edge).

Environmental Remediation Systems

EPG: Electronic Program(me) Guide

EUV Lithography

Evolution Of Embedded System

Extended Markup Language

Extreme ultraviolet lithography

Eye Gaze Human-Computer Interface

Eye gaze systems

Fabrication of Si solar cells for concentrator applications

Face Recognition Technology

Face recognition using artificial neural networks.

Face Recognition Using Neural Network

Fast convergemce algorithms for active noise control in vehicles

Fault Diagnosis Of Electronic System using AI

FDDI: Fiber Distributed Data Interface

FED: field emission display

Femtotechnology

FFT: Fast Fourier transform

Field Emission Display Screens

Field-effect transistors

Field-programmable gate array

FinFET Technology

Finger print based library management system

First order equation (linear and nonlinear)

FLASH PIC micro Micro controllers

Flexible CRT Displays

Flexible Power Gateways

Flip Chip Technology

Floating gate Transistor

Fluid Focus Lens (18)

Fluorescent Multi-layer Disc

Flyash Utilisation

Fly-By-Wire technologies

Flying Robots

FM direction finder

FOC: Fibre Optic Communication

FPGA in Space

FPGA: Field Programmable Gate arrays Technology

Fractal Antennas

Fractal Image Compression

Fractal Robot

FRAM (Ferroelectric RAM)

Free space laser communication

Free Space Optics

Free-Core LVDT Position Sensors

Frequency Division Multiple Access

Fusion Memory

Fuzzy based Washing Machine

Fuzzy Logic

Gaic algorithm for iris comparison

Gas Transfer Systems

Gauss and Green’s theorems

General packet radio system

Genetic Programming

Glass computer memory for reduced cost of medical imaging

Global Positioning System

Global System for Mobiles

GNSS Augmentation Systems

Graphics processing unit

Grating Light Valve (GLV) Display Technology

Greenhouse Gas Control Technologies

GSM Based remote measurement of electricity and control system for home

GSM Security and Encryption

Guided Missiles

Hall Sensor Applications

Handheld Radiation detector

Harsh Environment LVDT Position Sensors

HART Communication

Harvesting Wave power

HBTs: Heterojunction Bipolar Transistors

Heliodisplay

HEMT Modeling and Fabrication

High Altitude Aeronautical Platforms

High Capacity Flash Chips

High-frequency RF design

High Performance Computing On Grid Databases

High Performance DSP Architectures

High Speed Packet Access HSPA

High-Speed Uplink Packet Access (HSUPA)(84)

High-speed USB chips

High-Temperature LVDT

High-availability power systems Redundancy options

Higher-order linear differential equations with constant coefficients

HIPPI (High-Performance Parallel Interface)

HMDI- New Digital Video Interface

Holographic Associative Memory

Holographic Data Storage

Holographic Memory

Holographic Versatile Disc (HVD)

Home Audio Video Interpretability (HAVi)

Home Networking

Homeplug – powerline communication

Hot Standby Routing Protocol (HSRP)

Hot Swapping

Humanoids Robotics

Human-Robot Interaction

Hydrogen Super Highway

Hydrophones

HY-Wire Cars

IBOC Technology

Illumination With Solid State Lighting (4)

Image Authentication Techniques

Image Coding Using Zero Tree Wavelet

Image compression

Image processing techniques in PCB inspection systems

Image Sensors

Imaging radar

Imbricate cryptology

Immersion Lithography

I-Mode (Information Mode)

Implementation of Zoom FFT in Ultrasonic Blood Flow Analysis

Improving Multi-Path Radio Reception

Indoor Geolocation

Infinite Dimensional Vector Space

IN-MOTION RADIOGRAPHY

Innovation at Bell Labs

Instruction detection system

Integer Fast Fourier Transform

Integrated Power Electronics Module

Integrated sensor systems, and radio-frequency systems

Integrated Vehicle Health Management Technology

Integrated Voice and Data

Intel express chipsets

Intelligent RAM (IRAM)

Intelligent Sensors

Intelligent transport

Intelligent Wireless Video Camera

Interactive Voice Response System

Interferometry

Intermediate band quantum dot solar cells

Internet Cryptography

Internet Protocol Television

Intervehicle Communication

Introduction to the Internet Protocols

Inverse Multiplexing over ATM

Ion Conductivity Of Solid Oxide Fuel Cell

Iontophoresis

IP Telephony

Ipv6 – The Next Generation Protocol

IR Tracking Robots

Iris Scanning

IRQ Numbers

ISO Loop magnetic couplers

Isolated PSE controller chipset

Jelly Filled Telephone Cables

Jet Stream windmill

Josephson junction

JTAG Boundary Scan

Junction transistors

Klystron tube

Landmine Detection Using Impulse Ground Penetrating Radar

Laplace transform

Laser communication systems

LCD screen harvests energy from indoor and outdoor light

LCOS Technology

LDMOS Technology

Led Wireless

Lenses of Liquid

Leo Satellite

LIDAR (LIght Detection And Ranging) for Automobile/ industrial/military applications

Light-emitting polymers

Lightning Protection Using LFAM

Linear lumped elements

Linear Time-Invariant (LTI)

Line-Reflect-Reflect Technique

Low Energy Efficient Wireless Communication Network Design

Low Memory Color Image Zero Tree Coding

Low Noise Amplifiers for Small & Large Photodiodes

Low Power UART Design for Serial Data Communication

Low Power Video Amplifiers

Low Power Wireless Sensor Network

Low Quiescent current regulators

Low Voltage Differential Signal

Low voltage differential signaling-Electronics

Low-density parity-check code

Lunar Reconnaissance Orbiter Miniature RF Technology Demonstration

LVDTs for proportional control valve applications

LVDTs for the Power Generation Industry

Magnetic Amplifiers

Magnetic Resonance Force Microscopy(MRFM)

Magnetic Resonance Imaging

Magnetoresistance on nanoscale

Maser Device

Mean value theorems

Media Oriented Systems Transport (MOST) Network

Membranes for Control and Energy Harvesting

MEMS CMOS processing

MEMS Microphone

Mesh Topology

Meso Technology

Metamorphic Robots

Microcontroller based Automatic Flush Control Systems

Microcontroller based security system using sonar

Micro-Display

Micro Electronic Pill

Micro Electronics

Micro Fluidic MEMS

Micro Mouse

Micro Robotics

Micro System Technology in Security Devices

Microbial Fuel Cells

Microcontroller based Auto-Dialer Home Security System

Microcontroller based sky car parking system

Microcontroller based talking key pad for blind people

Microcontroller based traffic density controller

Microcontroller based wireless energy meter

Microelectronic Pills

Micro-fabricated Bio-sensors

Micro fuel Cells

Micromechanical System For System-On-Chip Connectivity

Micro-mirror based projection displays

Microphotonics

Microvia Technology

Micro-wave Based Telecommunication

Microwave Superconductivity

MIFG(Multiple Input Floating Gate)

Migration to 4G: Advantages and Challenges

MiliPede Technology

Military Radars

MILSTD 1553B

Mixed-signal IC’s

MOBILE IPv6

Mobile Processor

Mobile Train Radio Communication

Mobile Virtual Reality Service

Modern Irrigation System Towards Fuzzy

Molecular Electronics

Molecular Fingerprinting

Molecular hinges

Molecular Surgery

Moletronics- an invisible technology

Molten oxide electrolysis

Money Pad, The Future Wallet

MOS (metal-oxide-semiconductor)

MOS capacitor

MOS field-effect transistors

MST in Telecommunication Networks

Multithreading microprocessors

Multichannel DC Convertors

Multimedia Messaging Service

Multiple description coding

Multiple integrals

Multisensor Fusion And Integration

Myword – ‘the text editor’

NAND Flash Memory

Nano Ring Memory

Nano-Communication

Nanocrystalline Thin-Film Si Solar Cells

Nanoimprint Lithography

Nanomanipulation

Nanopolymer Technology

Nanosensors from nature

Nanosized Resonator

Nanotechnological proposal of RBC

Nanotechnology

Nanotechnology Assembler Design

Nanotechnology for Future Electronics

Narrow Band & Broad Band ISDN

Navbelt and Guidicane

NCQ: Native Command Queuing

Near Field Communication

Neo -wafer 3d packaging.

Network Coding

Network on Chip

Neural Networks

Neuroprosthetics

New Applications For Carbon Nanotubes

New Generation Of Chips

New methods to power mobile phones

New Sensor Technology

New trends in Instrumentation

Next Generation Internet

Night Vision Technology

Non Visible Imaging

Nonlinear limits to the information capacity of optical fibre communications

NSAP: Network Service Access Point

Nuclear Batteries-Daintiest Dynamos

NVSRAM- Non-Volatile Static RAM

Object-Oriented Concepts

OCT: Optical Coherence Tomography

Optic Fibre Cable

Optical Burst Switching

Optical Camouflage

Optical Character Recognition

Optical Communications in Space

Optical Ethernet

Optical Integrated Circuits

Optical Mouse

Optical networking

Optical packet switch architectures

Optical Packet Switching Network

Optical Satellite Communication

Optical Switching

Optimization of the sorting architecture of rof

Organic Display

Organic Electronic Fibre

Organic LED

Organic Light Emitting Diode

Orthogonal Frequency Division Multiplexing

Ovonic Unified Memory

Oxygen User technology

PAC: Programmable Automation Controller

Packet Cable Network

Packet Switching chips

Palladium cryptography

Paper Battery

Passive InfraRed sensors (PIRs)

Passive Integration

Passive Millimeter-Wave

Passive Optical Sensors

PC – Based OSCILLOSCOPE

PCD: Protein-Coated Disc

Personal Area Network

Pervasive Computing

PH Control Technique using Fuzzy Logic

Photonic Chips

Photovoltaics

PID (Proportional-Integral-Derivative) control

Piezoelectric Actuators

p-I-n diode

Pivot Vector Space Approach in Audio-Video Mixing

Plasma antenna

Plasma Display

Plasma Television

Plastic circuitries

Plastic electronics

PMR ( Private Mobile Radio) Revolution

PolyBot – Modular, self-reconfigurable robots

Polycrystalline Si solar cells

Polymer memory

Polymer Memory

Polytronics

Porous Burner Technology

Portable X-ray Fluorescence Analyzer

Power Consumption Minimisation in Embedded Systems

Powerless Illumination

Power Line Networking

Power of Grid Computing

Power over Ethernet

Power System Contingencies

Power-supply ICs for slim LED-backlit TVs and PC main power systems

Precision IR thermometers

Printable RFID circuits

Printed Memory Technology

Printed organic Transistor

Project Oxygen

Proteomics Chips

Psychoacoustics

Push Technology

QoS in Cellular Networks Based on MPT

Quadrics network

Quantum Computers

Quantum cryptography

Quantum dot lasers

Quantum Dot Lasers

Quantum dots

Quantum Information Technology

Quantum Wires

QXGA – (Quad eXtended Graphics Array)

Radiation Hardened Chips (12)

Radio Astronomy

Radio Frequency Light Sources

Radio Network Controller

Real-Time Operating System (RTOS)-VxWorks

Real-Time Simulation Of Power Systems

Real-Time Speech Translation

Real Time System Interface

Real-Time Image Processing Applied To Traffic

Real-Time Obstacle Avoidance

Recent Advances in LED Technology

Remote Access Service

Remote Accessible Virtual Instrumentation Control Lab

Remote energy metering

Remote Monitoring And Thought Inference

Remotely Queried Embedded Microsensors

Residue theorem

Reversible Logic Circuits

RIFD: Radio Frequency Identification

Robot driven cars

Robotic balancing

Robotic Surgery

Role of Internet Technology in Future Mobile Data System

RPR: Resilient Packet Ring

RTOS – VxWorks(42)

Sampling theorems

Satellite Digital Radio(44)

Satellite Radio

Satellite Radio TV System

SCADA for power plant

SCADA system

Scalable Coherent Interconnect (SCI)

Screening for Toxic Nanoparticles

Search For Extraterrestrial Intelligence

Seasonal Influence on Safety of Substation Grounding

Secure Electronic Voting System Based on Image Steganography

Securing Underwater Wireless Communication Networks

Security In Embedded Systems

Self Healing Computers

Self Healing Spacecrafts

Self Phasing Antenna Array

Sensorless variable-speed controller for wind power generator(67)

Sensors on 3D Digitization

Sensotronic Brake Control

Serial Attached SCSI

Service Aware Intelligent GGSN

Short channel effects/ Latchup in CMOS

Signaling System

Significance of real-time transport Protocol in VOIP

Silicon on Plastic

Silicon Photonics

Silicon Technology

Silicon transistors

Silicon-carbide JFETs for high-end audio applications

Single Photon Emission Computed Tomography SPECT(59)

Slow Light For Optical Communications

Small Satellites

Smart Antenna

Smart Autoreeling mechanism

Smart Cameras in Embedded Systems

Smart Fabrics

Smart heat Technology in Soldering Stations

Smart Note Taker

Smart Pixel Arrays

Smart Quill

Smart rectifiers

Smartwire-DT communication system

SMF BAtteries

SMS based vehicle Ignition controlling system

SOFC, MCFC, Fuel cell performance models

Soft lithography

Software Radio

Software-Defined Radio

SOI Technology (Silicon On Insulation)

Solar Power Satellite

Solar-powered plane -Solar Impulse plane

Solid Electrolyte Dye-Sensitised Solar Cells

Solid-State Lighting

Solid-State RF Switches

Solid-state Viscosity

Souped-Up Mesh Networks

Sources of error in digital systems

Space Quantum Cryptology

Space Robotics

Space Shuttles and its Advancements

Speaking I-Pods

SPECT (Single-photon emission computed tomography)

Spectrum Pooling

Speech Compression – a novel method

Speech recognition: using dynamic time warping

Speed Detection of moving vehicle using speed cameras

Spin Valve Transistor

Spintronics

Spring-Loaded LVDT Position Sensors

STAP: Space-Time Adaptive Processing

Stealth Fighter

Stealth Radar

Steganography In Images

Stereoscopic Imaging

Storage Area Networks

Stream Processor

Super Capacitor

Superconductive Magnetic Energy Storage

Surface Mount Technology

Surface Plasmon Resonance

Surface-conduction Electron-emitter Display (SED)

Surge Protection In Modern Devices

Surround sound system

Swarm intelligence & traffic Safety

Synchronous Digital Hierarchy

Synchronous Optical Network

Synthetic Aperture Radar System

System on chip

Sziklai Pair (configuration of two bipolar transistors)

Tagged Command Queuing

Taylor’s and Laurent’ series

Tele-Graffiti

Tele-Medicine

Teleportation

Telestrator

Tempest and Echelon

Terahertz Transistor

Terahertz Waves And Applications

Terrestrial Trunked Radio

The Architecture of a Moletronics Computer

The Bionic Eye

The future of wireless network infrastructure

The InfraRed Traffic Logger

The making of quantum dots.

The mp3 standard.

The p-n junction

The speedes Qheap: a priority-queue data structure

The Synchronous optical network(SONET)

The Thought Translation Device (Ttd)

The TIGER SHARC Processor

The Ultra Battery

The Vanadium Redox Flow Battery System(35)

Theorems of integral calculus

Thermal Chips

Thermal infrared imaging technology

Thermography

Third Generation Solid State Drives

Three-dimensional integrated circuit.

Time Division Multiple Access

Time Reversal Terahertz imaging

Tiny Touch Screens

Token ring – IEEE 802.5

Tools and techniques for LTI control system analysis (root loci, Routh-Hurwitz criterion, Bode and

Nyquist plots)

Toroidal surface-mount power inductor for consumer electronics devices

Touch Screens

Tracking and positioning of mobiles in telecommunication

Transient Stability Assessment

Transistors and Moore’s law

Transparent Electronics

Transparent LCD displays

Treating Cardiac Disease With Catheter-Based Tissue Heating

Trends in appliance Motors

Trends in Mobiles & PC’s

Tri-Gate Transistor

Trisil – electronic component

TTL (Transistor–transistor logic)

Tunable lasers

Tunnel diode

Turbo codes

U3 Smart Technology

Ultra Conductors

Ultra-high frequency

Ultra Nano Crystalline Diamond

Ultra Small MCUs

Ultra Wide Band ( UWB)Sensors

Ultra-wideband technology

Ultra-Wideband

Ultrabright white SMD LEDs

Ultracapacitors

Ultrasonic Motor

Ultrasonic Trapping In Capillaries

Ultraviolet

Uniform linear array

Unijunction transistor

Unintentional radiator

Universal Asynchronous Receiver Transmitter

Unlicenced Moblie Access ( UMA) technology

USB Power Injector

User Identification Through Keystroke Biometrics

Utility Fog

UWB SENSORS: FOR EXCELLENT HOMELAND SECURITY

Vacuum Electronics For 21st Century(50)

Vacuum tube

Valence band

Vector field

Vehicle-to-Grid V2G

Vertical Cavity Surface Emission Lasers

VHSIC hardware description language

Vintage amateur radio

Virtual circuit

Virtual ground

Virtual Keyboards

Virtual Reality Visualisation

Virtual Retinal Display

Virtual retinal display (VRD) Technology

Virtual Router Redundancy Protocol (VRRP)

VIRTUAL SURGERY

Virtual worlds come to life

Visual Neuro Prosthetics

visual prosthetic

VLSI Computations

Voice morphing

Voice over internet protocol

Voice recognition based on artificial neural networks.

VT Architecture

VXI bus architecture

Wafer Level -Chip Size Packaging (WLCSP) Technology

Wardenclyffe Tower

Warner exemption

Wave impedance

Wave propagation

Waveguide antenna

Wavelength division multiplexing

Wavelength Division Multiplexing

Wavelet transforms

Wavelet Video Processing Technology

Wearable Biosensors

Wearable Technology innovations in Health care

Web-based home appliances controlling system

Web-based remote device monitoring

Web camera motion control

Welding Robots

Wheatstone bridge

Whip antenna

White facsimile transmission

White LED: The Future Lamp

WIDEBAND – OFDM

Wideband modem

Wideband Sigma Delta PLL Modulator

Williams tube

Wink pulsing

Wireless access point

Wireless Application Protocol

Wireless Charging Of Mobile Phones Using Microwaves

Wireless communication

Wireless community network

Wireless DSL

Wireless Fidelity

Wireless Integrated Network Sensors (WINS)

Wireless Intelligent Network

Wireless LAN Security

Wireless LED

Wireless Microserver

Wireless Mimo communication systems.

Wireless Networked Digital Devices

Wireless power transmission.

Wireless Video Service in CDMA Systems

Wisenet (Wireless Sensor Network)

Worldwide Interoperability for Microwave Access

XLR connector

Zener diode

Zero dBm transmission level point

Zero-dispersion wavelength

Zero-Energy Homes

ZIF (Zero insertion force)

Zigbee – zapping away wired worries(13)

Zigbee Networks(86)

Zipper noise elimination by the digital volume control

z-transform

This is all about Electronics engineering presentation topics for students, academicians and researchers.

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Research in Electrical and Computer Engineering covers an extremely broad range of topics. Whether in computer architecture, energy and power systems or in nanotechnology devices, the research conducted in ECE is at the cutting edge of technological and scientific developments. 

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Computer engineering concerns itself with the understanding and design of hardware needed to carry out computation, as well as the hardware-software interface. It is sometimes said that computer engineering is the nexus that connects electrical engineering and computer science. Research and teaching areas with a significant computer engineering component include digital logic and VLSI design, computer architecture and organization, embedded systems and Internet of things, virtualization and operating systems, code generation and optimization, computer networks and data centers, electronic design automation, or robotics.

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Secure task offloading and resource allocation strategies in mobile applications using probit mish-gated recurrent unit and an enhanced-searching-based serval optimization algorithm.

research topics related to electronics and communication

1. Introduction

1.1. problem statement.

  • Most of the existing works performed task offloading and resource allocation by verifying the task features with the global scheme alone but failed to analyze the local computing features.
  • The existing works did not focus on the traffic attributes for load balancing. This resulted in more energy consumption.
  • The security of smart contracts was not ensured in the previous works, which lowered the trustworthiness of the networks.
  • System consistency is a major challenge for storing hashed information in the cloud computing environment.

1.2. Contributions

2. literature review, 3. secure task offloading with pm-gru and eli-soa, 3.1. mobile cloud resource allocation.

  • Input: Here, the extracted features are considered as the input. χ r indicates the inputs in the present time frame, and h i d u − 1 indicates the input from the previous hidden state. The inputs proceed to flow via the gates.
  • Probit Mish Activation Function: The Probit Mish activation function (PMAF) is employed to improve the learning process and convergence rate. This is formulated as follows:
  • Reset Gate: This gate should decide how much irrelevant information needs to be eradicated from the gates. The reset gate ℜ ⊗ is determined as follows:
  • Update Gate: The update gate decides how much crucial information needs to be allowed through the gates for further computation. The update gate ℵ ⊕ can be written in a mathematical form as follows:
  • Candidate Hidden State: This gate considers the reset gate and determines what relevant information needs to be stored. This is formulated as follows:
  • Hidden State: Finally, the hidden state makes a decision about what information needs to be passed through the network as an outcome, and it is defined as follows:
pseudo-code for the Probit Mish–GRU.
Extracted features
Edge Server Prediction
    
    
    
        
            
               
            
               
              
              
              
        
    
 

3.2. Secure Resource Allocation in MEC

  • Step 1: The number of clusters κ f is specified; then, the centroid point c ψ is randomly initialized by using Equation (21):
  • Step 2: During the next part of the derivation, the value of the distance between λ t and c ψ is estimated by using the HCM technique. The HCM technique is used to effectively calculate the distance among the data points. The data points are then assigned to the cluster that has the nearest distance value. This can be expressed as follows:
  • Step 3: Finally, the centroid point is recalculated, and the clustering process is repeated until it converges. Thus, the load-balanced requests ρ j υ are given as follows:
  • Input features: Here, the task features and cloud features are chosen to perform RA. The task features, such as the number of dimensions, speed, cost, weight, and data size, are extracted. Then, cloud features, such as size, RAM, bandwidth, length, file size, storage, and VM, are also taken into account to allocate the optimal resources. The G -many extracted features β g are initialized as follows:
  • Population Initialization: First, the population of the SOA is initialized in the search space. Here, β g is assumed to be the serval. This is structured in the form of a matrix as follows:
  • Fitness Function: In this step, the fitness value of β g , k is derived by considering the minimum response time r s t m . This can be estimated by using Equation (28):
  • Exploration Phase (prey selection and attack): In this phase, an exploration is carried out according to strategies followed by the serval to perform prey selection and attack. The exploration stage can be briefly described as follows:
  • Exploitation Phase (chasing process): After the process of attacking the prey, the exploitation phase takes place based on the chasing strategy of the serval. Here, the entropic linear interpolation (ELI) method is used to update the serval’s position, and its value is defined as follows:
pseudo-code for the ELI-SOA algorithm.
Extracted features ( )
Allocated resources
       , , , , iteration , and maximum iteration
      
      
         1 to G of
          population in the search space
            
          the FFV
          Exploration Phase
            
              
               Update the serval’s position to
            
               No need to update the serval’s position
            
          Exploitation phase
            
          FFV and serval position

        
    
 
  • Theta Step:
  • For 0 ≤ v ′ < 5 and 0 ≤ w ′ < ℏ w d , D ′ v ′ , w ′ = q ′ v ′ , 0 , w ′ ⊕ q ′ v ′ , 1 , w ′ ⊕ q ′ v ′ , 2 , w ′ ⊕ q ′ v ′ , 3 , w ′ ⊕ q ′ v ′ , 4 , w ′ (39)
  • For 0 ≤ v ′ < 5 and 0 ≤ w ′ < ℏ w d , E ′ v ′ , w ′ = D ′ v ′ − 1 mod 5 , w ′ ⊕ D ′ v ′ + 1 mod 5 , w ′ − 1 mod ℏ w d (40)
  • For 0 ≤ v ′ < 5 , 0 ≤ x ′ < 5 , and 0 ≤ w ′ < ℏ w d , q 1 ′ v ′ , x ′ , w ′ = q ′ v ′ , x ′ , w ′ ⊕ E ′ v ′ , w ′ (41)
  • For 0 ≤ w ′ < ƛ w d , F a r r 0 , 0 , w ′ = q 1 ′ 0 , 0 , w ′ (42)
  • Assume that v ′ , x ′ = 1 , 0 .
  • For 0 ≤ k ′ ≤ 23 and for 0 < w ′ < ƛ w d , F a r r v ′ , x ′ , w ′ = q 1 ′ v ′ , x ′ , w ′ − k ′ + 1 ⋅ k ′ + 2 / 2 mod ƛ w d (43) v ′ , x ′ → x ′ , 2 v ′ + 3 x ′ mod ƛ w d (44)
  • For 0 ≤ v ′ < 5 , 0 ≤ x ′ < 5 , and 0 ≤ w ′ < ƛ w d , F a r r v ′ , x ′ , w ′ = F a r r v ′ + 3 x ′ mod 5 , v ′ , w ′ (45)
  • For 0 ≤ v ′ < 5 , 0 ≤ x ′ < 5 , and 0 ≤ w ′ < ƛ w d , q ′ v ′ , x ′ , w ′ = F a r r v ′ , x ′ , w ′ ⊕ { N O T F a r r v ′ + 1 mod 5 , x ′ , w ′ A N D F a r r v ′ + 2 mod 5 , x ′ , w ′ } (46)
  • For 0 ≤ w ′ < ƛ w d ,

4. Results and Discussion

4.1. dataset description, 4.2. simulation and analysis parameters, 4.3. performance analysis, 5. conclusions and future work, 5.1. conclusions, advantages and drawbacks, 5.2. future work, author contributions, data availability statement, conflicts of interest.

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Click here to enlarge figure

Ref.Main ContributionsWeaknessesAdvantages
[ ]This study addressed the challenges of meeting user QoS requests, including improving the quality of user experience with the purpose of increasing the performance of user experience with mobile communication environments.The research provides a consistent survey of approaches to secure computational offloading based on AI technology.There is a significant lack of details concerning resource allocation strategies, and IoT was not properly mentioned in the literature.
[ ]This study presented a series of investigations of task-aware multi-unmanned aerial vehicle (UAV)-enabled MEC networks using RA- and DRL-based trajectory planning; there was an important focus on mobile system implementation.The proposed system might design poor trajectories due to the massive space between ground devices.The authors adopted the DDPG approach to design trajectories. Similarly, the particle swarm optimization (PSO) algorithm was used to carry out the RA procedure. This model had a completion time of 10 ms, which was considered high performance compared with the results obtained in recent works in the same context. This result showed the high feasibility and supremacy of the system.
[ ]This study proposed an approach using cooperative computation offloading and RA to reduce transmission delay in an MEC system. The structure of the design was based on minimizing the frequency of CPU cycles and transmission power.The proposed method did not consider all of the EC factors in the CS implementation.The adoption of a monotonic optimization method to minimize the transmission power and the integration of the Sheng Jin formula (SJF) to reduce the CPU cycle frequency were important contributions that minimized the latency and upgraded the RA.
[ ]This study introduced an identity management and authentication scheme for mobile systems based on blockchain technology; user authentication was ensured and secured using a public key and self-sovereign identities (SSIs) under blockchain monitoring.The proposed technique took too much time to complete the validation process.The model was adopted and generalized well to reduce network delay and storage space and allow good management of resource allocations.
Techniques/Makespan (ms)Number of Tasks
100200300400500
Proposed HCD-KM214541236124824510,227
KM286748786713885210,869
PAM344653697423932411,337
BIRCH384557487812974811,875
FCM44286245835410,27812,434
MethodsPrivacy Preservation Rate (%)
Proposed: exponential EMD matrix based on k-Anonymization97
KA94
L-Diversity90
T-Closeness87
Randomization83
WorksTechniquesAccuracy (%)EC (mj)RT (ms)RU (%)
Proposed workPM-GRU and ELI-SOA99.843965186597.65
Wang et al. [ ]DCA-4500--
Mahenge et al. [ ]PSO + GWO-4339198281
Elgendy et al. [ ]MU-MT-COA-5089283378
Nguyen et al. [ ]DRL--2600-
Qi [ ]DNN896873--
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Sindi, A.O.N.; Si, P.; Li, Q. Secure Task Offloading and Resource Allocation Strategies in Mobile Applications Using Probit Mish-Gated Recurrent Unit and an Enhanced-Searching-Based Serval Optimization Algorithm. Electronics 2024 , 13 , 2462. https://doi.org/10.3390/electronics13132462

Sindi AON, Si P, Li Q. Secure Task Offloading and Resource Allocation Strategies in Mobile Applications Using Probit Mish-Gated Recurrent Unit and an Enhanced-Searching-Based Serval Optimization Algorithm. Electronics . 2024; 13(13):2462. https://doi.org/10.3390/electronics13132462

Sindi, Ahmed Obaid N., Pengbo Si, and Qi Li. 2024. "Secure Task Offloading and Resource Allocation Strategies in Mobile Applications Using Probit Mish-Gated Recurrent Unit and an Enhanced-Searching-Based Serval Optimization Algorithm" Electronics 13, no. 13: 2462. https://doi.org/10.3390/electronics13132462

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World record 402 Tb/s transmission in a standard commercially available optical fiber

by National Institute of Information and Communications Technology (NICT)

World record 402 Tb/s transmission in a standard commercially available optical fiber

An international joint research team led by the Photonic Network Laboratory of Japan's National Institute of Information and Communications Technology (NICT) has demonstrated a record-breaking aggregate optical transmission bandwidth of 37.6 THz to enable a new data-rate record of 402 terabits per second in a standard commercially available optical fiber.

This record was achieved by constructing the first optical transmission system covering all the transmission bands (OESCLU) of the low-loss window of standard optical fibers. The system combined various amplification technologies, some developed for this demonstration, including six kinds of doped fiber optical amplifiers and both discrete and distributed Raman amplification.

Novel optical gain equalizers also allowed access to new wavelength bands that are not yet utilized in deployed systems. The newly developed technology is expected to make a significant contribution to expanding the communication capacity of the optical communication infrastructure as future data services rapidly increase demand.

The results of this experiment were accepted as a post-deadline paper at the 47th International Conference on Optical Fiber Communications (OFC 2024) and presented by Ben Puttnam on Thursday March 28, 2024 at the San Diego Convention Center, California, U.S.

The growth of the internet and data-services has driven demand for optical transmission bandwidth. To meet this demand, multi-band wavelength division multiplexing (WDM) technology, where new spectral windows are used to increase optical fiber transmission bandwidth, has become a popular research topic.

World record 402 Tb/s transmission in a standard commercially available optical fiber

Utilizing new transmission windows in deployed fibers also offers a potentially significant benefit in the near-term as a method of extending the life of existing fiber systems to provide additional transmission capacity without the large capital expenditure associated with new fiber deployment. However, moving away from the lowest loss regions of standard silica fibers requires new amplification schemes beyond the standard erbium (E-) doped fiber amplifier (DFA) that is a staple of C-band or C+L-band systems.

Previously, S/C/L-band transmission has been explored with various amplifier solutions. In addition to thulium (T-) DFAs, semiconductor optical amplifiers (SOAs) and distributed and discrete Raman amplification have been used, with maximum estimated data-rates of 256 Tb/s utilizing almost 20 THz bandwidth.

Even wider transmission demonstrations have used bismuth (B-DFAs) for O-band and lumped Raman amplifiers for U-band channels for 119 Tb/s with a cumulative bandwidth of 25 THz. E-band BDFAs were also used with distributed Raman amplification for E/S/C/L-band transmission over 27.8 THz with In this demonstration, researchers expanded dense wavelength division multiplexed (DWDM) transmission to cover all the major transmission bands in the low-loss window of standard optical fibers to enable more than 1,500 parallel transmission channels within an aggregate 37.6 THz (275 nm) optical bandwidth.

Along with collaborating partners, NICT constructed the world's first O to U-band transmission system capable of DWDM transmission in a commercially available standard optical fiber achieved with custom designed amplifier technology. The transmission demonstration utilizes 6 DFA variants for gain in O/E/S/C/L-bands with discrete (U-band) and distributed Raman amplification along with novel optical gain equalizers for profile shaping in O/E bands.

World record 402 Tb/s transmission in a standard commercially available optical fiber

A wideband DWDM signal including up to 1,505 channels covering 275 nm (37.6 THz), from 1,281.2 nm to 1,649.9 nm across the O, E, S, C, L and U-bands, was transmitted over 50 km of water absorption peak suppressed optical fiber. High data rates were achieved by using dual polarization (DP-) quadrature-amplitude modulation (QAM) with up to 256 symbols per constellation.

As highlighted, the generalized mutual information (GMI) estimated data-rate after 50 km transmission was 402 Tb/s, which exceeds the previous highest single-mode fiber (SMF) data-rate by over 25%, and the aggregate transmission bandwidth of 37.6 THz is also a 35% increase. The achieved data-rate is compared with past achievements in wideband transmission experiments. These results show the potential of ultra-wideband transmission, enabled by a new amplifier and wideband spectrum-shaping technology to increase the information carrying capability of new and deployed optical fibers.

It is expected that the data-rate of optical transmission systems required to enable "beyond 5G" information services will increase enormously. New wavelength regions enable deployed optical fiber networks to perform higher data-rate transmission and extend the useful life of existing network systems. It is also anticipated that new bands can address the increasing demand of next generation communications services by combining with new types of optical fibers.

The paper containing these results was presented at the Optical Fiber Communication (OFC) Conference 2024, the largest international optical communications conference, having been selected as a post-deadline paper.

NICT will continue to promote research and development into new amplifier technologies, components, and fibers to support new transmission windows for both near and long-term applications. NICT will also aim to extend the transmission range of such wideband, ultra-high-capacity systems and add their compatibility for field-deployed fibers.

Provided by National Institute of Information and Communications Technology (NICT)

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