Wireless Power Transfer Projects for ME, MTech, Masters, MS abroad, and PhD students. These Wireless Power Transfer ieee projects are implemented with future work and extension for final year students with research paper writing and publishing. These research projects guide final year students to learn, practice, and complete their academic submissions successfully. Each project includes complete source code, project report, PPT, a tutorial, documentation, and a research paper.

Wireless Power Transfer Projects and Research Topics with source code

Latest Wireless Power Transfer Projects

  1. Computation Rate Maximization for Wireless-Powered Edge Computing With Multi-User Cooperation
    This project studies a system where small devices can share computing tasks and get energy wirelessly. Devices work together in groups to split tasks between themselves and a central hub. The goal is to finish more computing work faster while saving energy. The team developed algorithms, including one using deep learning, to make this process efficient and quick.
  2. Design of a Closed-Loop Wireless Power Transfer System for an Implantable Drug Delivery Device
    This project focuses on safely powering small medical devices inside the body without wires. The researchers built a system that can wirelessly recharge tiny batteries using standard parts. They tested how well it works when the coils are moved or misaligned. The system was able to recharge batteries reliably and efficiently while staying cool.
  3. Energy Harvesting Maximization for Reconfigurable Intelligent Surfaces Using Amplitude Measurements
    This project focuses on making a special surface, called a reconfigurable intelligent surface (RIS), work using energy it gathers from the environment instead of external power. The researchers developed methods that adjust the surface to capture the most energy using only simple power readings. They tested these methods in simulations and showed they perform better than random adjustments. The work helps RIS devices operate efficiently even in noisy or uncertain conditions.
  4. Going Beyond a Simple RIS Trends and Techniques Paving the Path of Future RIS
    This project looks at improving future wireless networks, like 6G, which need very fast and reliable connections. High-frequency signals lose strength quickly and are easily blocked. The study explores reconfigurable intelligent surfaces (RIS) that can control how signals travel to boost coverage and speed. It also discusses how machine learning can make these systems smarter and more efficient.
  5. Near-Field Power Efficiency Maximization of a Bessel-Shaped Beam Through Planar Layered Media
    This project focuses on improving wireless power transfer using special Bessel-shaped beams. The researchers created a new way to measure how much power can pass through layered materials in the near-field region. Their method helps find the best beam settings to deliver maximum power efficiently. Simulations show it can accurately predict the conditions for the highest power transfer.
  6. On the Performance of Interference-Based Energy-Harvesting-Enabled Wireless AF Relaying Communication Systems
    This project studies a wireless communication system that can harvest energy from unwanted radio signals around it. The system can collect energy at the source, at the relay, or at both at the same time. The research analyzes how well the system performs in different cases, measuring how often it fails to transmit data and how much data it can send reliably. The results show how the energy source and channel conditions affect the system’s performance.
  7. RF Energy Harvesting Techniques for Battery-Less Wireless Sensing Industry 4.0 and Internet of Things A Review
    This project focuses on using energy from the environment to power small IoT devices without batteries. It studies different ways to harvest energy, especially from radio waves, to run low-power electronics. The goal is to make devices that need no maintenance and work in smart industries, agriculture, healthcare, and 5G networks. It also looks at future trends in improving these systems and integrating them into modern technology.
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How We Help You with Wireless Power Transfer Projects

At UniPhD, we provide complete guidance and support for Wireless Power Transfer ieee projects for BE, BTech, MTech, ME, Master’s, and PhD students. Our team assists you at every stage from topic selection to coding, report writing, and result analysis.

Our experts guide students all over India, including in Mumbai, Delhi, Bangalore, Hyderabad, Ahmedabad, Chennai, Kolkata, Pune, Jaipur, and Surat. We also assist students in the USA, UK, Canada, Australia, Singapore, Malaysia, and Thailand. They have extensive experience in computer science, electronics, electrical and all engineering domains.

Wireless Power Transfer Thesis and Dissertation Writing

UniPhD has a team of experienced academic writers who specialize in Wireless Power Transfer research and thesis development. We offer fast-track dissertation writing services to help you complete your Wireless Power Transfer thesis or dissertation smoothly and on time.

Our M.E., M.Tech, Masters, MS abroad, and PhD theses are developed according to individual university guidelines and checked with plagiarism detection tools to ensure originality and quality.

Wireless Power Transfer Research Paper Publishing Support

UniPhD provides complete support for research paper writing, editing, and proofreading to help you publish your work in reputed journals or conferences. We accept documents in Microsoft Word, RTF, or LaTeX formats and ensure your paper meets publication standards.

Project Synopsis and Presentation Support

We help you prepare your project synopsis, including the problem definition, objectives, and motivation for your dissertation. Our team also provides complete PPT, documentation, and tutorials to make your final presentation successful. You can also download complete project resources, including source code, a project report, a PPT, a tutorial, documentation, and a research paper for your Wireless Power Transfer final year project.

Wireless Power Transfer Research Support for PhD Scholars

UniPhD offers advanced Wireless Power Transfer research projects designed specifically for PhD scholars. We provide end-to-end support for your research design, implementation, experimentation, and publication process.

Each project package includes comprehensive documentation, including the research proposal, complete source code, research guidance, documentation, research paper, and thesis writing support, helping you successfully complete your doctoral research and academic publications.

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