Guruswamy K. P | Engineering | Best Researcher Award

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Dr. Guruswamy K. P | Engineering | Best Researcher Award

University of Visvesvaraya College of Engineering | India

Dr. Guruswamy K. P. is an Associate Professor in the Department of Electrical Engineering at the University of Visvesvaraya College of Engineering (UVCE), Bengaluru. He is widely recognized for his expertise in power electronics, particularly in the modeling and control of advanced power converter systems. His professional journey reflects a blend of academic teaching and innovative research, enabling him to contribute to both the classroom and the wider engineering community. Through his dedicated work, he has advanced the design of compact, efficient, and reliable power converters, making a significant impact on electric vehicle charging systems, renewable energy integration, and smart power management technologies.

Professional Profile

Google Scholar

Education

Dr. Guruswamy K. P began his academic journey at the University of Visvesvaraya College of Engineering, where he earned both his Bachelor’s and Master’s degrees in Electrical Engineering. His early academic training laid a strong foundation in fundamental engineering principles while also sparking his interest in power conversion systems. He further strengthened his expertise by pursuing doctoral research at the Indian Institute of Technology Roorkee, where he specialized in advanced control and modeling of DC–DC converters and resonant converters. This educational progression provided him with a comprehensive balance of theory, practical knowledge, and research skills that continue to influence his work today.

Experience

Over the course of his professional career, Dr. Guruswamy K. P has accumulated extensive teaching and research experience. He began with faculty positions in engineering institutions before advancing to his current role as Associate Professor at UVCE. In this position, he has not only taught core electrical engineering courses but has also supervised research projects and guided students in innovative converter design. He has contributed to the development of laboratory infrastructure, collaborative research initiatives, and academic curricula that integrate emerging topics such as digital control, interleaved converter systems, and sustainable energy applications. His leadership extends beyond teaching, as he regularly collaborates with researchers from leading institutions on interdisciplinary projects.

Research Interest

Dr. Guruswamy K. P research interests lie in the broad area of power electronics, with a specific focus on resonant converters, interleaved DC–DC converters, bidirectional converters, PWM rectifiers, and digital control strategies. He is particularly interested in applying analytical methods and computational modeling to improve the efficiency, reliability, and adaptability of converter technologies. His research often bridges theoretical modeling with practical implementation, which is especially evident in applications such as electric vehicle charging systems, auxiliary power units, and renewable energy integration. By combining modern control approaches with traditional converter design, he continues to drive advancements in sustainable energy systems and high-performance power management solutions.

Awards

Dr. Guruswamy K. P has been consistently recognized for his academic excellence, research contributions, and professional commitment. His innovative work in the field of power converters has earned him appreciation within the engineering community, and his nomination for the Best Researcher Award reflects his sustained achievements in both research and teaching. His professional memberships with ISTE and IEEE further highlight his active involvement in knowledge dissemination and collaboration, underscoring his contributions to advancing power electronics at both national and international levels.

Publications

Dr. Guruswamy K. P has authored and co-authored multiple publications in reputed international journals and conferences. His research spans topics such as digital control methods, resonant LLC converters, bidirectional DC–DC converters, and PWM rectifier applications. Selected works include:

1. Title: Modelling of flyback converter using state space averaging technique
Journal: 2015 IEEE International Conference on Electronics, Computing and Communication Technologies (ICECCT)
Published on: 2015
Citation: 34

2. Title: Design, modeling and analysis of two level interleaved boost converter
Journal: 2013 International Conference on Machine Intelligence and Research Advancement (ICMIRA)
Published on: 2013
Citation: 31

3. Title: Design, Modelling, Analysis and Implementation of Two Phase Interleaved Buck DC-DC Converter
Journal: International Journal of Innovative Science and Research Technology
Published on: 2018
Citation: 8

4. Title: FPGA based 2-stage power conditioning system for PV power generation
Journal: 2013 International Conference on Power, Energy and Control (ICPEC)
Published on: 2013
Citation: 8

5. Title: Design and implementation of two phase interleaved DC-DC boost converter with digital PID controller
Journal: International Journal of Electrical and Electronics Engineering (IJEEE)
Published on: 2013
Citation: 8

6. Title: Performance Analysis for LLC Resonant Converter in Electric Vehicle Applications
Journal: 2023 International Conference on Recent Trends in Electronics and Communication (ICRTEC)
Published on: 2023
Citation: 4

7. Title: Performance Analysis of Half-Bridge LC Resonant Converter for UPS Battery Charging Application
Journal: 2023 International Conference on Recent Trends in Electronics and Communication (ICRTEC)
Published on: 2023
Citation: 3

Conclusion

Dr. Guruswamy K. P. stands out as a dedicated academic and researcher in the field of power electronics. His educational background, teaching experience, and innovative research collectively illustrate his strong commitment to advancing the field of converter technology. Through his publications, collaborations, and professional memberships, he has consistently contributed to both theoretical and applied aspects of electrical engineering. His nomination for the Best Researcher Award acknowledges not only his scholarly achievements but also his role in shaping the next generation of engineers and promoting sustainable energy solutions through advanced power electronics.

Karim Heydari | Engineering | Best Researcher Award

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Dr. Karim Heydari | Engineering | Best Researcher Award

Isfahan University of Technology | Iran

Dr. Karim Heydari is a distinguished scientist and academic in the field of textile engineering and polymer science, renowned for his expertise in developing sustainable and high-performance polymer composites. His research has been instrumental in transforming recycled polyethylene terephthalate (PET) into advanced textile fibers with improved mechanical integrity, flame resistance, and processability. Through innovative use of nanotechnology, eco-friendly flame-retardant systems, and molecular chain extenders, Dr. Heydari has contributed significantly to bridging environmental sustainability with industrial-scale manufacturing. His dedication to advancing polymer recycling technologies positions him as a leading figure in sustainable materials research.

Professional Profile

ORCID

Education

Dr. Heydari holds a strong academic background in textile engineering, polymer processing, and materials science, with specialized training in fiber manufacturing technologies, rheological property analysis, and nanocomposite engineering. His educational journey has provided him with a unique interdisciplinary skill set, enabling him to address challenges in polymer degradation, fiber spinning, and additive compatibility with scientifically sound and technologically viable solutions.

Experience

Throughout his career, Dr. Heydari has led and collaborated on multiple high-impact research projects focused on the optimization of recycled polymers for advanced textile applications. His work encompasses the full material development chain from feedstock selection and additive formulation to reactive extrusion, melt spinning, and product testing. He has applied advanced analytical techniques such as scanning electron microscopy, X-ray diffraction, thermogravimetric analysis, and rheological characterization to evaluate and enhance composite performance. In addition to academic publications, Dr. Heydari has actively collaborated with industrial partners to translate laboratory innovations into production-ready materials, particularly for applications demanding both performance and environmental compliance.

Research Interest

Dr. Heydari’s research interests cover a broad range of topics in sustainable material science, including polymer recycling and upcycling, flame-retardant fiber composites, nano clay dispersion technologies, rheology-driven process optimization, and environmentally friendly additive systems. He is particularly passionate about valorizing multiple-recycled PET often considered unsuitable for high-quality applications  by restoring its molecular architecture and enhancing its functional properties. His research is driven by the goal of creating textile fibers that meet rigorous mechanical, thermal, and safety standards without compromising ecological responsibility.

Awards

Dr. Heydari has gained recognition for his pioneering contributions to sustainable polymer technology and textile engineering. His innovative approach to combining zinc phosphinate flame retardants, Cloisite 30B nanoclay, and multifunctional epoxy-based chain extenders has resulted in composites with exceptional flame resistance, thermal stability, and spinnability. These advancements not only contribute to safer and more durable textile products but also support global sustainability initiatives. His ability to merge scientific innovation with industrial applicability makes him a highly deserving candidate for the Best Researcher Award.

Publications

Dr. Karim Heydari has contributed impactful research on the rheological, thermal, and mechanical enhancement of recycled polyethylene terephthalate (PET) composites, with a focus on flame retardancy and spinnability.

Title: Enhanced Spinning Properties of Chain‐Extended Flame‐Retarded Multiple‐Recycled PET/Cloisite 30B Nanocomposite
Journal: Journal of Applied Polymer Science
Published on: August 2025

Title: Rheological Probing Molecular Weight Increase in Flame Retarded Doubly Recycled PET in the Presence of Nanoclay and Investigating its Spinnability
Journal: Preprint
Published on: January 2025

Conclusion

Dr. Karim Heydari’s contributions to polymer recycling and textile engineering represent a significant step forward in the creation of sustainable, high-performance materials. His work addresses urgent environmental challenges associated with polymer waste while providing viable solutions for industrial fiber production. By integrating advanced material science with practical manufacturing processes, he continues to influence the fields of textile engineering, polymer technology, and sustainable manufacturing. His research not only pushes the boundaries of scientific understanding but also demonstrates a commitment to creating eco-conscious innovations that can be adopted across global industries.