Dr Vivek Karthick Perumal | VLSI System Design | Best Researcher Award
Assistant Professor at Sona College of Engineering,India
Dr. Vivek Karthick Perumal is an Assistant Professor at Sona College of Technology, Salem, with expertise in telecommunications, VLSI design, and wireless communication architectures. He is known for his work in VLSI data path elements, low power design for wireless systems, and FPGA-based architectures. With a strong academic background, Dr. Vivek has made significant contributions to research in various VLSI and communication fields, publishing numerous papers in reputed journals and conferences.
Publication Profile
Early Academic Pursuits 🎓
Dr. Vivek Karthick Perumal embarked on his academic journey with a strong foundation in Electronics and Communication Engineering (ECE). He completed his Bachelor’s degree in ECE from Oxford Engineering College in 2011, where his passion for technology and engineering began to take shape. He further honed his expertise by pursuing a Master’s degree in VLSI Design at Anna University Regional Campus, Coimbatore, completing it in 2013. Driven by an innate curiosity for advanced technologies, Dr. Perumal is currently in the final stages of his Ph.D. at Anna University (2024), focusing on innovative approaches to VLSI systems and telecommunications.
Professional Endeavors 💼
Dr. Perumal’s professional career has been shaped by a commitment to teaching and research. He began his career as an Assistant Professor at Kathir College of Engineering, Coimbatore, where he contributed significantly to academic excellence and research from 2013 to 2017. Currently, he is serving as an Assistant Professor at Sona College of Technology, Salem, where he continues to inspire and mentor the next generation of engineers. In addition to his academic roles, Dr. Perumal has collaborated with institutions such as IIT Kharagpur in organizing workshops, demonstrating his commitment to the advancement of education and technology.
Contributions and Research Focus 🔬
Dr. Vivek Karthick Perumal’s research interests lie primarily in the realm of VLSI design, focusing on data path elements, signal processing, and low-power VLSI for wireless communication architectures. His work includes the design of FPGA-based reconfigurable systems and multimode smart traffic control systems, aimed at improving the functionality and efficiency of modern technological applications. Dr. Perumal has published numerous papers in esteemed journals and international conferences, contributing to advancements in areas like traffic routing protocols, malware detection for 5G and IoT networks, and FPGA implementations for various standard interleaver designs.
Accolades and Recognition 🏅
Throughout his career, Dr. Perumal has received several accolades for his dedication to teaching and research. In 2022, he was recognized with an Appreciation Award for over five years of outstanding service at Sona College of Technology. Additionally, he was honored as a Workshop Coordinator for the ISTE (NMEICT, MHRD) & IIT Kharagpur workshop in 2017, reflecting his leadership and ability to facilitate knowledge sharing. His contributions to the field have garnered recognition from both his peers and the academic community at large.
Impact and Influence 🌍
Dr. Perumal’s work has had a profound impact on the VLSI design and telecommunications fields. His research has enhanced understanding and development in areas such as low-power design techniques, wireless communication systems, and reconfigurable FPGA architectures. By combining his theoretical expertise with practical implementations, he has significantly contributed to the development of smart traffic control systems and advanced communication networks, helping shape the future of IoT, 5G, and wireless technologies. His work not only influences the academic world but also has real-world applications that address pressing challenges in the telecommunications industry.
Legacy and Future Contributions 🌟
Dr. Vivek Karthick Perumal’s academic and professional journey is a testament to his unwavering commitment to innovation and excellence in the field of VLSI and telecommunications. As he continues his work in VLSI signal processing and low-power designs for wireless communication, his future contributions are expected to bring about groundbreaking advancements. His research promises to have a lasting legacy in the development of next-generation communication systems, particularly in the realms of 5G and IoT. Through his dedication, Dr. Perumal is paving the way for the next generation of engineers and researchers to push the boundaries of technology.
Publication Highlights 📚
- “CNN Based Plant Disease Identification Using PYNQ FPGA” (2024), Systems and Soft Computing
- “FPGA Implementation of Reconfigurable Address Generator for Various Standard Interleaver” (2024), International Conference on Intelligent Data Communication Technologies and Internet of Things
- “Efficient Distance and Connectivity Based Traffic Density Stable Routing Protocol for Vehicular Ad Hoc Networks” (2024), IETE Journal of Research
- “Design and Implementation of an SPI to I2C Bridge for Seamless Communication and Interoperability Between Devices” (2024), Lecture Notes in Networks and Systems
- “A Lightweight CNN with LSTM Malware Detection Architecture for 5G and IoT Networks” (2024), IETE Journal of Research
- “FPGA Implementation of Reconfigurable Address Generator for Various Standard Interleaver” (2023), Proceedings of the International Conference on Intelligent and Innovative Technologies in Computing, Electrical, and Electronics
- “OFDM Implementation of Image and Video Capturing with SD Ram Using Artix-7” (2023), AIP Conference Proceedings
- “An Improved Pilot Pattern Design-Based Channel Estimation in Wireless Communication Using Distribution Ant Colony Optimization” (2023), Simulation Modelling Practice and Theory
- “Enhancing Pancreatic Cancer Classification Through Dynamic Weighted Ensemble: A Game Theory Approach” (2023), Computer Methods in Biomechanics and Biomedical Engineering
- “Design of Power and Delay Efficient Fault Tolerant Adder” (2023), Proceedings of the 3rd International Conference on Artificial Intelligence and Smart Energy