Dr. Kavikumar Ramasamy | Mathematics | Young Scientist Award
Assistant Professor at VIT-AP, India
Dr. Ramasamy Kavikumar is an Assistant Professor Senior Grade-1 at VIT-AP University, Andhra Pradesh, India, with over nine years of research and teaching experience. He holds a Ph.D. in Mathematics from Anna University, specializing in the robust stabilization of Takagi-Sugeno fuzzy systems. His research spans various fields, including fuzzy control systems, event-triggered stabilization, and disturbance rejection strategies, with a focus on nonlinear dynamics and system stability. Dr. Kavikumar has published numerous papers in high-impact journals, such as IEEE Transactions on Fuzzy Systems and the Journal of the Franklin Institute, with significant contributions to fuzzy systems, Markov jumps, and semi-Markovian models. He has received several research grants and awards, including funding from Chungbuk National University, South Korea, and the International Congress on Industrial and Applied Mathematics (ICIAM). His academic achievements and impactful research make him a distinguished scholar in the field of applied mathematics.
Professional Profile
Education
Dr. Kavikumar Ramasamy has a strong academic background, which began with his Bachelor’s degree in Mathematics from the University of Madras, India. He further advanced his education by earning a Master’s degree in Applied Mathematics from Anna University, India. Building on his expertise, Dr. Kavikumar pursued a Doctoral degree in Mathematics at Anna University, where he focused on the robust stabilization of Takagi-Sugeno fuzzy systems. His research during the Ph.D. program led to several notable contributions in the fields of fuzzy control, nonlinear systems, and event-triggered stabilization. Dr. Kavikumar’s advanced studies provided him with a solid foundation in mathematical theory and its practical applications, leading him to become a recognized academic figure in the field of applied mathematics. His educational journey reflects his commitment to mastering complex mathematical concepts and applying them to solve real-world problems in system dynamics and control theory.
Professional Experience
Research Interest
Dr. Kavikumar Ramasamy’s research interests are primarily focused on applied mathematics, particularly in the areas of control theory, fuzzy logic systems, and nonlinear dynamics. His work delves into the development and analysis of robust stabilization techniques for control systems, aiming to enhance the stability and performance of complex systems. He is also deeply involved in the study of event-triggered control systems, where the timing of control actions is optimized to reduce resource consumption and improve efficiency. Another key aspect of his research is the application of fuzzy logic to systems that involve uncertainty or imprecision, with a focus on designing advanced control algorithms for such systems. Dr. Kavikumar has made significant contributions to understanding the behavior of nonlinear systems and their stabilization through innovative mathematical models. His interdisciplinary research has applications in diverse fields, including automation, robotics, and systems engineering, making a lasting impact on both theory and practice.
Award and Honor
Dr. Kavikumar Ramasamy has received numerous awards and honors in recognition of his significant contributions to the field of applied mathematics and control systems. His academic achievements include prestigious fellowships and grants that have enabled him to conduct groundbreaking research in nonlinear dynamics, control theory, and fuzzy logic systems. He was awarded the Best Research Paper Award at several international conferences, showcasing his expertise in advancing mathematical techniques for complex systems. In addition to academic accolades, Dr. Ramasamy has been recognized for his exceptional teaching and mentoring skills, earning awards for excellence in education and supervision of graduate students. His innovative work in event-triggered control systems and fuzzy logic has earned him a prominent reputation in both academia and industry. These honors highlight his profound impact on mathematical research and its real-world applications, further cementing his standing as a leading expert in his field.
Conclusion
Publications Top Noted
- Fault Estimation for Mode-Dependent IT2 Fuzzy Systems with Quantized Output Signals
- Authors: R Sakthivel, R Kavikumar, A Mohammadzadeh, OM Kwon, B Kaviarasan
- Year: 2021
- Citation: 54
- Reliable Non-Fragile Memory State Feedback Controller Design for Fuzzy Markov Jump Systems
- Authors: R Kavikumar, R Sakthivel, OM Kwon, B Kaviarasan
- Year: 2020
- Citation: 49
- Finite-Time Boundedness of Interval Type-2 Fuzzy Systems with Time Delay and Actuator Faults
- Authors: R Kavikumar, R Sakthivel, OM Kwon, B Kaviarasan
- Year: 2019
- Citation: 45
- Non-Fragile Control Design for Interval-Valued Fuzzy Systems Against Nonlinear Actuator Faults
- Authors: R Kavikumar, R Sakthivel, B Kaviarasan, OM Kwon, SM Anthoni
- Year: 2019
- Citation: 44
- Robust Tracking Control for Fuzzy Markovian Jump Systems with Time-Varying Delay and Disturbances
- Authors: R Sakthivel, S Harshavarthini, R Kavikumar, YK Ma
- Year: 2018
- Citation: 36
- Sliding Mode Control for IT2 Fuzzy Semi-Markov Systems with Faults and Disturbances
- Authors: R Kavikumar, OM Kwon, R Sakthivel, SH Lee, SG Choi, S Priyanka
- Year: 2022
- Citation: 29
- Design of H∞-Based Sampled-Data Control for Fuzzy Markov Jump Systems with Stochastic Sampling
- Authors: R Kavikumar, R Sakthivel, Y Liu
- Year: 2021
- Citation: 25
- Input-Output Finite-Time IT2 Fuzzy Dynamic Sliding Mode Control for Fractional-Order Nonlinear Systems
- Authors: R Kavikumar, OM Kwon, SH Lee, R Sakthivel
- Year: 2022
- Citation: 22
- Event-Triggered Input-Output Finite-Time Stabilization for IT2 Fuzzy Systems Under Deception Attacks
- Authors: R Kavikumar, OM Kwon, SH Lee, S Lee, R Sakthivel
- Year: 2023
- Citation: 21
- Robust Tracking Control Design for Fractional-Order Interval Type-2 Fuzzy Systems
- Authors: R Kavikumar, R Sakthivel, OM Kwon, P Selvaraj
- Year: 2022
- Citation: 18
- Observer-Based Repetitive Control for Fractional-Order Interval Type-2 TS Fuzzy Systems
- Authors: R Sakthivel, R Kavikumar, YK Ma, Y Ren, SM Anthoni
- Year: 2018
- Citation: 17
- Faulty Actuator-Based Control Synthesis for Interval Type-2 Fuzzy Systems via Memory State Feedback Approach
- Authors: R Kavikumar, R Sakthivel, OM Kwon, B Kaviarasan
- Year: 2020
- Citation: 16
- Robust Model Reference Tracking Control for Interval Type-2 Fuzzy Stochastic Systems
- Authors: R Kavikumar, R Sakthivel, O Kwon, K Boomipalagan
- Year: 2020
- Citation: 15
- Anti-Disturbance Control Design for Interval Type-2 Fuzzy Stochastic Systems With Input Quantization
- Authors: R Kavikumar, OM Kwon, B Kaviarasan, R Sakthivel
- Year: 2023
- Citation: 10
- Design of Uncertainty and Disturbance Estimator-Based Tracking Control for Fuzzy Switched Systems
- Authors: R Sakthivel, S Harshavarthini, DJ Almakhles, R Kavikumar
- Year: 2021
- Citation: 6