Asifa Yesmin | Excellence in Research Award Winner 2023 🏆
Dr. Asifa Yesmin : Robust controller in resource constraint scenario
Professional profile:
Early Academic Pursuits:
Asifa Yesmin embarked on her academic journey with a Bachelor's in Power Electronic & Instrumentation from Jorhat Institute of Science & Technology in 2013, securing an impressive 81.2%. Following this, she pursued a Master's in Electronic Design and Technology at Tezpur University, achieving a notable percentage of 89.7 in 2016. Her academic prowess continued with a Ph.D. in Control System and Application at the National Institute of Technology Silchar, culminating in 2021.
Professional Endeavors:
With a solid academic foundation, Asifa delved into research and academia. She served as a Post Doctoral Fellow at the SysCon, Indian Institute of Technology Bombay, contributing to projects like Software-In-The-Loop validation of super twisting-based sliding mode control for quadcopters. Her expertise extended to designing sliding mode controllers for quadcopters, exploring various methodologies and conducting software-in-the-loop simulations.
During her tenure as a Research Scholar at the National Institute of Technology Silchar, Asifa contributed significantly to projects involving event-triggered sliding mode controllers. Her work spanned topics such as reaching law-based event-triggered sliding mode control, dynamic event-triggered sliding mode control, and static event-triggered integral sliding mode control.
As a PG Student at Tezpur University, Asifa showcased her practical skills by designing a GSM-based automatic cooking machine with a frying feature. Her undergraduate project involved creating an automatic parking system, highlighting her versatility in both hardware and software-based projects.
Contributions and Research Focus:
Asifa Yesmin's research primarily centers around control systems, with a specific focus on sliding mode controllers, event-triggered control, multi-agent systems, unmanned aerial vehicles, path planning, and robotics. Her expertise extends to areas such as linear control theory, network theory, nonlinear systems, and digital and analog electronics.
Her contributions include the design and performance analysis of sliding mode controllers for quadcopters, exploring various sliding mode controller designs for multi UAVs, and investigating dynamic triggering mechanisms for sliding mode control.
Accolades and Recognition:
Asifa's academic journey has been marked by achievements such as securing the 1651st rank in GATE 2016 and being a recipient of the Research Fellowship from MHRD, Government of India, from 2016 to 2021. She also received the Student Travel Fund (IRC-STF) from IEEE Region 10 in 2019.
Her contributions as a reviewer for prestigious journals like European Journal of Control, Fuzzy Sets and Systems, Neural Network, Scientific Reports, and Isa Transaction underscore her standing in the academic community.
Impact and Influence:
Asifa's impact is evident not only through her research but also in her teaching roles. As a Teaching Assistant at NIT Silchar, she contributed to courses in control system, industrial process control, and virtual instrumentation, showcasing her commitment to knowledge dissemination.
Her involvement in organizing national workshops and workshops on topics like homogeneity-based design of sliding mode controllers and robustness control demonstrates her dedication to fostering academic growth beyond her research.
Legacy and Future Contributions:
Asifa Yesmin's legacy lies in her multifaceted contributions to academia and research. Her work on sliding mode controllers and event-triggered control sets a foundation for future advancements in control system theory and applications. With her diverse skill set and extensive research experience, she is poised to continue making significant contributions to the field, leaving a lasting impact on control systems and related domains.
Notable publication :
- Design of event-triggered sliding mode controller based on reaching law with time varying event generation approach (22), 201
- Event-triggered sliding-mode control of two wheeled mobile robot: an experimental validation(19), 2021
Citations:
A total of 83 citations for his publications, demonstrating the impact and recognition of his research within the academic community.
- Citations 83
- h-index 5
- i10-index 4