Amrita School of Engineering - India
Professional Profiles:
Early Academic Pursuits:
Dr. Resmi R embarked on her academic journey with a strong foundation in Electrical and Electronics Engineering. Born on May 16, 1983, she pursued her passion for the field and obtained her Ph.D. in Electrical and Electronics Engineering. Her early academic pursuits showcased her dedication to understanding complex concepts and laid the groundwork for her future contributions in the field.
Professional Endeavors:
As an Assistant Professor (Selection Grade) at the Department of Electrical and Electronics Engineering, Amrita School of Engineering, Amrita Vishwa Vidyapeetham, Dr. Resmi R has demonstrated her commitment to academia. Her role involves not only imparting knowledge to students but also engaging in research activities that contribute to the advancement of the field.
Contributions and Research Focus On Bioenergy:
Dr. Resmi R's expertise lies in several crucial areas within Electrical and Electronics Engineering. Her research has delved into Wind Energy Forecasting, Bio and Hydro Energy Resources, Advanced Control Systems, Wind Electric Generators, and Electrical Machines. The focus of her Ph.D. thesis, "Investigation on Brushless Doubly Fed Induction Machine for Improved Performance," reflects her dedication to exploring innovative solutions for enhancing machine performance.
Her contributions extend to addressing critical issues such as climate change and energy sustainability, aligning her research with the pressing global need for renewable energy solutions. Through her work, she has made strides in understanding and harnessing various energy resources for a more sustainable future.
Accolades and Recognition:
Dr. Resmi R's impactful contributions have not gone unnoticed. Her recognition in the academic community is evidenced by her SCOPUS ID (57190160102) and her Google Scholar ID. These identifiers showcase her scholarly achievements and contributions to the field, acknowledging her as a notable figure in Electrical and Electronics Engineering. Bioenergy represents a sustainable and renewable source of power derived from organic materials, such as agricultural residues, organic waste, and dedicated energy crops.
Utilizing natural processes, bioenergy production reduces greenhouse gas emissions, offering a cleaner alternative to conventional energy sources. As a versatile and eco-friendly solution, bioenergy plays a pivotal role in addressing climate change and fostering energy independence while promoting agricultural and environmental sustainability.
Impact and Influence:
Dr. Resmi R's work has made a significant impact on the field, particularly in the realm of renewable energy. Her research in Wind Energy Forecasting and Bio and Hydro Energy Resources has contributed to the development of more efficient and sustainable energy solutions. Her investigations into Advanced Control Systems and Wind Electric Generators have pushed the boundaries of what is achievable in the field, influencing both academic discourse and practical applications.
Legacy and Future Contributions:
As an academician and researcher, Dr. Resmi R is in the process of building a lasting legacy. Her dedication to renewable energy, advanced control systems, and electrical machines is shaping the future of Electrical and Electronics Engineering. Her work will likely inspire future generations of researchers and engineers to continue exploring innovative solutions for a sustainable and energy-efficient world. Dr. Resmi R is poised to make further contributions to her field.
Her research focus on climate and energy, coupled with her interest in electrical machines, positions her as a key player in shaping the future of sustainable energy technologies. Her commitment to academia and research ensures that her influence will endure and continue to make a positive impact on the field of Electrical and Electronics Engineering.
Notable Publications:
Design and analysis of squirrel cage induction motor in short pitch and full pitch winding configurations using FEA 2017
PMSG based standalone wind electric conversion system with MPPT 2017
Mathematical model of brushless doubly fed induction generator based wind electric generator 2016