Dr. Sasmeeta Tripathy-Performance Management Award-Best Researcher Award
ITER,Siksha'O' Anusandhan (Deemed to be University)-India
Author profie
Early Academic Pursuits
Dr. Sasmeeta Tripathy's academic journey began with a Bachelor's degree in Mechanical Engineering from BPUT, Orissa, in 2005. Her thirst for knowledge and passion for research led her to pursue a Master's degree in Production Engineering from NIT, Rourkela, in 2007. This laid a solid foundation for her subsequent Ph.D. from SOA University in 2017, where her research focused on parametric optimization and surface modification studies of H-11 die steel using powder mixed electrical discharge machining (PMEDM). Her academic pursuits reflect her dedication to advancing knowledge in the field of mechanical engineering, particularly in non-traditional machining and modern manufacturing processes.
Professional Endeavors
With over seventeen years of experience in teaching and research in undergraduate and postgraduate engineering, Dr. Tripathy has demonstrated exceptional skills in motivating students, planning course syllabi, assessing student progress, and handling administrative responsibilities in educational institutes. Her expertise extends to production management, quality and reliability engineering, and optimization methods. Her dynamic teaching approach aims to instill a lifelong love of knowledge and ethical values in young engineering professionals.
Contributions and Research Focus
Dr. Tripathy's contributions to the field of mechanical engineering are evident through her published papers in international journals and conferences. Her research primarily focuses on optimizing machining processes, such as EDM and PMEDM, for improved material removal rates, surface finish, and micro-hardness. She has developed innovative approaches using techniques like Taguchi, TOPSIS, GRA, and multi-objective optimization to enhance the efficiency and effectiveness of manufacturing processes. Her work has practical implications for industries relying on precision machining and advanced manufacturing techniques.
Accolades and Recognition
Dr. Tripathy's research prowess has earned her recognition and accolades in the form of published papers in reputable journals and presentations at international conferences. Her contributions to multi-attribute optimization, surface characterization, and process parameter optimization have been well-received in the academic and industrial communities. Her hybrid approach combining PCA-based TOPSIS and GRA for multi-objective optimization showcases her innovative thinking and problem-solving skills.
Impact and Influence on Performance Management Award
Through her research and teaching endeavors, Dr. Tripathy has had a significant impact on shaping the next generation of mechanical engineers. Her expertise in production engineering, coupled with her ability to integrate theoretical knowledge with practical applications, has inspired students and fellow researchers alike. Her work has contributed to advancements in machining technologies and optimization methods, leading to more efficient and reliable manufacturing processes.
The Performance Management Award recognizes individuals who have demonstrated exceptional skills and achievements in effectively managing and optimizing performance within their organizations. Recipients of this award exhibit a deep understanding of performance metrics, strategic goal alignment, and employee development strategies that contribute significantly to the overall success of the company. Their ability to implement performance management systems, provide constructive feedback, and cultivate a culture of continuous improvement sets them apart as leaders in driving organizational excellence.
Legacy and Future Contributions
As Dr. Tripathy continues her professional journey, her legacy lies in her pioneering research, dedication to teaching excellence, and commitment to ethical engineering practices. Her future contributions are expected to further bridge the gap between academia and industry, fostering innovation and sustainable development in the field of mechanical engineering. Her work serves as a beacon for aspiring researchers and engineers, highlighting the transformative potential of cutting-edge research in manufacturing and production engineering
Winners of the Performance Management Award are those who have successfully implemented innovative performance evaluation techniques, fostered a culture of accountability and high performance, and achieved measurable results in terms of productivity, efficiency, and employee engagement. Their contributions not only enhance individual and team performance but also contribute positively to the company's bottom line and long-term growth objectives. This award recognizes their dedication, expertise, and outstanding contributions in the field of performance management, making them invaluable assets to their organizations.
- Multi-attribute optimization of machining process parameters in powder mixed electro-discharge machining using TOPSIS and grey relational analysis
- Multi-response optimization of machining process parameters for powder mixed electro-discharge machining of H-11 die steel using grey relational analysis and topsis
- Optimization of EDM process parameters for AlSiC-20% SiC reinforced metal matrix composite with multi response using TOPSIS
- Development in plasma arc welding process: a review
- Surface Characterization and Multi-response optimization of EDM process parameters using powder mixed dielectric
- An approach for increasing the micro-hardness in electrical discharge machining by adding conductive powder to the dielectric