Vijay Laxmi Mishra | Engineering | Research Excellence Award

Published-on by Indian Scientist

Dr. Vijay Laxmi Mishra | Engineering | Research Excellence Award

Shri Ramswaroop Memorial University, India

Dr. Vijay Laxmi Mishra is an accomplished Assistant Professor in Electrical and Electronics Engineering with extensive experience in teaching and research. She holds a Ph.D. in Electrical Engineering with a focus on solar photovoltaic systems, power electronics, and control systems. She has published multiple SCI/SCIE and Scopus-indexed journal and conference papers, contributed book chapters, and filed patents. Her research interests include renewable energy, optimization techniques, MPPT, and machine learning applications. She has received prestigious awards, including a Gold Medal, reflecting her excellence in academia and research.

Research Metrics (Google Scholar)

200
150
100
50
10
5
0

Citations
173

h-index
7

i10-index
6

Citations

h-index

i10-index

Featured Publications


A novel PV array reconfiguration approach to mitigate non-uniform irradiation effect


Energy Conversion and Management 265, 115728 · 2022 · Cited by 37


Various modeling approaches of photovoltaic module: A comparative analysis


Majlesi Journal of Electrical Engineering 17 (2) · 2023 · Cited by 13

Roopsandeep Bammidi | Mechanical Engineering | Best Researcher Award

Published-on by Indian Scientist

Mr. Roopsandeep Bammidi | Mechanical Engineering | Best Researcher Award

Aditya Institute of Technology and Management | India

Dr. (Mr.) Roopsandeep Bammidi is a researcher and academician specializing in Biomechanical Engineering, Microswimmers, Microfluidics, Computational Material Science, and Artificial Intelligence-driven Engineering Applications. His ongoing Ph.D. work at NIT Andhra Pradesh focuses on the design and development of bioinspired Ocimum Sanctum–Graphene helical microswimmers, aimed at improving mobility and controlled agitation in microfluidic channels, contributing to future advancements in targeted drug delivery, lab-on-chip systems, and micro-robotics. He has published research articles in Elsevier, MDPI, Springer, and Trans Tech Publications, and has presented his work at several national and international conferences, including NIT Warangal, NIT Meghalaya, IITDM Kancheepuram, and Vienna, Austria. His research contributions extend into composite biomaterials, micro-motion behavior, tribology, and fluid-structure interactions at microscale dimensions. He has authored two books, contributed several book chapters, and holds multiple patents in biomedical devices, AI-based robotics, and micro-actuated systems. He has led consultancy projects involving bio-asphalt self-healing materials, sustainable battery technologies, and mechanical microswimmer prototyping for industry partners. His work integrates biomechanics, material engineering, and computational intelligence, contributing to emerging innovations in healthcare micro-robotics and sustainable smart materials.

Profiles: Google Scholar | Orcid | Scopus

Featured Publications

Bammidi, R., & Prasad, K. S. (2020). Ti-6Al-4V as dental implant. EAS Journal of Dentistry and Oral Medicine, 2, 14-18.

Phaneendra, Y., Dhanunjaya Rao, B. N., Bammidi, R., Nagesh, B., & Others. (2022). Optimization of process parameters for tribological behaviour of AA7075+ WC metal matrix composite using ANOVA. In Recent Trends in Product Design and Intelligent Manufacturing Systems (pp. xx-xx). (Conference/Book Series).

Bammidi, R., Prasad, K. S., & Rao, P. S. (2019). Studies on features, physical, mechanical, tribological properties and applications of Ti-6Al-4V in aerospace industry. International Journal, 5, 187.

Bammidi, R., Sreeramulu, D., Madivada, H., Rejeti, P. K., & Venkatesh, M. (2024). Towards an understanding of Ti-6Al-4V machining and machinability. Materials Today: Proceedings, 115, 289-292.

Konada, N. K., Suman, K. N. S., Bammidi, R., & Kumar, B. B. A. (2020). Investigation on mechanical, thermal and bonding properties of MWCNTs reinforced aramid/epoxy composite. Nano Hybrids and Composites, 30, 27-40.

Ms. Ritu Ranjan | Engineering | Best Research Award

Published-on by Indian Scientist

Ms. Ritu Ranjan | Engineering | Best Research Award

IIT ISM DHANBAD | India

Ms Ritu Ranjan is a dedicated electrical engineering researcher whose academic journey spans advanced degrees from premier Indian institutions, culminating in a PhD in control systems and sensor interfacing at IIT(ISM) Dhanbad. Her work centers on control techniques for bipedal robotic systems, specifically modeling and robust controller design, and extends into efficient analog and direct-digital interfacing schemes for magneto-resistance-based angle sensors. With several journal articles including contributions to Integration: the VLSI Journal, Measurement and Optical and Quantum Electronics, and multiple IEEE-indexed conference publications, she has developed expertise in sensor linearization, systematic error quantification, and optical biosensor modeling. Her research interest spans control theory, sensor hardware design, direct-digital interfacing, and FDTD-based photonic modeling. Though early in her career, she has begun accumulating citations and publications; her current h-index is modest, reflecting her growing scholarly impact. Awards and recognitions include funding and acceptance of her thesis work and top conference presentations. She brings strong experience in MATLAB, LTSpice, LaTeX, LabVIEW, embedded C, and hardware prototyping using Arduino/ESP32. Motivated by innovation in robotics and sensor systems, she seeks to contribute reliably to impactful research and engineering. Ritu’s trajectory indicates a promising future in sensor-control integration and robotic instrumentation.

Profiles: Scopus | Google Scholar | Orcid

Featured Publication

Shekhar, A., Ranjan, R., & Mandal, S. (2024). Model of double optical ring resonator configuration as a biosensor using FDTD numerical method. Optical and Quantum Electronics, 57(1), 35.

Ranjan, R., & Meena, G. D. (2022). PID and backstepping controller on a 2-link biped robot. In 2022 2nd International Conference on Emerging Frontiers in Electrical and Electronic Technologies (ICEFEET) (pp. xx–xx). IEEE.

Ranjan, R., & Meena, G. D. (2022). Trajectory tracking of 3-link biped leg robot using PD controller and robust variable structure controller. In 2022 IEEE 19th India Council International Conference (INDICON) (pp. 1–6). IEEE.

Ranjan, R., & Mandal, S. (2025). Quantification methodologies of three systematic errors of sinusoidal encoders employing two magnitude-to-time-to-digital converter in static and dynamic conditions. Measurement, 253, 117361. Elsevier.

Ranjan, R., Shekhar, A., & Mandal, S. (2025). Development of a tunneling magneto-resistance sensor based orientation detection system for robotic manipulator. In 2025 6th International Conference on Recent Advances in Information Technology (RAIT) (pp. xx–xx). IEEE.