Devender Singh | Robotics and Automation | Young Innovator Award

Published on by Innovation Technologist

Mr. Devender Singh | Robotics and Automation | Young Innovator Award

Uttaranchal University | India

Mr. Devender Singh is an emerging researcher in Internet of Things (IoT), Artificial Intelligence (AI), and smart device engineering, with a strong focus on real-time monitoring systems and intelligent automation. His work integrates embedded systems, wireless communication, and cloud-based analytics to develop scalable, application-oriented solutions across domains such as smart agriculture, healthcare, surveillance, and environmental monitoring. He has contributed to multiple patents and interdisciplinary innovations, emphasizing practical deployment and societal impact. His research also extends to AI-driven diagnostics, edge computing, and blockchain-integrated IoT systems, demonstrating a commitment to advancing next-generation intelligent infrastructure and sustainable technological ecosystems.

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View Google Scholar Profile  View ORCID Profile

Featured Publications


Secure and smart healthcare system using IoT and deep learning models

– International Conference on Technological Advancements, 2022 | Cited by: 121

Mg-based metal matrix composite in biomedical applications: a review

– Materials Today: Proceedings, 2023 | Cited by: 19 

Pascal Vrignat | Industry 4.0 | Research Excellence Award

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Dr. Pascal Vrignat | Industry 4.0 | Research Excellence Award

Prisme Laboratory at Orleans University | France

Pascal Vrignat is a researcher specializing in operational safety, diagnostics, prognostics, and maintenance strategies for complex systems, with particular expertise in Markovian and stochastic models. His work significantly advances methods for estimating system degradation using survival laws, hidden Markov models, and Remaining Useful Life approaches. He contributes to understanding system obsolescence and managing shortages across the life cycle of industrial systems. His research bridges theory and industrial application, encompassing industrial computing, advanced process control, human–machine interfaces, SCADA systems, IoT, M2M technologies, and digital communication protocols, including OPC-based architectures. He has an extensive record of scientific output, including journal publications, conference papers, book chapters, and a widely used textbook on industrial local networks. His recent works address bearing degradation monitoring and the role of AI in sustainability-focused applications. He is active in research project development, editorial responsibilities, and academic leadership within his institution and research laboratory. His contributions to industry-oriented R&D have earned recognition in international automation competitions. His scholarly impact is reflected in 618 citations (405 since 2020), an h-index of 10 (7 since 2020), and an i10-index of 13 (6 since 2020), underscoring his sustained influence in the fields of reliability engineering, automation, predictive maintenance, and digital industrial systems.

Profiles: Orcid | Google Scholar

Featured Publications

Vrignat, P., Kratz, F., & Avila, M. (2022). Sustainable manufacturing, maintenance policies, prognostics and health management: A literature review. Reliability Engineering & System Safety, 218, 108140. https://doi.org/10.1016/j.ress.2021.108140
Cited by: 152

Pascal, V., Toufik, A., Manuel, A., Florent, D., & Kratz, F. (2019). Improvement indicators for total productive maintenance policy. Control Engineering Practice, 82, 86–96. https://doi.org/10.1016/j.conengprac.2018.09.019
Cited by: 81

Vrignat, P., Avila, M., Duculty, F., & Kratz, F. (2015). Failure event prediction using hidden Markov model approaches. IEEE Transactions on Reliability, 64(3), 1038–1048. https://doi.org/10.1109/TR.2015.2426458
Cited by: 49

Aggab, T., Avila, M., Vrignat, P., & Kratz, F. (2021). Unifying model-based prognosis with learning-based time-series prediction methods: Application to Li-ion battery. IEEE Systems Journal, 15(4), 5245–5254. https://doi.org/10.1109/JSYST.2021.3080125
Cited by: 32

Vrignat, P., Avila, M., Duculty, F., Aupetit, S., Slimane, M., & Kratz, F. (2012). Maintenance policy: Degradation laws versus Hidden Markov Model availability indicator. Proceedings of the Institution of Mechanical Engineers, Part O: Journal of Risk and Reliability, 226(2), 137–155. https://doi.org/10.1177/1748006X11406335
Cited by: 21

 

Ruiming Xie | Robotics | Best Researcher Award

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Dr. Ruiming Xie | Robotics | Best Researcher Award

Student at Nanjing University of Science and Technology | China

Ruiming Xie is a dedicated researcher in the field of control theory, with a strong focus on stochastic nonlinear systems. She holds a master’s degree from Shandong University, China, and is currently pursuing her doctoral studies at Nanjing University of Science and Technology. Her academic journey reflects a deep commitment to advancing theoretical and applied aspects of control systems, particularly in the context of uncertainty and complex dynamical environments. Through rigorous research and innovative approaches, she has contributed valuable insights that enhance the understanding and development of stochastic control methodologies. Ruiming Xie has authored and co-authored multiple research papers, with 11 published documents that have collectively received 121 citations from 104 sources, demonstrating the impact and recognition of her work within the scientific community. Her research contributions have appeared in highly respected international journals, including IEEE Transactions on Automatic Control, IEEE Transactions on Cybernetics, the International Journal of Systems Science, and SCIENCE CHINA Information Sciences. She currently holds an h-index of 6, reflecting both the quality and influence of her scholarly output. Her work demonstrates a high level of analytical skill, mathematical precision, and a passion for solving intricate problems in system dynamics and automation. With her continuous pursuit of academic excellence, Ruiming Xie aims to expand the frontiers of control theory and its applications in real-world systems, fostering advancements that bridge the gap between theoretical models and practical engineering solutions. Her growing scholarly record underscores her potential as an emerging leader in control systems research, with a strong commitment to innovation, collaboration, and scientific progress.

Profile: Scopus

Featured Publications

Automatica. (2024). Erratum: Retraction notice to “Fixed-time Lyapunov criteria of stochastic nonlinear systems revisited and its applications” [Automatica 170 (2024) 111866]. Automatica, 170, S0005109824003601.