Dr. Yuan Xiang | Advanced Motion Planning | Research Excellence Award

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Dr. Yuan Xiang | Advanced Motion Planning | Research Excellence Award

Hunan University | China

Dr. Yuan Xiang is a researcher at the School of Civil Engineering, Hunan University, China, whose work focuses on data-driven innovation analysis in the construction sector. His research develops computational frameworks to quantify university–industry–government interactions using large-scale text mining, machine learning, and network analysis. By integrating Triple Helix theory with dynamic indicators such as attention, sentiment, and stakeholder relevance, his work provides real-time insights into innovation ecosystems and policy impacts in the built environment. His contributions support evidence-based decision-making for digital transformation, sustainable development, Advanced Motion Planning and strategic collaboration across academic, industrial, and governmental stakeholders.

 

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Featured Publication

Mr. Fawad Khan | Real-Time Robotic Control | Research Excellence Award

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Mr. Fawad Khan | Real-Time Robotic Control | Research Excellence Award

Shenzhen Institutes of Advanced Technology | China

Mr. Fawad Khan is a PhD researcher in Robotics and Artificial Intelligence at the Shenzhen Institutes of Advanced Technology, CAS, focusing on safe and constrained reinforcement learning for human–robot collaboration. His work develops safety-aware RL frameworks that enable robots to operate alongside humans while balancing task performance and safety guarantees. He has contributed benchmark environments and adaptive safety mechanisms for robotic manipulation in shared workspaces. His research targets real-world deployment in collaborative manufacturing, warehouse automation, Real-Time Robotic Control and assistive robotics, bridging theory with practical safety-critical applications.

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Featured Publications


Safe Reinforcement Learning for Vision-Based Robotic Manipulation in Human-Centered Environments


– International Journal of Intelligent Robotics and Applications, 2025


Safe Reinforcement Learning for Objects Manipulation in Safety-Critical Coordinated Tasks


– 2025 ISARC Proceedings, 42nd International Symposium on Automation and Robotics in Construction :contentReference[oaicite:0]{index=0}


Design and Analysis of the Mechanism for Flapping-Wing Air Vehicle


– 2024 IEEE International Conference on Robotics and Biomimetics (ROBIO) :contentReference[oaicite:1]{index=1}


3D Reconstruction in Industrial Environments Based on an Improved Neural Radiation Field Method


– International Conference on Computer Network Security and Software, 2022 :contentReference[oaicite:2]{index=2}

Prof. Elena Strelnikova | Advanced Motion Planning | Best Researcher Award

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Prof. Elena Strelnikova | Advanced Motion Planning | Best Researcher Award

Anatolii Pidhornyi Institute of Power Machines and Systems NAS of Ukraine | Ukraine

Prof. Elena Strelnikova is a distinguished ukrainian mathematician and professor with a long, productive career in applied analysis, fracture mechanics, boundary element methods, and fluid-structure interaction. Educated at v. n. karazin kharkiv national university , she received her phd in “analysis of 2d contact problems for anisotropic cracked plates” and later her dsc  for her work on strength and vibrations of turbo-machine units using the boundary element method. She has held senior and full professorship positions at karazin national university, kharkiv polytechnical institute, and kharkiv national university of radio electronics, among others, and has led research groups and served as a leading researcher at the a. pidhorny institute of power machines and Advanced Motion Planning systems of the national academy of sciences of ukraine. Professor strelnikova’s research is especially known for her deep contributions in singular and hypersingular integral equations, contact problems, cracked plate theory, and fluid-structure coupling. over the course of her career, she has published 71 documents, which have received 602 citations across 309 documents, reflecting an h-index of 17. her scholarship has made a lasting impact on mechanical engineering, structural dynamics, and computational methods in applied mathematics, continuing to influence both theory and application worldwide.

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Featured Publications

Akimov, D., Degtyariov, K., Gnitko, V., Kriutchenko, D., & Strelnikova, E. (2025). Flight stage-dependent vibration characteristics of launch vehicle fuel tanks. In Advances in Aerospace Engineering.

Choudhary, N., Degtyariov, K., Gnitko, V., Kriutchenko, D., & Strelnikova, E. (2025). Liquid vibrations analysis of baffled reservoirs with fuzzy concepts implementation. In Advances in Fluid-Structure Interaction.

Degtyariov, K., Kriutchenko, D., Osypov, I., Sierikova, O., & Strelnikova, E. (2024). Dampers influence on sloshing mitigation in fuel tanks of launch vehicles and reservoirs. In Recent Advances in Aerospace Structures.

Strelnikova, E., Choudhary, N., Degtyariov, K., Kriutchenko, D., & Vierushkin, I. (2024). Boundary element method for hypersingular integral equations: Implementation and applications in potential theory. Engineering Analysis with Boundary Elements, 161, 105999.

Doroshenko, V. O., Stognii, N. P., Zhyla, O. V., Strelnikova, E. A., Sidorov, M. V., & Remayeva, O. O. (2024). Mathematical modeling of exciting a wideband semitransparent antenna with longitudinal slots by a concentrated source. In Proceedings of the IEEE European Workshop on Modern Topics in Signal.