Dr. Gun Rae Cho | Robotics & Automation | Excellence in Research Award

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Dr. Gun Rae Cho | Robotics & Automation | Excellence in Research Award

Dr. Gun Rae Cho | Korea Institute of Robotics and Technology Convergence | South Korea

Dr. Gun Rae Cho has significantly advanced the field of underwater robotics through pioneering research in autonomous marine systems, intelligent control, and mission-resilient subsea technologies. With 435 citations across 401 documents, 46 publications, and an h-index of 10, he has established a strong scientific footprint in marine autonomy and robotic innovation. His work encompasses robust control of AUVs, relative-motion–based multi-thruster coordination, and adaptive maneuvering strategies that ensure stability, precision, and reliability in turbulent, shallow-water, and highly turbid environments. Dr. Cho has led the development of digital-twin inspection systems for ports, dams, locks, and subsea infrastructure, integrating imaging sonar, inertial navigation, acoustic sensing, and AI-driven perception for high-fidelity autonomous inspection. He has also contributed to next-generation diver-assistance robotics and advanced teleoperation-assistance technologies for underwater manipulators, improving safety and efficiency in complex intervention tasks. Through leadership in major national R&D projects, he has strengthened Korea’s capabilities in maritime search operations, underwater infrastructure O&M, autonomous robotic fleets, and heavy-duty ROV industrialization. His extensive collaborations with universities, research institutes, and industry have produced practical robotic platforms and inspection solutions that support marine safety and technological growth. Collectively, his contributions position Korea at the forefront of intelligent ocean-technology development.

Profiles: Scopus | Orcid

Featured Publications

Cho, G. R., Kang, H., Li, J.-H., Kim, M.-G., Jin, H., Lee, M.-J., & Jin, S. (2025). Estimation of hydrodynamic coefficients for the underwater robot P-SUROII via constraint recursive least squares method. Journal of Marine Science and Engineering, 13(9), Article 1610.

Cho, G. R., Kang, H., Kim, M.-G., Lee, M.-J., Li, J.-H., Kim, H., Lee, H., & Lee, G. (2023). An experimental study on trajectory tracking control of torpedo-like AUVs using coupled error dynamics. Journal of Marine Science and Engineering, 11(7), Article 1334.

Li, J.-H., Kang, H., Kim, M.-G., Lee, M.-J., Cho, G. R., & Jin, H.-S. (2022). Adaptive formation control of multiple underactuated autonomous underwater vehicles. Journal of Marine Science and Engineering, 10(9), Article 1233.

Cho, G.-R., Ki, G., Lee, M.-J., Kang, H., Kim, M.-G., & Li, J.-H. (2021). Experimental study on tele-manipulation assistance technique using a touch screen for underwater cable maintenance tasks. Journal of Marine Science and Engineering, 9(5), Article 483.

Li, J.-H., Lee, M.-J., Kang, H., Kim, M.-G., & Cho, G. R. (2021). Design, performance evaluation, and field test of a water jet tool for ROV trencher. Journal of Marine Science and Engineering, 9(3), Article 296.

Cho, G. R., Ki, H., Li, J.-H., Lee, M., & Jee, S. C. (2018). Assisted teleoperation for underwater manipulation utilizing touch screen inputs. 2018 15th International Conference on Ubiquitous Robots (UR), 271–276.

 

Ms. Zhouhong Dai |Robotics | Best Scholar Award

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Ms. Zhouhong Dai |Robotics | Best Scholar Award 

Ms. Zhouhong Dai , Tianjin University of Science and Technology , China.

Ms. Zhouhong Dai 🎓 is a dynamic academic and researcher currently serving as a Supervisor of the Master’s Degree Program at Tianjin University of Science and Technology 🏫. With a strong background in Mechatronic Engineering and Mechanical Design ⚙️, he focuses on robotics, compliant control systems, and humanoid mechanisms 🤖. He has contributed significantly to both theoretical and applied aspects of mechanical engineering through impactful publications and patented innovations 📚🧠. His ongoing research supports advancements in aerospace assembly and intelligent robotic systems 🚀. Dr. Dai is recognized for blending academic depth with real-world industrial relevance 🏆.

Professional Profile

Scopus
Orcid

Education & Experience

🎓 Education:

  • 📅 Sep 2012 – Jun 2018: Ph.D. (Integrated Master’s & Doctoral Program), Mechatronic Engineering, Yanshan University

  • 🎓 Sep 2008 – Jul 2012: B.E., Mechanical Design, Manufacturing & Automation, Yanshan University

🧑‍🏫 Experience:

  • 🏫 Aug 2018 – Present: Lecturer, School of Mechanical Engineering, Tianjin University of Science and Technology

Suitability Summary

Ms. Zhouhong Dai, a forward-thinking academician and Supervisor of Master’s Degree Program at Tianjin University of Science and Technology, is a premier nominee for the Best Scholar Award. With a strong academic foundation from YanShan University and a specialization in mechatronic engineering, Dr. Dai has consistently demonstrated intellectual excellence and innovation throughout his career. His selection for the Best Scholar Award is supported by his groundbreaking research in robotic manipulation, aerospace control systems, and flexible actuator technologies. Dr. Dai has led multiple nationally recognized research projects,

Professional Development 

Ms. Dai continually enhances his academic and professional profile through collaborative research projects 🔬, industry partnerships 🤝, and academic publishing 📝. He has participated in major consultancy and control system projects for aerospace lifting operations and intelligent robotics 🚀🤖. With several SCI-indexed journal papers and innovation patents under his name 📘📈, he maintains a strong presence in the robotics and mechatronics research community. His commitment to both academia and industry ensures his contributions are both innovative and practical 🌍💡. As a mentor and supervisor, he actively supports the next generation of engineering leaders 👨‍🏫👩‍🔬.

Research Focus 

 Dai’s research primarily focuses on robotics, mechatronics, and aerospace systems 🤖🚀. His work encompasses compliant control, robotic manipulators, kinematic modeling, and stiffness analysis of hybrid serial-parallel systems 🔧📐. He is particularly interested in robotic arms with flexible actuation, precision positioning technologies, and automated spacecraft assembly 🛰️. Through a blend of theoretical modeling and practical implementation, his studies bridge academic knowledge with aerospace and industrial engineering applications 🌐⚙️. His research aims to enhance robotic intelligence, adaptability, and safety in complex environments, contributing to smarter, more efficient automation solutions 🤓💼.

Awards & Honors 

🏆 Awards & Honors:

  • 🏅 Recognized for multiple SCI-indexed journal publications

  • 🧠 Holder of innovative patents in robotic control systems

  • 📊 Contributed to nationally significant research projects in aerospace and intelligent robotics

  • 🎓 Appointed as Supervisor of the Master’s Program for academic excellence

  • 📈 Regular contributor to high-impact research journals and academic conferences

Publication Top Details

🛰️ 1. Analysis of Kinematics and Leveling Performance of a Novel Cable-Driven Parallel Automatic Leveling Robot for Spacecraft Hoisting

  • 📅 Published: June 10, 2025

  • 📘 Journal: Aerospace

  • 🔗 DOI: 10.3390/aerospace12060521

  • 👥 Authors: Zhuohong Dai, Nan Liu, Tengfei Huang, Xiangfu Meng, Weikang Lv, Ran Chen

📄 2. Analysis of Kinematics and Leveling Performance of a Novel Cable-Driven Parallel Automatic Leveling Robot for Spacecraft Hoisting (Preprint)
🤖 3. Precise Stiffness and Elastic Deformations of Serial–Parallel Manipulators by Considering Inertial Wrench of Moving Links

  • 📅 Published: December 2020

  • 📘 Journal: Robotica

  • 🔗 DOI: 10.1017/S0263574720000041

  • 👥 Authors: Yi Lu, Zhuohong Dai, Yang Lu

🧮 4. Full Forward Kinematics of Redundant Kinematic Hybrid Manipulator

  • 📅 Published: October 2018

  • 📘 Journal: Applied Mathematical Modelling

  • 🔗 DOI: 10.1016/j.apm.2018.05.025

  • 👥 Authors: Yi Lu, Zhuohong Dai, Peng Wang

🛠️ 5. Stiffness Analysis of Parallel Manipulators with Linear Limbs by Considering Inertial Wrench of Moving Links and Constrained Wrench

  • 📅 Published: August 2017

  • 📘 Journal: Robotics and Computer-Integrated Manufacturing

  • 🔗 DOI: 10.1016/j.rcim.2016.12.003

  • 👥 Authors: Yi Lu, Zhuohong Dai, Nijia Ye

🦾 6. Dynamics Analysis of Novel Hybrid Robotic Arm with Three Fingers

  • 📅 Published: December 2016

  • 📘 Journal: Robotica

  • 🔗 DOI: 10.1017/S0263574715000351

  • 👥 Authors: Yi Lu, Zhuohong Dai, Nijia Ye

⚙️ 7. Dynamics Model of Redundant Hybrid Manipulators Connected in Series by Three or More Different Parallel Manipulators with Linear Active Legs
🤲 8. Kinematics/Statics Analysis of a Novel Serial-Parallel Robotic Arm with Hand

  • 📅 Published: October 2015

  • 📘 Journal: Journal of Mechanical Science and Technology

  • 🔗 DOI: 10.1007/s12206-015-0939-7

  • 👥 Authors: Yi Lu, Zhuohong Dai, Nijia Ye, Peng Wang

Conclusion

Ms. Dai stands as an exemplary and highly deserving candidate for the Best Scholar Award. His achievements reflect the core values of this prestigious honor—innovation, scholarly impact, and academic leadership .Ms. Zhouhong Dai has consistently demonstrated exceptional academic excellence, research innovation, and practical impact in the fields of robotics, mechatronics, and intelligent control systems.