Yanhe Song | Fluid Power Transmission and Control | Academic Brilliance Star Award

Posted on by Academic achievements

Mr. Yanhe Song | Fluid Power Transmission and Control | Academic Brilliance Star Award

Doctoral student | Yanshan University | China

Yan-he Song is a prominent researcher in the field of fluid power transmission and control, currently pursuing his Ph.D. at Yanshan University under the guidance of Prof. Xiang-dong Kong. With a solid academic background and a record of significant contributions, he is recognized for his innovative research and impactful work in nonlinear dynamics, hydraulic systems, and electromagnetics. He has also been involved in various research projects and has been awarded several prestigious scholarships for his academic excellence.

Profile

ORCID

Strengths for the Award:

  1. Strong Research Contributions:
    • High Impact Publications: Yan-he Song has published nine representative academic papers in reputable journals with solid impact factors (e.g., Nonlinear Dynamics, Mechanism and Machine Theory, Robotics and Autonomous Systems). The high impact factor of journals like Nonlinear Dynamics (5.600) and Mechanism and Machine Theory (5.200) highlights the significance and quality of his research.
    • Innovative Patents: He holds eight patents related to fluid power transmission and control, showcasing his ability to translate research into practical applications. These patents include novel designs and methods, which demonstrate innovation and a strong contribution to the field.
  2. Relevant Research Projects:
    • His involvement in diverse and impactful research projects funded by notable institutions like the National Natural Science Foundation of China and various industry partners indicates his research is both relevant and of high importance.
  3. Academic Recognition:
    • Yan-he Song has received several awards, including the National Scholarship for Postgraduate in 2023 and the National Inspirational Scholarship in previous years. These accolades reflect his academic excellence and dedication.
  4. Professional Engagement:
    • His active role as a reviewer for Machine Design & Research and membership in multiple engineering societies indicates his involvement in the academic community and commitment to advancing his field.

Areas for Improvement:

  1. Broader Academic Outreach:
    • While Yan-he Song has a strong focus on fluid power transmission and control, broadening his research to intersect with other emerging areas or interdisciplinary fields might enhance his impact and visibility.
  2. Increased Collaboration:
    • Expanding collaborations with international researchers or institutions could provide additional perspectives and contribute to more diverse research outcomes.
  3. Public Engagement:
    • Increasing public engagement or outreach activities related to his research might help in translating academic work into broader societal impacts, thereby increasing his profile.

Education

Yan-he Song embarked on his academic journey with a Bachelor’s degree in Mechanical Design Manufacturing and Automation from Yanshan University, graduating in June 2020. He is currently a Ph.D. candidate at Yanshan University, specializing in Fluid Power Transmission and Control. Additionally, he is a visiting researcher at the Technical University of Lodz, focusing on Nonlinear Dynamics under the mentorship of Prof. Tomasz Kapitaniak.

Experience

Since September 2020, Yan-he Song has been a Ph.D. candidate at Yanshan University, working on advanced topics in Fluid Power Transmission and Control. His role involves conducting cutting-edge research, contributing to high-impact publications, and collaborating on significant projects. His academic experience is complemented by his current position as a visitor at the Technical University of Lodz, where he is engaged in further research on nonlinear dynamics.

Research Interests

Yan-he Song’s research interests are centered on fluid power transmission and control, nonlinear dynamics, and electromagnetics. His work focuses on enhancing the performance and efficiency of hydraulic systems, developing novel control methods for hydraulic components, and improving the stability and dynamic behavior of complex systems. His research aims to address practical challenges in these areas and contribute to the advancement of technology in fluid power systems.

Awards

Yan-he Song has been honored with several prestigious awards, including the National Scholarship for Postgraduate in 2023, which recognizes outstanding academic achievements. He also received the Hebei Province College Student TRIZ Special Competition third prize in 2020 and the Excellent Graduation Design Award from Yanshan University in 2020. Additionally, he has been a recipient of the National Inspirational Scholarship for two consecutive years (2017-2019).

Publications

Yan-he Song, Kai-xian Ba*, Yuan Wang, Jun-xiao Zhang, Bin Yu, Qi-wei Zhang, Xiang-dong Kong*. “Study on Nonlinear Dynamic Behavior and Stability of Aviation Pressure Servo Valve-Controlled Cylinder System,” Nonlinear Dynamics, 108(4), 2022: 3077-3103. Cited by: 75

Yan-he Song, Kai-xian Ba*, Xin Chen, Yue-yue Hao, Chao Ai, Xiang-dong Kong. “Polynomial Excitation Current Compensation Control for Dead Zone and Hysteresis of Three-way Proportional Pressure Reducing Valve,” International Journal of Control, Automation and Systems, 22(7), 2024: 2142-2157. Cited by: 15

Yan-he Song, Guo-zhao Shi, Cheng-ze Gu, Ze-yu Cao, Kai-xian Ba*, Yue-yue Hao, Xiang-dong Kong. “An Improved Method for Calculating the Power Consumption of Electromagnet Coil,” Machines, 12(9), 2024: 602. Cited by: 8

Yan-he Song, Liu Yang*, Xin Chen, Tian-xiong Gao, Yue-yue Hao, Chao Ai, Xiang-dong Kong. “A Novel Temperature Rise Calculation Method of Electromagnet DC Coil,” IEEJ Transactions on Electrical and Electronic Engineering, 18(11), 2023. Cited by: 12

Yan-he Song, Liu Yang*, Xin Chen, Wen-tao Zhou, Tie-chao Qiu, Yue-yue Hao, Chao Ai, Xiang-dong Kong. “Optimization Design of DC Electromagnet Coil Considering the Power Consumption and Cost,” IEEJ Transactions on Electrical and Electronic Engineering, 19(8), 2024. Cited by: 5

Kai-xian Ba, Yan-he Song, Ya-peng Shi, Chun-yu Wang, Guo-liang Ma, Yuan Wang, Bin Yu*. “A Novel One-Dimensional Force Sensor Calibration Method to Improve the Contact Force Solution Accuracy for Legged Robot,” Mechanism and Machine Theory, 169, 2022: 104685. Cited by: 60

Kai-xian Ba, Yan-he Song, Bin Yu*, Chun-yu Wang, Hua-shun Li, Jun-xiao Zhang, Guo-liang Ma*. “Kinematics Correction Algorithm for the LHDS of a Legged Robot with Semi-Cylindrical Foot End based on V-DOF,” Mechanical Systems and Signal Processing, 167, 2022: 108566. Cited by: 45

Kai-xian Ba, Yan-he Song, Chun-yu Wang, Ya-peng Shi, Bin Yu*, Xin Chen, Guo-liang Ma, Xiang-dong Kong. “A Novel Kinematics and Statics Correction Algorithm of Semi-Cylindrical Foot End Structure for 3-DOF LHDS of Legged Robots,” Complex & Intelligent Systems, 6(8), 2022: 5387-5407. Cited by: 20

Kai-xian Ba, Yan-he Song, Bin Yu*, Xiao-long He, Zhi-peng Huang, Chun-he Li, Li-peng Yuan, Xiang-dong Kong. “Dynamics Compensation of Impedance-based Motion Control for LHDS of Legged Robot,” Robotics and Autonomous Systems, 139, 2021: 103704. Cited by: 30

Conclusion:

Yan-he Song is a compelling candidate for the Research for Academic Brilliance Star Award. His significant contributions to the field of fluid power transmission and control, as evidenced by his high-impact publications, innovative patents, and successful research projects, strongly support his candidacy. His academic awards and active professional engagement further underscore his excellence and potential for continued impact. Addressing the areas for improvement could enhance his future contributions and academic standing. Overall, Yan-he Song’s achievements and contributions make him a highly suitable nominee for this prestigious award.