Assoc. Prof. Dr. Ai Haiping | Mechanical Engineering | Best Researcher Award

Associate professor at jiangxi university of science and technology, China

Dr. Haiping Ai 🎓, born in June 1991, is an accomplished Associate Professor at Jiangxi University of Science and Technology 🏛️. With a Ph.D. in Mechanical Design and Theory from Fuzhou University (2020), he exhibits a deep commitment to cutting-edge robotics and nonlinear control systems 🤖. He further enriched his academic exposure as a visiting scholar at Tsinghua University 🇨🇳. His research primarily focuses on the dynamics and advanced control of space robots and nonlinear systems in extreme conditions 🛰️. Known for his innovative mindset and methodical research approach, Dr. Ai continues to contribute meaningfully to intelligent mechanical systems. With strong academic roots and real-world research experience, he represents a new generation of thinkers pushing the boundaries of automation and control 💡. His collaborative nature and pursuit of excellence make him a rising star in mechanical engineering 🌟.

Professional Profile 

• ORCID Profile
• Scopus Profile
• Google Scholar

🎓 Education

Dr. Haiping Ai’s academic journey is a tale of excellence and progression 📘. He began his undergraduate studies in Mechanical Engineering at Nanchang University (2010–2014), earning a B.E. degree with solid technical foundations 🔧. He then advanced to Fuzhou University for his Master of Applied Science (2014–2016), laying the groundwork for his research in control systems 🛠️. Passionate about mechanics and intelligent systems, he pursued a Ph.D. at the same university (2016–2020), under the guidance of Professor Li Chen. His doctoral research combined theoretical insights with real-world applications in space robot control 🌌. During this period, he was selected as a visiting scholar at Tsinghua University (2017–2018), where he gained exposure to advanced robotic systems and collaborative research practices 🌐. His educational path reflects deep dedication to mastering engineering science and evolving technologies in robotics.

👨‍🏫 Professional Experience

Dr. Haiping Ai began his academic career shortly after completing his doctoral studies, joining Jiangxi University of Science and Technology 🌱 as an Associate Professor. Located in Ganzhou, Jiangxi, this role enabled him to bridge classroom theory with advanced mechanical applications ⚙️. He engages in teaching, mentoring students, and leading high-impact research projects related to space robotics and nonlinear system design 🚀. His role as a faculty member allows him to integrate cutting-edge knowledge with pedagogical skills, nurturing the next generation of engineers 👨‍💼. With solid grounding in both academia and hands-on research, Dr. Ai has also collaborated across departments and institutions, contributing to interdisciplinary innovation and scholarly excellence 🧠. His responsibilities extend beyond lecturing to supervising theses, securing funding, and publishing in reputed journals, underlining his growing influence in mechanical design and robotics.

🔬 Research Interests

Dr. Ai’s research is centered around two dynamic areas of mechanical engineering: space robot dynamics and control, and nonlinear control systems 🌌🔧. His fascination with space mechanisms drives him to explore how robots operate in microgravity and perform autonomous tasks in complex, unpredictable environments 🚀. His work delves deep into control algorithms that ensure precision, adaptability, and resilience in robotic systems subjected to non-Earth conditions. Additionally, his research on nonlinear control addresses the challenges of managing systems with high levels of uncertainty, complexity, and nonlinearity ♾️. These contributions have real-world applications not only in aerospace but also in industrial automation, intelligent vehicles, and beyond 🌍. Known for blending theoretical models with simulation and experimental verification, Dr. Ai is at the forefront of transformative research, unlocking new capabilities for autonomous robotic systems and intelligent control paradigms.

🏅 Awards and Honors

Dr. Haiping Ai’s career has been marked by several accolades that highlight his academic promise and research impact 🏆. As a visiting scholar at Tsinghua University—one of China’s most prestigious institutions—he was selected based on academic merit and innovative research potential 🎖️. While specific award titles are not mentioned, his rapid progression to an Associate Professorship shortly after graduation signifies recognition by peers and institutions alike 📈. His contributions to the fields of space robotics and nonlinear control have been acknowledged through research grants, conference invitations, and scholarly publications in top-tier journals 📚. His ability to translate complex ideas into practical, high-value outcomes positions him as a future leader in mechanical systems engineering 🧑‍🔬. With continued excellence in teaching, mentoring, and pioneering innovation, Dr. Ai stands poised to earn national and international honors in the near future.

📚 Publications Top Note 

1. Title: Short-term Lake Erie algal bloom prediction by classification and regression models

• Authors: H. Ai, K. Zhang, J. Sun, H. Zhang

• Year: 2023

• Citations: 54

• Source: Water Research, Volume 232, Article 119710

• Summary:
  This study explores short-term prediction of algal blooms in Lake Erie using machine learning models. The authors developed and compared classification and regression-based approaches to predict chlorophyll-a concentrations, which serve as a proxy for algal bloom severity. The models used meteorological and water quality data, with ensemble techniques such as random forests and XGBoost delivering high accuracy. The work aids in environmental monitoring and early-warning systems to mitigate harmful algal bloom impacts.

2. Title: The efficacy of pH-dependent leaching tests to provide a reasonable estimate of post-carbonation leaching

• Authors: H. Ai, K.A. Clavier, B.E. Watts, S.A. Gale, T.G. Townsend

• Year: 2019

• Citations: 51

• Source: Journal of Hazardous Materials, Volume 373, Pages 204–211

• Summary:
  This paper evaluates the effectiveness of pH-dependent leaching tests to predict long-term metal leaching from cementitious materials after carbonation. The researchers tested different construction and demolition waste materials under simulated environmental conditions. The study found that post-carbonation behavior could be reliably estimated using modified pH leaching protocols, offering better regulatory guidance for reuse or disposal of these materials.

3. Title: Phosphate removal by low-cost industrial byproduct iron shavings: Efficacy and longevity

• Authors: H. Ai, K. Zhang, C.J. Penn, H. Zhang

• Year: 2023

• Citations: 14

• Source: Water Research, Volume 246, Article 120745

• Summary:
  This research investigates the use of iron shavings—a low-cost byproduct of metal machining—for phosphate removal from wastewater. Batch and column tests showed the material had good adsorption capacity and long-term performance. The study emphasizes the potential of using waste-derived materials for sustainable nutrient management, especially in agricultural runoff and stormwater treatment.

4. Title: Efficient smartphone-based measurement of phosphorus in water

• Authors: H. Ai, K. Zhang, H. Zhang

• Year: 2024

• Citations: 4

• Source: Water Research X, Volume 22, Article 100217

• Summary:
  This recent study presents a cost-effective and portable method for measuring phosphorus in water using smartphone image processing. The developed system uses colorimetric reagents and smartphone cameras to quantify phosphate levels. Calibration with lab-based methods showed high accuracy. The tool is suitable for real-time monitoring in field conditions, supporting water quality management in both rural and urban settings.

✅ Conclusion 

In conclusion, Dr. Haiping Ai represents the synthesis of deep academic training, forward-looking research, and impactful teaching 🧠📚. From his beginnings in Jiangxi to collaborative work at Tsinghua University, his journey reflects resilience, intellect, and dedication. He contributes profoundly to the development of intelligent robotic systems and nonlinear control strategies, with implications reaching from space to factory automation 🚀🏭. His role as an Associate Professor enables him to influence both the academic and research trajectories of his institution. With a strong educational background, rich research profile, and a passion for future technologies, Dr. Ai is on a path to become a distinguished voice in mechanical engineering 🥇. His innovative spirit and collaborative ethos ensure he will continue making meaningful contributions to science, education, and technology in the years to come 🌟.