Assoc Prof Dr. Peng Tian | Automation | Best Researcher Award
Interdisciplinary Applications:
- His work in both intelligent brewing and power systems indicates an innovative approach to applying automation and power electronics principles across industries, which is particularly valuable for awards focused on research impact and interdisciplinary application.
Assoc Prof Dr. Peng Tian ,Moutai Institute, China
Profile
🌱EARLY ACADEMIC PURSUITS
- Peng Tian was born in Sichuan, China, in 1991. His academic journey began with a Bachelor’s degree in Automation from Guizhou University, Guiyang, China, where he graduated in 2014. Building on his passion for power electronics and control systems, he pursued a Ph.D. in Power Electronic Equipment and Systems at the same university, completing it in 2021. His academic foundation in these fields laid the groundwork for a promising career in both automation and sustainable technology.
💼 PROFESSIONAL ENDEAVORS
- Currently, Peng Tian serves as an Associate Professor in the Department of Automation at Moutai Institute. His role involves teaching, mentoring, and contributing to research in the automation discipline. At Moutai Institute, Peng Tian focuses on advancing automation in diverse applications, especially in the field of intelligent brewing and energy conservation. His professional journey reflects a commitment to applying automation for the enhancement of traditional and emerging industries.
🔬CONTRIBUTIONS AND RESEARCH FOCUS
- Peng Tian’s research interests lie in control of intelligent brewing and energy conservation and emission reduction, areas where he combines automation techniques with practical applications. Additionally, his work on stability control of power electronic systems is crucial for the reliability and safety of modern electronic applications. His research stands at the intersection of traditional brewing industries and innovative power systems, making unique contributions to both fields.
📚ACADEMIC CITES
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As an emerging scholar, Peng Tian has received citations in journals and conferences related to power electronics and sustainable automation practices. His research is gaining recognition for its practical applications, particularly in China’s growing intelligent brewing sector. By bridging automation with sustainability, his academic work is cited by peers interested in environmentally friendly technological advancements.
🌍IMPACT AND INFLUENCE
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Through his research, Peng Tian has influenced sustainable development in the brewing industry by promoting energy-efficient processes and emission reduction techniques. His innovations in power electronic system stability contribute to the broader automation field by ensuring safer, more reliable power systems. Peng Tian’s interdisciplinary approach connects automation, environmental sustainability, and traditional industries, driving progress in both academic and industrial spheres.
🌟LEGACY AND FUTURE AND CONTRIBUTIONS
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Looking forward, Peng Tian aims to further his research in automation’s role in sustainability and industry-specific applications like brewing. His vision for the future includes fostering industry partnerships to bring his research findings into real-world practice, with a focus on achieving more efficient and environmentally friendly automation systems. Peng Tian’s commitment to energy conservation, emissions reduction, and stability control marks him as a forward-thinking researcher set to make lasting contributions to both automation and environmental sustainability.
📄Publications
- A Communication-Free Master–Slave Control of Cascaded-Type DC Microgrids With Nondispatchable Generations
Authors: Li, L.; Tian, P.; Zhou, K.; Yan, G.
Journal: International Journal of Circuit Theory and Applications, 2024 - A Communication-Free Adaptive Virtual Inertia Control of Cascaded-Type VSGs for Power Oscillation Suppression
Authors: Li, L.; Sun, Y.; Liu, Y.; Tian, P.; Shen, S.
Journal: International Journal of Electrical Power and Energy Systems, 2023, Volume 149, Article 109034 - Scanning, Attention, and Reasoning Multimodal Content for Sentiment Analysis
Authors: Liu, Y.; Li, Z.; Zhou, K.; Tian, P.; Shen, S.
Journal: Knowledge-Based Systems, 2023, Volume 268, Article 110467 - A Distributed Decentralized Cooperative Control Scheme for Microgrids
Authors: Li, L.; Luo, Z.; Tian, P.; Liu, Y.; Zhang, C.
Journal: IET Generation, Transmission and Distribution, 2023, Volume 17, Issue 5, Pages 1059–1069 - A Decentralized Control With Adaptive Virtual Inertia and Damping Combination for Islanded Cascaded-Type VSG Systems
Authors: Li, L.; Zhou, K.; Tian, P.
Journal: IEEE Access, 2023, Volume 11, Pages 139272–139283