Prof. Yong Xie , Xi’an Jiaotong University, China
Prof. Yong Xie is a distinguished professor at Xiβan Jiaotong University, specializing in nonlinear oscillations and neurodynamics π§ . He earned his B.S., M.S., and Ph.D. in Engineering Mechanics and Vibration from the same university π. His research explores structural vibration modes and neuronal network dynamics with topological variations. Prof. Xie completed a postdoctoral fellowship at the University of Tokyo π―π΅ and has over 18 years of academic experience. He received the Excellent Doctoral Thesis Award (2004) and First Prize in Science & Technology from Shaanxi University (2017) π
. He remains dedicated to advancing interdisciplinary research in aerospace and neuroscience
Publication Profile
Scopus
πΌ Professional Experience
Prof. Yong Xie has accumulated a wealth of academic and research experience over the past two decades π§βπ«. Since 2006, he has served as an Associate Professor at the School of Aerospace Engineering, Xiβan Jiaotong University, China π¨π³. From 2006 to 2008, he was a Postdoctoral Researcher at the Laboratories for Mathematics, Lifesciences, and Informatics, University of Tokyo, Japan π―π΅, where he deepened his interdisciplinary expertise π¬. Earlier in his career, from 2004 to 2005, he held the position of Lecturer at the MOE Key Laboratory for Strength and Vibration, contributing to foundational research in mechanical structures
π Educational Background
Prof. Yong Xie has pursued his entire academic journey at Xiβan Jiaotong University π¨π³, building a strong foundation in engineering mechanics and vibration dynamics. He earned his Ph.D. (2000β2004) from the State Key Laboratory for Strength and Vibration of Mechanical Structures, School of Aerospace βοΈ. Prior to that, he completed his M.S. (1997β2000) in the same prestigious laboratory π οΈ. His academic path began with a B.S. (1993β1997) from the Department of Engineering Mechanics, where he developed the core expertise that continues to drive his research in nonlinear systems and structural dynamics
π¬ Research Interests
Prof. Yong Xieβs research is centered on nonlinear oscillations and neurodynamics, blending principles of mechanics and neuroscience π§ βοΈ. His work delves into structural vibration modes, exploring how complex physical systems behave under oscillatory motion π. A key focus lies in understanding the mechanisms behind neuronal firing patterns and how these contribute to signal transmission and processing in the brain π. He also investigates the dynamic behavior of neuronal networks with diverse topological structures, aiming to uncover patterns and responses in interconnected neural systems π§©. His interdisciplinary research bridges aerospace engineering and computational neuroscience effectively
π Honors and Awards
Prof. Yong Xie has been recognized for his exceptional academic and research contributions ποΈ. In 2004, he received the Excellent Doctorate Thesis Award from Xiβan Jiaotong University, a prestigious recognition of his scholarly excellence during his Ph.D. studies ππ. Further cementing his impact in the scientific community, he was honored with the First Prize in the Science and Technology Award by Shaanxi University in 2017 π₯π¬. These accolades reflect his consistent pursuit of innovation and his contributions to both the academic and technological advancement of engineering and neurodynamics in China
π§ͺ Research Focus
Prof. Yong Xieβs research lies at the intersection of computational physics, neurodynamics, and thermal engineering π§ π‘οΈ. He specializes in nonlinear systems, focusing on neuronal network modeling, chimera states, and synchronization behavior π. Additionally, his work extends to thermal conductivity modeling in multi-phase and hybrid composite materials, using advanced homogenization techniques π¬βοΈ. His interdisciplinary studies bridge engineering mechanics, material science, and complex systems theory π§©. These efforts contribute to innovations in aerospace, neuroscience, and applied physics, reflecting a research focus in nonlinear dynamics, materials engineering, and computational modeling
Publication Top Notes
π Unified homogenization model for accurate prediction of effective thermal conductivity in multi-phase particle-reinforced composites β Materials Today Communications, 2025 | π Cited by: 0 π
π§ Power spectrum based early warning signal of neuronal firing β Wuli Xuebao Acta Physica Sinica, 2025 | π Cited by: 0 π
π A review on methods for localization of hidden attractors β Journal name not listed, Year not listed | π Cited by: 0 π
π₯ Modeling of the effective thermal conductivity of multi-phase particle and core-shell hybrid composites by homogenization method β Int. Comm. in Heat and Mass Transfer, 2024 | π Cited by: 1 π
𧬠Alternating chimera states and synchronization in multilayer neuronal networks with ephaptic intralayer coupling β Cognitive Neurodynamics, 2024 | π Cited by: 0 π