Research Assistant Professor College of Science, Department of Statistics and Data Science

Zhejun Huang is a research assistant professor in the Department of Statistics and Data Science at the Southern University of Science and Technology (SUSTech). He obtained his Ph.D. in mathematics in 2017 from the University of New South Wales (UNSW), Australia. He was a postdoctoral fellow at UNSW and Shenzhen Institutes of Advanced Technology (SIAT), Chinese Academy of Sciences. His research interests are public safety and emergency management, disaster risk analysis, disaster response for decision making, disaster risk reduction and management, decision making and control for autonomous vehicles, and reaction-diffusion models. Dr. Huang has published more than ten papers in international high-level journals and conferences.

Personal Profile

Research

Public Safety and Emergency Management

Disaster Risk Analysis

Disaster Response for Decision Making

Disaster Risk Reduction and Management

Decision Making and Control for Autonomous Driving Vehicles

Reaction-Diffusion systems


Publications Read More

  • Huang Z, Li H, Li W, Liu J, Huang C, Yang Z, Fang W. (2021) A New Trajectory Tracking Algorithm for Autonomous Vehicles Based on Model Predictive Control. Sensors, 21(21), 7165.
  • Li W., Li H, Xu K., Huang Z., Li K., Du H. (2021). Estimation of Vehicle Dynamic Parameters Based on the Two-Stage Estimation Method. Sensors, 21, 3711.
  • Fang W., Zhang S., Huang H., Dang S., Huang Z., Li W., Sun T., Li H. (2020). Learn to Make Decision with Small Data for Autonomous Driving: Deep Gaussian Process and Feedback Control. Journal of Advanced Transportation, 2020, 8495264.
  • Watt S., Huang Z., Sidhu H.S., McIntosh A.C., Brindley, J. (2020). One-dimensional chaotic laminar flow with competitive exothermic and endothermic reactions. The ANZIAM Journal, 1-23.
  • Huang Z., Sidhu H.S., Towers I.N., Jovanoski Z., Watt S., Gubernov V.V. (2020). Properties of nonadiabatic combustion waves in competitive exothermic reactions. Applied Mathematical Modelling, 77, 1216-1228.
  • Watt S., Huang Z., Sidhu H.S. (2019). Analysis of two-dimensional combustion waves arising in the presence of a competitive endothermic reaction. ANZIAM J.(E), 60, C95-C108.
  • Watt S., Sidhu H.S., Towers I.N., Jovanoski Z., Huang Z. (2019). Watershed initial conditions for propagating waves in a system with bistability: A weight-function approach. Applied Mathematics Letters, 91: 106-112.
  • Huang Z., Sidhu H.S., Towers I.N., Jovanoski Z., Watt S. (2018). On the route to extinction in nonadiabatic flames from competitive exothermic reactions. Mathematical Modelling of Natural Phenomena, 13(6), 49.
  • Huang Z. (2018) Mathematical analysis of combustion waves in competitive exothermic reactions. Bulletin of the Australian Mathematical Society, 98(2), 339-342.
  • Huang Z., Sidhu H.S., Towers I.N., Jovanoski Z., Gubernov V.V. (2018). Stability analysis of combustion waves for competitive exothermic reactions using Evans function. Applied Mathematical Modelling, 54, 347-360.
  • Huang Z., Sidhu H.S., Towers I.N., Jovanoski Z., Gubernov V.V. (2017). Properties of combustion waves in a model with competitive exothermic reactions. Journal of Mathematical Chemistry, 55(5), 1187-1201.

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huangzj@sustech.edu.cn

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