Author:
Wang Jingyi,Dan Yuanhong,Peng Runshan
Abstract
Time lag is very common in real control systems and is more important in driverless intelligent single rutted two-wheeled vehicles. Time lag can lead to slower response of the control system to external changes, which can reduce the stability or even imbalance of the vehicle. Traditional control methods may not be directly applicable to systems with time lag, so special control strategies are needed to deal with the effects of time lag. In this paper, we build a non-time-lagged steering balance controller by analysing the dynamics model of an unmanned intelligent single rutted two-wheeled vehicle, and then control the time lag by using the improved Smith predictor, and finally verify the steering balance of the method under large time lag by MATLAB simulation.
Publisher
Darcy & Roy Press Co. Ltd.
Reference10 articles.
1. Singhania, Sharad, Ichiro Kageyama, Venkata M Karanam. Study on Low-Speed Stability of a Motorcycle.Applied Sciences.Vol.9(2019)No.11,2278.
2. Dissertation Category:(Ziad Fawaz : Design and Control of a Self-balancing Bicycle Using an Electric Linear Actuator (Master of Science in Engineering , the University of Michigan-Dearborn, America 2019)
3. Roy N, Sengupta A, Sutradhar A. Evolutionary Smith Predictor for Control of Time-Delay Systems.Advances in Intelligent Systems and Computing.Vol. 749 (2019),p. 339-349.
4. Karan, S, Dey, C. Improved disturbance rejection with modified Smith predictor for integrating FOPTD processes. sn Appl. Sci. Vol. 1(2019),1168.
5. Karan, S, Dey, C. Set point weighted modified Smith predictor for delay dominated integrating processes.2019 Devices for Integrated Circuit (DevIC). Kalyani, India, 2019, p. 172-176