TY - GEN
T1 - Adaptive Tracking Control with Input Saturation and Asymmetrically Time-varying Full-State Constraints for Automatic Train Operation
AU - Sun, Yawen
AU - Gao, Shigen
AU - Dong, Hairong
AU - Zhou, Min
AU - Song, Haifeng
N1 - Publisher Copyright:
© 2019 IEEE.
PY - 2019/11
Y1 - 2019/11
N2 - The state feedback tracking control problem is investigated for the train with traction and braking saturation under asymmetrically time-varying full-state constraints. To reduce the influence of input constraint, the saturation function is approximated as the sum of a smooth function and a error term. Moreover, an asymmetrically time-varying Barrier Lyapunov function is adopted to deal with the state constraints. Meanwhile, RBF and adaptive control method have been used to approximate the unknown function and estimate the unknown parameters. Hence, the proposed control method can ensure that all the signals in the close-loop system are bounded and the asymmetrically time-varying state constraints have not been violated. At last, the simulation exmaple of the train operating in fast strategy and running in the wind zone demonstrates the effectiveness of the control method.
AB - The state feedback tracking control problem is investigated for the train with traction and braking saturation under asymmetrically time-varying full-state constraints. To reduce the influence of input constraint, the saturation function is approximated as the sum of a smooth function and a error term. Moreover, an asymmetrically time-varying Barrier Lyapunov function is adopted to deal with the state constraints. Meanwhile, RBF and adaptive control method have been used to approximate the unknown function and estimate the unknown parameters. Hence, the proposed control method can ensure that all the signals in the close-loop system are bounded and the asymmetrically time-varying state constraints have not been violated. At last, the simulation exmaple of the train operating in fast strategy and running in the wind zone demonstrates the effectiveness of the control method.
KW - Automatic train control system
KW - state constraints
KW - trajectory tracking
UR - https://www.scopus.com/pages/publications/85080094034
U2 - 10.1109/CAC48633.2019.8997425
DO - 10.1109/CAC48633.2019.8997425
M3 - 会议稿件
AN - SCOPUS:85080094034
T3 - Proceedings - 2019 Chinese Automation Congress, CAC 2019
SP - 5599
EP - 5604
BT - Proceedings - 2019 Chinese Automation Congress, CAC 2019
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2019 Chinese Automation Congress, CAC 2019
Y2 - 22 November 2019 through 24 November 2019
ER -