Abstract
Various control signals of high-speed trains (HSTs) are transmitted through the train communication network. However, the time delay generated during the transmission will cause a significant threat to the stability and safe operation of the train. To overcome the effect of time delay on the train control system, based on empirical mode decomposition (EMD) and adaptive quantum particle swarm optimization (AQPSO) algorithms, a least squares support vector machine (LS-SVM) time delay prediction model is proposed in this paper. The EMD algorithm is used to decompose the time delay sequence into several subsequences, which emphasizes the different local characteristics of the time delay sequence. By improving the calculation method about the successful value of particle iteration, an AQPSO algorithm with adaptive contraction-expansion coefficient is designed to optimize the parameters of different LS-SVM models for predicting each time delay component, which improves the prediction accuracy of network delay. Further, based on actor-critic reinforcement learning algorithm, an improved generalized predictive control method is proposed for the train network system. The actor-critic network is used to predict the future output of the system, and the recursive least squares identification algorithm with the variable forgetting factor is adopted to identify the future system model parameters. Combined with the time delay predicted accurately, the control quantity is sent in advance according to the properly arranged time series, which compensates efficiently the influence of the time delay on the control system. Simulation results show that compared with other control methods, the proposed method has better robustness and stability, which ensures the safe operation of high-speed trains under various working conditions.
Highlights
At present, high-speed trains (HSTs) and urban track vehicles all use the train communication network (TCN) to realize train control and fault diagnosis [1]
The adaptive quantum particle swarm optimization (AQPSO) algorithm comprehensively considers the position and state changes of particles in the iterative process and designs the adaptive contraction-expansion coefficient so that the proposed algorithm can dynamically balance the global and local searching ability of particles. erefore, the AQPSO algorithm has higher average convergence precision and stability compared with quantum particle swarm optimization (QPSO)-LDCE and QPSONDCE algorithms
3.218 2.343 4.06 × 10− 2 3.69 × 10− 2 the environment and accurately predict the future output of the system, and the recursive least squares (RLS) identification algorithm with the variable forgetting factor is adopted to identify the future system model parameters, which realizes the predictive control of the nonlinear train network system
Summary
HSTs and urban track vehicles all use the train communication network (TCN) to realize train control and fault diagnosis [1]. The time delay caused by various reasons in the process of information transmission will seriously affect the safety and stability of the train control system [2]. In addition to the end-to-end time delay in the TCN, there is the time delay generated by signal processing and control logic judgment, etc. If the time delay is too long, it will greatly affect the stability of the control system [3]. In order to suppress the adverse effect of time delay on the control performance, it is necessary to test and study the real network characteristics of TCN, which realizes real-time and stable control according to the actual nonlinear characteristics of the train key control system. Some scholars have studied the scheduling algorithm of train network and the time delay problem of Mathematical Problems in Engineering composite Ethernet [5, 6], but there are still few reports on the time delay control of TCN
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