Author_Institution :
Dept. of Thermal Eng., Tsinghua Univ., Beijing, China
Abstract :
Partial differential equations (PDE) is widely used in describing, explaining or foreseeing all natural phenomena, and be applied in science and engineering technology. This paper deals with a one-dimensional diffusion wave equation, get the soaring curve of the object by using numerical method, then fit out the transfer function of the controlled object. Based on DDE method, charts tuning method, Z-N method, CHR method, Cohen-Coon method, IMC method, IST2E Opt method and GPM method, several groups of PID controller parameters are tuned. Then, dynamic simulation and Monte-Carlo experiments are applied on different control systems obtained by these methods. By comparing the time, overshoot, ITAE index and the robustness of the performance, the DDE method has better performance robustness on this class of distributed parameter systems which is described by one-dimensional diffusion-wave equation.
Keywords :
Monte Carlo methods; control system synthesis; distributed parameter systems; partial differential equations; three-term control; CHR method; Cohen-Coon method; DDE method; GPM method; IMC method; IST2E Opt method; Monte Carlo experiments; PID controller design; Z-N method; charts tuning method; diffusion wave equation; distributed parameter systems; engineering technology; numerical method; partial differential equations; science technology; Distributed parameter systems; Electronic mail; Equations; Mathematical model; Monte Carlo methods; Robustness; Tuning; Monte Carlo Method; One-Dimensional Diffusion-Wave Equation; Pde Numerical Solution; Performance Robustness; Pid Parameter Tuning;
