论文信息 - H∞ model matching PID design for fractional FOPDT systems

H∞ model matching PID design for fractional FOPDT systems

This paper deals with the H∞ model matching problem for fractional first-order-plus-dead-time processes. Starting from the analytical solution of the problem, we show that a fractional proportional-integral-derivative controller can be obtained. In this context, the (robust) stability issue is analyzed. Further, guidelines for the tuning of the controller parameters are given in order to address practical issues and to obtain the required performance. Simulation results show that the design methodology is effective and allows the user (on the contrary to the integer-order case) to consider processes with different dynamics in a unified framework.

[1] Ramon Vilanova,et al. IMC based Robust PID design: Tuning guidelines and automatic tuning , 2008 .

[2] YangQuan Chen,et al. Tuning and auto-tuning of fractional order controllers for industry applications , 2008 .

[3] Igor Podlubny,et al. Fractional-order systems and PI/sup /spl lambda//D/sup /spl mu//-controllers , 1999 .

[4] D. Matignon. Stability results for fractional differential equations with applications to control processing , 1996 .

[5] Antonio Visioli,et al. Tuning rules for optimal PID and fractional-order PID controllers , 2011 .

[6] G. Zames,et al. Feedback, minimax sensitivity, and optimal robustness , 1983 .

[7] I. Podlubny. Fractional-Order Systems and -Controllers , 1999 .

[8] Evanghelos Zafiriou,et al. Robust process control , 1987 .

[9] B. Francis,et al. A Course in H Control Theory , 1987 .

[10] Bor-Sen Chen,et al. Controller synthesis of optimal sensitivity: multivariable case , 1984 .

[11] Salvador Alcántara Cano. Analytical design of feedback compensators based on Robustness/Performance and Servo/Regulator trade-offs. Utility in PID control applications , 2011 .