A design method for modified PID control systems for multiple-input/multiple-output plants to attenuate unknown disturbances

The Proportional-Integral-Derivative (PID) controller structure is the most widely used one in industrial applications. However, PID controller cannot stabilize any plant. In order to overcome this problem, Yamada and Hagiwara proposed a design method for modified PID controllers such that the modified PID controller makes the control system for unstable plants stable and the admissible sets of P-parameter, I-parameter and D-parameter are independent from each other. When modified PID control systems are applied to real plants, the influence of disturbance in the plant must be considered. In many cases, the disturbance in the plant is unknown. It is comparatively easy to attenuate known disturbances, but it is difficult to attenuate unknown disturbances. From a practical viewpoint, it is desirable to design a modified PID control system to attenuate unknown disturbances. Recently, a design method for modified PID control systems for to attenuate unknown disturbances was proposed. However, no paper examines a design method for modified PID control systems for multiple-input/multiple-output plants to attenuate unknown disturbances. In this paper, we propose a design method for modified PID control systems for multiple-input/multiple-output plants to attenuate unknown disturbances.

[1]  E. Cohen,et al.  Congruence representations in algebraic number fields , 1953 .

[2]  Karl Johan Åström,et al.  PID Controllers: Theory, Design, and Tuning , 1995 .

[3]  Shankar P. Bhattacharyya,et al.  Structure and synthesis of PID controllers , 2000 .

[4]  Toshiyuki Kitamori,et al.  A Method of Control System Design Based upon Partial Knowledge about Controlled Processes , 1979 .

[5]  C. Knospe,et al.  PID control , 2006, IEEE Control Systems.

[6]  Jiann-Shiou Yang Parameter plane control design for a two-tank chemical reactor system , 1994 .

[7]  Shankar P. Bhattacharyya,et al.  A linear programming characterization of all stabilizing PID controllers , 1997, Proceedings of the 1997 American Control Conference (Cat. No.97CH36041).

[8]  Takaaki Hagiwara,et al.  A Design Method of Modified PID Conteroller for Unstable Plants , 2006 .

[9]  Takaaki Hagiwara,et al.  A design method of modified PID controllers for multiple-input/multiple-output plants , 2008 .

[10]  Takaaki Hagiwara,et al.  A Design Method for Modified PID Control Systems to Attenuate Unknown Disturbances , 2010 .

[11]  Koichi Suyama A Practical Design Method for PID Control Systems , 1993 .

[12]  Kenichi Tamura,et al.  PID制御による多変数系の固有値配置法;PID制御による多変数系の固有値配置法;Eigenvalue Assignment Method by PID Control for MIMO System , 2006 .

[13]  Tong Heng Lee,et al.  An improvement on multivariable PID controller design via iterative LMI approach , 2004, Autom..

[14]  N. Munro,et al.  PID controllers: recent tuning methods and design to specification , 2002 .

[15]  Kou Yamada,et al.  New State Space Design Method of Stable Filtered Inverse Systems and Their Application , 2003 .

[16]  P. Khargonekar Control System Synthesis: A Factorization Approach (M. Vidyasagar) , 1987 .

[17]  Tong Heng Lee,et al.  On the design of multivariable PID controllers via LMI approach , 2002, Autom..

[18]  John A. Miller,et al.  TUNING CONTROLLERS WITH ERROR-INTEGRAL CRITERIA , 1967 .

[19]  J. G. Ziegler,et al.  Optimum Settings for Automatic Controllers , 1942, Journal of Fluids Engineering.

[20]  K. L. Chien,et al.  On the Automatic Control of Generalized Passive Systems , 1952, Journal of Fluids Engineering.

[21]  Kou Yamada,et al.  THE PARAMETERIZATION OF ALL DISTURBANCE OBSERVERS , 2008 .