Design method for multi-input multi-output process decentralized proportion integration differentiation (PID) controllers

A technology of decentralized controller and design method, applied in the direction of electric controller, controller with specific characteristics, etc., can solve the problems of inconvenient online adjustment, lack of relevant meaning of system characteristics, and large amount of data calculation.

Inactive Publication Date: 2011-05-18
SHANGHAI MARITIME UNIVERSITY
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Problems solved by technology

However, when these advanced control algorithms are applied to multiple-input and multiple-output processes, it is often necessary to use numerical optimization design methods to tune the controller, which requires a large amount of data calculation and is

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  • Design method for multi-input multi-output process decentralized proportion integration differentiation (PID) controllers
  • Design method for multi-input multi-output process decentralized proportion integration differentiation (PID) controllers
  • Design method for multi-input multi-output process decentralized proportion integration differentiation (PID) controllers

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Embodiment Construction

[0054] The embodiments of the present invention are described in detail below in conjunction with the accompanying drawings: this embodiment is implemented on the premise of the technical solution of the present invention, and detailed implementation methods and specific operating procedures are provided, but the protection scope of the present invention is not limited to the following the described embodiment.

[0055] This embodiment describes the implementation process of the present invention in conjunction with the heavy oil fractionator——Shell standard control problem. The Shell standard control problem is a multivariable constraint control problem, and the process model is:

[0056] y ( s ) = 4.05 e - 27 s ...

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Abstract

The invention discloses a design method for multi-input multi-output process decentralized PID controllers, which is used in a technical field of industrial process control, and comprises the following steps: 1, preparing an identification model of a transfer function matrix as the controlled object in a multi-input multi-output process, and performing circuit pairing by using a relative gain array and a Niederlinski factor; 2, deducing the transfer functions of the decentralized controllers of all circuits by using a Backstepping process; and 3, making the decentralized controllers in the step 2 equivalents of proportional integral (PI) and PID controllers according to first-order inertia and first order plus dead time transfer models respectively, and providing a selection method for parameters to be tuned of the PI/PID controllers. In the invention, the coupling relationship of a multivariable system is taken into full consideration, the human factor brought by the adoption of experience or trial and error in the conventional PID controller parameter tuning is eliminated, and the method is suitable for a high-dimensional multi-input and multi-output process. When the method disclosed by the invention is adopted, the parameters of the controllers can be tuned on line, the operation is simple and convenient, and an obviously improved control effect can be achieved in set value tracking, anti-interference performance and other performance.

Description

technical field [0001] The invention relates to the field of industrial process control, especially the technical field of PID control. Background technique [0002] In engineering practice, the most widely used regulator control law is proportional, integral, differential control, referred to as PID control, (Proportion Integration Differentiation), also known as PID regulation. It has been nearly 70 years since the PID controller came out. It has become one of the main technologies of industrial control because of its simple structure, good stability, reliable operation and convenient adjustment. Due to the simplicity of the algorithm, strong robustness and high reliability, it has been widely used in the control of actual industrial processes. Even today when advanced control strategies emerge in an endless stream, PID control still occupies a dominant position in process control because of its simple structure, convenient adjustment and maintenance, concise algorithm an...

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Application Information

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IPC IPC(8): G05B11/42
Inventor 张艳李翠玲范红
Owner SHANGHAI MARITIME UNIVERSITY
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