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A Psorbfd Fast Adaptive Decoupling Control Method

A technology of decoupling control and decoupling controller, which is applied in the field of decoupling of coupling systems, can solve problems such as the inability to effectively improve the decoupling adjustment ability of closed-loop control systems, the lack of dynamic characteristics, and the inability to completely eliminate coupling effects, etc., to achieve film production Quality assurance, improved training speed, strong anti-interference ability

Active Publication Date: 2022-04-12
WUHAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] Traditional decoupling is represented by the modern frequency domain, which is mainly applicable to deterministic MIMO systems. The basic idea is to design a decoupling network so that the transfer function matrix of the MIMO control system becomes a diagonal matrix, making the system easier to control. It includes seeking Inverse matrix method, relative amplification factor matching method, diagonal dominance method, transition feedback method, etc.; because the decoupling method requires the transfer matrix to be steady-state non-singular, the structure is simple, and there is no dynamic characteristic, ensuring the output response of the open-loop system There is no deviation in the steady state, but it cannot effectively improve the decoupling adjustment ability of the closed-loop control system
[0009] Adaptive decoupling method is the combination of adaptive control and decoupling control technology. Its essence is to treat the coupling signal as interference, and adopt the method of self-correction feedforward control to compensate the coupling dynamically and statically; the similar feedforward solution Although the coupling algorithm has a good decoupling effect on the MIMO coupling system, it cannot completely eliminate the coupling effect caused by the change of the input signal.

Method used

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  • A Psorbfd Fast Adaptive Decoupling Control Method
  • A Psorbfd Fast Adaptive Decoupling Control Method
  • A Psorbfd Fast Adaptive Decoupling Control Method

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Experimental program
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Embodiment 1

[0108] Such as Figure 6 As shown, a PSORBFD fast adaptive decoupling control method described in this embodiment is specifically a PSORBFD adaptive decoupling control method applied to a BOPP film thickness control system, but the decoupling control method is not limited to The BOPP film thickness control system can also be applied to the decoupling control of other multi-channel coupling systems. The PSORBFD fast adaptive decoupling control method described in this embodiment includes the following steps:

[0109] Step S1, system modeling: according to the relationship between the control quantity and the output quantity, determine the transfer function matrix model of the system.

[0110] (1) System modeling

[0111] Considering the three-channel film thickness control system, the thickness of each channel is taken as the measured value, and the temperature of the heating bolt is used as the control quantity to form a three-input and three-output control system. The system...

Embodiment 2

[0233] Embodiment 2, experimental comparative analysis

[0234] (1) System experiment environment

[0235] In order to verify the effect of the PSORBFD decoupling controller described in Embodiment 1 above, in this embodiment, the following four controllers are used for the film thickness control model to conduct experimental simulations under the MATLAB environment.

[0236] PID: PID controller;

[0237] SFFD: Feedforward-like decoupling controller;

[0238] RBFD: RBF neural network decoupling controller;

[0239] PSORBFD: PSO-Based RBF Decoupling Controller.

[0240] The controlled object model in the experiment of this embodiment is the second-order discrete transfer function model described in formulas (2), (3) and (4). Based on the model setting v 1 =v 2 =v 3 =3, when the system is stable, select the following data at time=401:1400 as training samples, such as Figure 7 shown.

[0241] Set the initial clustering number of RBFD to 20 groups, and the clustering res...

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Abstract

The invention discloses a PSORBFD fast self-adaptive decoupling control method, comprising the following steps: S1, system modeling: according to the relationship between the control quantity and the output quantity, determine the transfer function matrix model of the system; S2, establish RBFD decoupling Controller: the RBFD decoupling controller includes an input layer, a hidden layer and an output layer, and the decoupling control process of the RBFD decoupling controller includes RBF initialization, RBF clustering, RBF model training and RBF testing; S3, establishing PSORBFD Decoupling controller: PSO particle swarm optimization algorithm is used to improve RBFD decoupling controller, and PSORBFD decoupling controller is established. Applying the PSORBFD decoupling controller of the present invention to a multi-channel film thickness control system can effectively solve the problem of film thickness deviation caused by coupling problems in a BOPP film production line and ensure film production quality. At the same time, this method is also applicable to the decoupling control of multi-channel coupling systems, which significantly improves the speed of RBF model training, greatly improves the training efficiency, and has strong anti-interference ability.

Description

technical field [0001] The invention relates to the technical field of decoupling of coupling systems, in particular to a PSORBFD fast self-adaptive decoupling control method. Background technique [0002] The biaxially oriented polypropylene (BOPP) film thickness control system is a multi-input multi-output (MIMO) nonlinear complex multivariable coupling system. In the actual production process, the heating bolts interact with each other, so the thermal expansion bolts Coupling cannot be ignored. [0003] Specifically, the BOPP film production line process is as follows figure 1 As shown, the working process is as follows: the film raw material (plastic particles) is put in from the feeding port, and after being heated and melted, the liquid raw material is sent to the membrane head by the extruder, extruded through the thermal expansion bolt at the lip of the membrane head, and passed through the cooling roller Cooling into a solid thick sheet, the thick sheet is conveye...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B13/04
CPCG05B13/042
Inventor 廖雪超陈振寰邓万雄伍杰平
Owner WUHAN UNIV OF SCI & TECH