Adaptive flow control in industrial pneumatics

Author

Busch, Christian ; Brix, Norman ; Lambeck, Steven

Author_Institution

Eng. Electron., Bosch Rexroth AG, Laatzen, Germany

fYear

2012

fDate

18-20 July 2012

Firstpage

11

Lastpage

15

Abstract

This article describes an online optimization method of an air flow control system realized in pneumatic industrial applications. With respect to the limited computational power of industrial hardware the presented algorithm is optimally designed for a low execution time and source consumption. Based on a least square optimization method the presented algorithm leads to an effective and robust control of the nonlinear plant. Special learning cycles known from other industrial applications are not required. By the use of an adaptive feedforward control and a closed loop controller for the compensation of static inaccuracy, a high dynamic response to setpoint changes with stationary accuracy could be reached.

Keywords

adaptive control; air; closed loop systems; computational fluid dynamics; design engineering; feedforward; flow control; least squares approximations; nonlinear control systems; optimisation; pneumatic systems; robust control; adaptive feedforward control; adaptive flow control; air flow control system; closed loop controller; computational power; dynamic response; execution time; industrial hardware; industrial pneumatics; least square optimization method; nonlinear plant; online optimization method; robust control; source consumption; static inaccuracy compensation; Adaptation models; Conferences; Electron tubes; Mathematical model; Optimization; Polynomials; Vectors; Adaptive Control; Feedforward Control Parameter estimation; Microcontroller; Numerical Optimization;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Electronics and Applications (ICIEA), 2012 7th IEEE Conference on

Conference_Location

Singapore

Print_ISBN

978-1-4577-2118-2

Type

conf

DOI

10.1109/ICIEA.2012.6360689

Filename

6360689