Paper Title:
Adaptive PID Temperature Controller Based on Fuzzy Logic
  Abstract

This paper develops a fuzzy logic controller (FLC) for the temperature. Temperature is a very popular parameter in industry, which leads an important role in industry process control. There is nonlinearity, time lag, inertia, uncertainty and so on .The advantage of this method is that the proposed FLC has the characteristics of robustness. In order to control systems that contain nonlinearities or uncertainties, control strategies must deal with the effects of these. With the development of intelligent control, Fuzzy-PID control based on Fuzzy control develops more and more popular and makes a great process in temperature control. The whole resistance furnace temperature control system design is based on PLC which Rockwell laboratory supplies and related software and hardware.

  Info
Periodical
Edited by
Qi Luo
Pages
1455-1458
DOI
10.4028/www.scientific.net/AMM.55-57.1455
Citation
J. Wang, A. J. Song, Q. X. Zhu, "Adaptive PID Temperature Controller Based on Fuzzy Logic", Applied Mechanics and Materials, Vols. 55-57, pp. 1455-1458, 2011
Online since
May 2011
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Sue Wang
Abstract:This paper introduces the idea of fuzzy self-adaptive PID algorithm. In order to compare the control effects of traditional PID, fuzzy...
651
Authors: Zheng Mei Cheng, Xiao Ding Guo, Xiao Ke Chen, Jing Xin Deng
Abstract:The voltage stability of test power source system about small locomotive is poor, and the response speed is slow. The theory of adaptive...
240
Authors: Zhi Yong Yang, Jian Dong Li, Quan Yi Gong, Wei Qian Li, Wen Yong Liang, Qiang Liu
Chapter 18: Mechanical and Electronic Engineering Control
Abstract:A new method of PID parameter tuning of the interrelated servo-motors is developed. This method is applied to PID control of the interrelated...
7318
Authors: He Xiang Liu, Hai Tao Yu, Min Qiang Hu, Lei Huang, Li Yu
Chapter 1: Material Section
Abstract:In this paper, an acceleration compensating control approach is used for dealing with the non-linear dynamics of a multiple degrees of...
64