An Intelligent Control System for Edge Position Deviation of Narrow Fabrics

Wei Ping Luo

doi:10.4028/www.scientific.net/AMR.461.606

Paper Titles

Design and Construction of High-Formwork and Large Span Formwork Supports System
p.589

Seismic Response Analysis of Cable-Stayed Bridge Tower which Does Not Consider the Pile-Soil Interaction (I)
p.593

Study of the Flow Characteristic in Parallel Pipeline Model
p.597

Study on Tdsorption of Heavy Metalion in Metallurgical Wastewater by Montmorillonite
p.601

An Intelligent Control System for Edge Position Deviation of Narrow Fabrics
p.606

Seismic Response Analysis of Cable-Stayed Bridge Tower which Does Not Consider the Pile-Soil Interaction (II)
p.611

A Color Management Method for Photographed Image Files
p.615

Formative Arts and Landscape Application of European Hornbeam
p.620

Analysis and Suggestions on Free Allocation with Preferential Policy for Initial Emission Permits
p.624

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 461An Intelligent Control System for Edge Position...

An Intelligent Control System for Edge Position Deviation of Narrow Fabrics

Abstract:

Focused on the S-shape deviation problem in the narrow fabric production process, this paper introduces an intelligent control system with DC servomotor as the actuator for an intermediate guide roll system. To improve the dynamic performance of the deviation control system and solve the motor vibration problem, the deviation control algorithm is proposed, which is related to intelligent PD feedback control combined with the feed-forward regulation for the system deviation, and its MatLab simulation results show its good performances and advantages. Furthermore, a technical approach for the deviation controller using DSP processor chip TMS320F2812 is presented. The system is applied in the intermediate guide roll system, and the application result indicates that the system is characterized by fast response and steady operation and it is a good solution for the motor vibration.

You might also be interested in these eBooks

Advanced Building Materials and Structural Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 461)

Pages:

606-610

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.461.606

Citation:

Cite this paper

Online since:

February 2012

Authors:

Wei Ping Luo

Keywords:

Deviation, Intelligent System, Narrow Fabric, Redress Control

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] CHEN Dechuan, PENG Qinghai. Advanced deviation correcting system of fabric strips based on repetitive control[J]. Journal of Textile Research, 2010(6): 134-138.

Google Scholar

[2] ZHANG Zhuo, JIA Chenhui. Study on Correction Algorithm Based on Artificial Intelligence and Improved PID[J]. MACHINE TOOL&HYDRAULICS, 2011(3): 56-58.

Google Scholar

[3] LIU Xiao-qing, AI Wu, YU Wen-yong, etc. High-speed Edge Position Control System Using Machine Vision Based on Linear Motor[J]. Micromotor, 2010(10): 85-88.

Google Scholar

[4] CHEN De-chuan, TAO Hong-bin. A New Deviation Control System for Strip Winding Process[J]. Journal of Hangzhou Dianzi University, 2008(4): 74-77.

Google Scholar

[5] CHENG Yong, LI Tian-shi. Metal Strip Steering Control[J]. MACHINE TOOL&HYDRAULICS, 2003(6): 190-193.

Google Scholar

[6] LIU Nan. An application of fuzzy parameters self-tuning PID control of deviation control with the strip winding[J]. China Water Transport, 2007(1): 123-124.

Google Scholar