TY - GEN
T1 - A new center position control implement
AU - Tian, Qichuan
AU - Pan, Quan
AU - Gao, Quanxue
AU - Han, Rucheng
AU - Gao, Diguang
PY - 2002
Y1 - 2002
N2 - In many industry-producing fields, CPC (Center Position Control) system is needed to realize automatic control. In this paper, a new CPC implement is presented. It is designed based on single chip microcomputer solving the problem to minimize the quantity of edge-cut. In order to get high precision, new typical high accuracy sensors - CCD (Charge Coupled Device) has been adopted, and a self-adapting adjust hydraulic pressure clique has been used to provide appropriate control. In control algorithm, because the plant is difficult to modeling, a fuzzy control algorithm is used in the system and several parameters are designed to adjust according to the actual running effect in producing locale. Based on this designed, this control system can be used in others similar fields, It has many advantages such as robust, good reliability, high precision, and easy to adjust parameters. Comparison with other control is shown by experimental results and confirms the effectiveness of this control scheme. It has high value being generalized.
AB - In many industry-producing fields, CPC (Center Position Control) system is needed to realize automatic control. In this paper, a new CPC implement is presented. It is designed based on single chip microcomputer solving the problem to minimize the quantity of edge-cut. In order to get high precision, new typical high accuracy sensors - CCD (Charge Coupled Device) has been adopted, and a self-adapting adjust hydraulic pressure clique has been used to provide appropriate control. In control algorithm, because the plant is difficult to modeling, a fuzzy control algorithm is used in the system and several parameters are designed to adjust according to the actual running effect in producing locale. Based on this designed, this control system can be used in others similar fields, It has many advantages such as robust, good reliability, high precision, and easy to adjust parameters. Comparison with other control is shown by experimental results and confirms the effectiveness of this control scheme. It has high value being generalized.
KW - Center position control
KW - Charge coupled device
KW - Fuzzy control
KW - Hydraulic pressure system
KW - Steel belt
UR - http://www.scopus.com/inward/record.url?scp=0141545208&partnerID=8YFLogxK
M3 - 会议稿件
AN - SCOPUS:0141545208
SN - 7560317685
T3 - Proceedings of the Second International Symposium on Instrumentation Science and Technology
SP - 1/660-1/664
BT - Proceedings of the Second International Symposium on Instrumentation Science and Technology
A2 - Jiubin, T.
A2 - Xianfang, W.
A2 - Jiubin, T.
A2 - Xianfang, W.
T2 - Proceedings of the second International Symposium on Instrumentation Science and Technology
Y2 - 18 August 2002 through 22 August 2002
ER -