Research on Real-Time Control Strategies of Polishing Force

doi:10.12068/j.issn.1005-3026.2015.06.021

Abstract

Abstract: A force-position decoupling pneumatic servo control system for polishing force was set up to solve force-position coupling problem in traditional polishing process. The real-time control results of pneumatic control system for polishing force were researched by adopting traditional PID control， feed-forward PID control and single neuron PID control， using data acquisition card and RTW real-time toolbox in the Matlab/simulink. The parameters in feed-forward PID control can be identified by online recursive least squares algorithm. The weighting coefficients in single neuron PID control can be modified by the supervised Hebb learning rules. The real-time control experimental results of polishing force indicate that the better control effect can be realized by feed-forward PID control and single neuron PID control than by PID control. The duration for stabilizing process of the polishing force is short by feed-forward PID control and the oscillation is little during the stabilizing process of the polishing force by single neuron PID control.

Key words: polishing force control, force-position decoupling, feed-forward PID, single neuron PID, on-line identification

CLC Number:

TP273

ZHANG Lei， ZHOU Wan-song， LU Lei， FAN Cheng. Research on Real-Time Control Strategies of Polishing Force[J]. Journal of Northeastern University Natural Science, 2015, 36(6): 853-857.

References

[1]Zhang L，Tam H Y，Yuan C M，et al.An investigation of material removal in polishing with fixed abrasives［J］.Proceedings of the Institution of Mechanical Engineers，Part B:Journal of Engineering Manufacture，2002，216(1):103-112.
[2]吴昌林，陈义.铝轮曲面主被动柔顺控制抛光方法［J］.中国机械工程，2009，20(23):2821-2824.(Wu Chang-lin，Chen Yi.Polishing method of aluminum alloy wheel surface with active-passive compliant control［J］.China Mechanical Engineering，2009，20(23):2821-2824.)
[3]叶正茂，赵慧，张尚盈，等.基于位置内环的柔顺力控制的研究［J］.控制与决策，2006，21(6):651-655.(Ye Zheng-mao，Zhao Hui，Zhang Shang-ying，et al.On compliant force control based on inner position loop［J］.Control and Decision，2006，21(6):651-655.)
[4]殷跃红，尉忠信，朱剑英.机器人柔顺控制研究［J］.机器人，1998，20(3):232-240.(Yin Yue-hong，Wei Zhong-xin，Zhu Jian-ying.Compliance control of robot:an overview ［J］.Robot，1998，20(3):232-240.)
[5]Takosoglu J E，Dindorf R F，Laski P A.Rapid prototyping of fuzzy controller pneumatic servo system［J］.The International Journal of Advanced Manufacturing Technology，2009，40(3/4):349-361.
[6]Ahn K K，Truong D Q.Online tuning fuzzy PID controller using robust extended Kalman filter［J］.Journal of Process Control，2009，19(6):1011-1023.
[7]Anh H P H.Online tuning gain scheduling MIMO neural PID control of the 2-axes pneumatic artificial muscle(PAM)robot arm ［J］.Expert Systems with Applications，2010，37(9):6547-6560.
[8]Wang X，Peng G.Modeling and control for pneumatic manipulator based on dynamic neural network［C］// IEEE International Conference on Systems，Man and Cybernetics.Washington，DC，2003:2231-2236.
[9]Kaitwanidvilai S，Parnichkun M.Force control in a pneumatic system using hybrid adaptive neuron-fuzzy model reference control［J］.Mechatronics，2005，15(1):23-41.
[10]Richer E，Hurmuzlu Y.A high performance pneumatic force actuator system:part II-nonlinear controller design［J］.Journal of Dynamic Systems，Measurement，and Control，2000，122(3):426-434.
[11]Saleem A，Abdrabbo S，Tutunji T.On-line identification and control of pneumatic servo drives via a mix-reality environment［J］.The International Journal of Advanced Manufacturing Technology，2009，40(5/6):518-530.

[1]	YE Ning， SONG Jin-chun， GAO Xi-ying， YU Zhong-liang. Output Feedback Adaptive Command Filtered Control of Electrohydraulic Actuator [J]. Journal of Northeastern University Natural Science, 2020, 41(9): 1310-1315.
[2]	SHI Jia-shun， Dong Jin-long， LIU Cong， YU Tian-biao. Control Strategy and Method for Variable Polishing Force Adapting to the 5-Axis Machining Trajectory [J]. Journal of Northeastern University Natural Science, 2020, 41(1): 89-94.
[3]	LIU Yun-shan， JIA Lei， WEN Bang-chun. Multi-frequency Controlled Synchronization of a Vibrating System with Two-Motor Drives Rotating in Opposite Directions [J]. Journal of Northeastern University Natural Science, 2019, 40(12): 1726-1731.
[4]	GUAN Shou-ping， ZOU Li-fu， ZHANG Jing-jing. Interval Multi-objective Particle Swarm Optimization Algorithm and Its Application [J]. Journal of Northeastern University Natural Science, 2019, 40(11): 1521-1526.
[5]	WANG Zhan-shan， WANG Ji-dong， LIU Xiu-chong， SUN Jian. Impact of Complex Eigenvalues on Their Robust H_∞ Control Performance in Second-Order Systems [J]. Journal of Northeastern University Natural Science, 2019, 40(9): 1217-1222.
[6]	YANG Ying-hua， SHI Xiang， LI Hong-ru. Billet Temperature Predication Model of Reheating Furnace Based on Data Features [J]. Journal of Northeastern University Natural Science, 2019, 40(3): 305-309.
[7]	YANG Dong-mei， YAO Qi. Robust Exponential Control for a Class of Switched Singular Time-Delay Systems [J]. Journal of Northeastern University Natural Science, 2018, 39(7): 922-926.
[8]	. [J]. Journal of Northeastern University Natural Science, 2018, 39(1): 1-5.
[9]	BAI Jing ， MAO Zhi-zhong， PU Tie-cheng. Parameter Identification of Multivariate Hammerstein-Wiener Model [J]. Journal of Northeastern University Natural Science, 2018, 39(1): 6-10.
[10]	MENG Fan-wei， XU Bo， LYU Xiao-yong ， LIU Yin-qi. Application of Neural Network Predictive Control in SCR Flue Gas Denitration System [J]. Journal of Northeastern University:Natural Science, 2017, 38(6): 778-782.
[11]	LI Ming-jie， ZHOU Ping. Internal Model PI Control of Refiner Load for Mechanical Pulping Process [J]. Journal of Northeastern University:Natural Science, 2017, 38(6): 783-788.
[12]	ZHAO Hai， LEI Kai-ru， SI Shuai-zong， XU Zi-wen. Performance Analysis and Study of Vehicular Ad Hoc Networks on Platoon [J]. Journal of Northeastern University:Natural Science, 2017, 38(5): 634-638.
[13]	LIAN Lian， GAO Xian-wen， QI Wen-hai. Resilient Controller for Markov Switching Systems Under Generally Uncertain Transition Rate [J]. Journal of Northeastern University Natural Science, 2017, 38(4): 457-461.
[14]	QI Wen-hai， LI Xin， GAO Xian-wen. Stabilization for Piecewise Homogeneous Markov Jump Systems Subject to Actuator Saturation [J]. Journal of Northeastern University Natural Science, 2017, 38(4): 462-466.
[15]	ZHANG Ting-feng， MAO Zhi-zhong， YUAN Ping， ZHANG Bi. Identification of Wind Tunnel System Using Multivariable Step Responses [J]. Journal of Northeastern University Natural Science, 2016, 37(11): 1521-1525.