Coordinated Control Method of the Portable Facility for Bearing Load Based on Human Electromechanical Coupling

Abstract:

Article Preview

This paper has introduced electromechanical coupling characteristics in portable facility for bearing load, considered model ,according to legs supporting gait when people walking, established the load torque compensation model , and a mathematical model of knee position control system which is made of the servo valve, hydraulic cylinders and other hydraulic components, designed hydraulic cylinder position control loop in case of existing load force interference compensation, and used the method of combining the PID and lead correction network for frequency domain design ,ensured system to meet a certain stability margin. The simulation results show that this position control method can servo on the knee angular displacement of normal human walking, reached a certain portable facility bearing load and assistant power effect, at the same time, met the needs of human-machine coordinated motion.

Info:

Periodical:

Edited by:

Jing Guo

Pages:

429-434

Citation:

Q. Guo and D. Jiang, "Coordinated Control Method of the Portable Facility for Bearing Load Based on Human Electromechanical Coupling", Applied Mechanics and Materials, Vol. 224, pp. 429-434, 2012

Online since:

November 2012

Authors:

Export:

Price:

$38.00

[1] John Ryan Steger. A design and control methodology for human exoskeletons[D]. University of California, Berkeley(2006), pp.36-44.

[2] Wang Zhixin. Raytheon launched XOS2 second-generation exoskeleton device[J]. Light weapons (2010), p.24: 44.

[3] http: /www. lockheedmartin. com.

[4] Zeng XiuYuan. Modern biomechanics, National Defence Industry Press(2002), pp.100-144.

[5] Wu ZhengShun . the hydraulic control system, Higher Education Press(2008), pp.40-50.

[6] Xu YanWan. Control system(1), Aerospace Publishing(1989), pp.462-47.