论文信息 - Application of a gain scheduling control strategy to artificial stimulation of the quadriceps muscle

Application of a gain scheduling control strategy to artificial stimulation of the quadriceps muscle

In the present paper, a gain scheduling approach is exploited to control the movement of the knee joint in paraplegic patients, who have recovered partial functionality of muscles through Functional Electrical Stimulation. In particular, first a NARX polynomial model is developed, by using data collected during a stimulation session on a patient; to this aim a new algorithm for structural identification is introduced. Then, the design of a standard LQ regulator is presented. Starting from the LQ control scheme a gain scheduling controller is derived so that the linearization property holds. Furthermore, a performance comparison between the presented gain scheduling controller and the LQ regulator is performed by means of simulations.

[1] Sheng Chen,et al. Representations of non-linear systems: the NARMAX model , 1989 .

[2] Michael Athans,et al. Analysis of gain scheduled control for nonlinear plants , 1990 .

[3] Sheng Chen,et al. Orthogonal least squares methods and their application to non-linear system identification , 1989 .

[4] J. Quintern,et al. A physiologically based model of muscle activation verified by electrical stimulation , 1997 .

[5] Karl Johan Åström,et al. Adaptive Control , 1989, Embedded Digital Control with Microcontrollers.

[6] M Munih,et al. Feedback control of unsupported standing in paraplegia--part I: optimal control approach. , 1997, IEEE transactions on rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society.

[7] Isaac Kaminer,et al. A velocity algorithm for the implementation of gain-scheduled controllers , 1995, Autom..

[8] Wilson J. Rugh,et al. Gain scheduling dynamic linear controllers for a nonlinear plant , 1995, Autom..

[9] Gideon F. Inbar,et al. The development of a model reference adaptive controller to control the knee joint of paraplegics , 1991 .

[10] K. Hunt,et al. Nonlinear modelling and control of electrically stimulated muscle: A local model network approach , 1997 .

[11] L. Ljung. Nonlinear Black Box Models in Systems Identification , 1997 .