Nonlinear control via approximate input-output linearization - The ball and beam exampleThis paper presents an approach for the approximate input-output linearization of nonlinear systems, particularly those for which relative degree is not well defined. It is shown that there is a great deal of freedom in the selection of an approximation and that, by designing a tracking controller based on the approximating system, tracking of reasonable trajectories can be achieved with small error. The approximating system is itself a nonlinear system, with the difference that it is input-output linearizable by state feedback. Some properties of the accuracy of the approximation are demonstrated and, in the context of the ball and beam example, it is shown to be far superior to the Jacobian approximation. The results are focused on finding regular SISO systems which are close to systems which are not regular and controlling these approximate regular systems.
Document ID
19900053841
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Hauser, John (Southern California, University Los Angeles, CA, United States)
Sastry, Shankar (California, University Berkeley, United States)
Kokotovic, Petar (Illinois, University Urbana, United States)