Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10398782 | Automatica | 2011 | 15 Pages |
Abstract
In order to treat the skid-steered vehicle as a switched system, the vehicle's ground interaction is modeled using Coulomb friction, thereby partitioning the system dynamics into four distinct modes, one for each combination of the forward and back wheel pairs sticking or skidding. Thus, as the vehicle maneuvers, the system propagates over some mode sequence, transitioning between modes over some set of switching times. This paper presents second-order optimization algorithms for estimating these switching times. We emphasize the importance of the second-order algorithm because it exhibits quadratic convergence and because even for relatively simple examples, first-order methods fail to converge on time scales compatible with real-time operation. Furthermore, the paper presents a technique for estimating the mode sequence by optimizing a relaxation of the switched system.
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Physical Sciences and Engineering
Engineering
Control and Systems Engineering
Authors
T.M. Caldwell, T.D. Murphey,