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CDC
2010
IEEE
2010
IEEE
On parameterized Lyapunov and control Lyapunov functions for discrete-time systems
This paper deals with the existence and synthesis of parameterized-(control) Lyapunov functions (p-(C)LFs) for discrete-time nonlinear systems that are possibly subject to constraints. A p-LF is obtained by associating a finite set of parameters to a standard LF. A set-valued map, which generates admissible sets of parameters, is defined such that the corresponding p-LF enjoys standard Lyapunov properties. It is demonstrated that the so-obtained p-LFs offer non-conservative stability analysis conditions, even when Lyapunov functions with a particular structure, such as quadratic forms, are considered. Furthermore, possible methods for synthesizing pCLFs for discrete-time nonlinear systems are discussed. These methods make use of the receding horizon principle and require solving on-line a low-complexity convex optimization problem.
Real-time TrafficCDC 2010 | Control Systems | Discrete-time Nonlinear Systems | Lyapunov Functions | Standard Lyapunov Properties |
Related Content
| Added | 13 May 2011 |
| Updated | 13 May 2011 |
| Type | Journal |
| Year | 2010 |
| Where | CDC |
| Authors | Mircea Lazar, Rob H. Gielen |
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