| Title | Anytime Control Algorithms for Real-Time Embedded Systems |
| Publication Type | Conference Paper |
| Year of Publication | 2008 |
| Conference Name | Int Conf of Hybrid Systems: Computation and Control |
| Edited Volume | 4981/2008 |
| Pagination | 158 - 171 |
| Publication Language | eng |
| Authors | Fontanelli, D, Greco, L, Bicchi, A |
| Editor | Egerstedt, M, Mishra, B |
| Publisher | Springer-Verlag |
| Conference Location | St. Louis, MO |
| Keywords | Embedded Control, Robotics |
| Abstract | In this paper we consider the problem of designing controllers for linear plants to be implemented in embedded platforms under stringent real-time constraints. These include preemptive scheduling schemes, under which the maximum execution time allowed for control software tasks is uncertain. We propose an ``anytime control'' design approach, consisting in a hierarchy of controllers for the same plant. Higher controllers in the hierarchy provide better closed-loop performance, while typically requiring a larger worst-case execution time. We provide a procedure for the design of controllers which, together with a conditioning process of the stochastic scheduling, provides better performance than prevailing worst case-based design, while guaranteeing almost sure stability of the resulting switching system. |