Title :
Finite-Rate Control: Finite-Horizon Performance Limitations
Author :
Sarma, Sridevi V. ; Dahleh, Munther A.
Author_Institution :
Lab. of Inf. & Decision Syst., Massachusetts Inst. of Technol., Cambridge, MA
Abstract :
In this paper, we consider a set up in which the plant and controller are local to each other, but are together driven by a remote reference signal that is transmitted through a finite-rate noiseless channel. When control must be done over a communication channel, there is a fundamental tradeoff between allowing enough time for reconstruction of signals over the channel and achieving performance in finite-time. Most work in the area of control under communication constraints have addressed infinite-horizon control objectives (e.g., stability, disturbance rejection). In this paper, we compute lower and upper bounds on worst-case performance for a finite-horizon tracking objective. We achieve the lower bound with a noncausal coding scheme and show that imposing causality on the coding scheme severly limits achievable performance. We illustrate how the bounds behave under various scenarios and show tradeoffs between time and performance accuracy
Keywords :
causality; feedforward; infinite horizon; performance index; signal reconstruction; stability; causality; communication channel; disturbance rejection; finite horizon performance limitation; finite-rate control; finite-rate noiseless channel; noncausal coding; signal reconstruction; stability; Aircraft navigation; Communication channels; Communication system control; Control systems; Feedback control; Robot control; Robot kinematics; Stability; USA Councils; Upper bound;
Conference_Titel :
Decision and Control, 2006 45th IEEE Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
1-4244-0171-2
DOI :
10.1109/CDC.2006.376785
