Conference Proceedings
Time to failure of quantized control via a binary symmetric channel
GN Nair, J Baillieul
Proceedings of the IEEE Conference on Decision and Control | IEEE | Published : 2006
Abstract
This paper considers the time-invariant, memorylessly quantized control of scalar plants over erroneous binary channels. As bit errors cannot be compensated for, plant stability is impossible. Thus, the simplest feasible objective is to ensure that the closed-loop is in some sense well-behaved for as long as possible. In this paper, a definition of time-to-failure is proposed for such systems, using the notions of conditional worst- and best-case states. It is shown that the stochastic evolution of this auxiliary system can be exactly characterized by a finite-state Markov chain. With this approach, explicit expressions for the time-to-failure distribution are derived for a range of non-triv..
View full abstractGrants
Awarded by Australian Research Council
Awarded by U.S. Army Research Office
Awarded by ODDR&E MURI01 Program
Funding Acknowledgements
His work was partially supported by Australian Research Council grant DP0345044. J. Baillieul is with the Dept. Aero.& Mech. Engin., Boston Uni., USA, email: johnb@bu.edu. He gratefully acknowledges support from the U.S. Army Research Office under the ODDR&E MURI97 Program Grant No. DAAG55-97-1-0114 to the Center for Dynamics and Control of Smart Structures (through Harvard University), and from ODDR&E MURI01 Program Grant Number DAAD19-01-1-0465 to Boston University and the Center for Networked Communicating Control Systems.