Title :
State estimation over unreliable network
Author :
Xie, Lihua ; Shi, Ling
Abstract :
We consider the problem of state estimation of a discrete time process over an unreliable communication network. Most previous work in literature focus on either quantization effect or packet drops or delays, with a few work considering those uncertainties simultaneously. In this paper, we first present two quantized filter design methods based on a logarithmic quantizer. The first method characterizes the quantization error in a deterministic way and presents a worst-case design while the second one models the quantization error as a random variable and gives an average design. The effects of packet drops and delays on the quantized filters are then evaluated, leading to a single unified framework for simultaneously dealing with quantization, packet drops and delays. Sufficient conditions on the stability of estimation error covariance matrix are provided.
Keywords :
covariance matrices; discrete time filters; error statistics; quantisation (signal); random processes; state estimation; telecommunication network reliability; covariance matrix; data packet delay; data packet drop; data quantization effect; discrete time process; logarithmic quantizer; quantized filter design method; random variable; stability condition; state estimation error; unreliable communication network; worst-case design; Communication networks; Delay effects; Design methodology; Filters; Quantization; Random variables; Stability; State estimation; Sufficient conditions; Uncertainty;
Conference_Titel :
Asian Control Conference, 2009. ASCC 2009. 7th
Conference_Location :
Hong Kong
Print_ISBN :
978-89-956056-2-2
Electronic_ISBN :
978-89-956056-9-1
