Title :
Optimal filtering schemes for linear discrete-time systems-an LMI approach
Author :
Palhares, Reinaldo M. ; Peres, Pedro L D
Author_Institution :
Dept. of Telematics, Campinas Univ., SP, Brazil
Abstract :
This paper deals with the optimal filtering problem constrained to input noise signal corrupting the measurement output for linear discrete-time systems. The transfer matrix ℋ2 and/or ℋ∞ norms are used as criteria in an estimation error sense. First, the optimal ℋ2 filtering gain is obtained from the ℋ2 norm state-space definition. Then the attenuation of arbitrary input signals is considered in an ℋ ∞ setting. Using the discrete-time version of the Bounded Real Lemma on the estimation error dynamics, a linear stable filter guaranteeing the optimal ℋ∞ attenuation level is achieved. Finally, the central ℋ∞ filter problem is solved, yielding a compromise between the preceding filter designs. All these filter design problems are formulated in a new convex optimization framework using LMIs. A numerical example is presented
Keywords :
discrete time filters; filtering theory; linear systems; state-space methods; transfer function matrices; ℋ2 norm state-space definition; Bounded Real Lemma; LMI approach; attenuation; convex optimization framework; discrete-time version; estimation error dynamics; estimation error sense; input noise signal; linear discrete-time systems; linear stable filter; measurement output corruption; optimal ℋ∞ attenuation level; optimal ℋ2 filtering gain; optimal filtering schemes; transfer matrix ℋ∞ norm; transfer matrix ℋ2 norm; Attenuation; Estimation error; Filtering; Noise level; Noise measurement; Nonlinear filters; Riccati equations; Telematics; Transfer functions; Upper bound;
Conference_Titel :
Industrial Electronics, 1997. ISIE '97., Proceedings of the IEEE International Symposium on
Conference_Location :
Guimaraes
Print_ISBN :
0-7803-3936-3
DOI :
10.1109/ISIE.1997.648897
