Improved robust Kalman filtering for uncertain systems with missing measurements
Version 2 2024-06-04, 01:33
Version 1 2015-03-20, 15:10
chapter
posted on 2024-06-04, 01:33 authored by H Rezaei, Shady MohamedShady Mohamed, RM Esfanjani, S NahavandiIn this paper, a novel robust finite-horizon Kalman filter is developed for discrete linear time-varying systems with missing measurements and normbounded parameter uncertainties. The missing measurements are modelled by a Bernoulli distributed sequence and the system parameter uncertainties are in the state and output matrices. A two stage recursive structure is considered for the Kalman filter and its parameters are determined guaranteeing that the covariances of the state estimation errorsare not more than the known upper bound. Finally, simulation results are presented to illustrate the outperformance of the proposed robust estimator compared with the previous results in the literature.
History
Volume
8836Chapter number
62Pagination
509-518ISSN
0302-9743eISSN
1611-3349ISBN-13
9783319126425Language
engPublication classification
B Book chapter, B1 Book chapterCopyright notice
2014, SpringerExtent
83Editor/Contributor(s)
Loo CK, Yap KS, Wong KW, Teoh A, Huang KPublisher
SpringerPlace of publication
Berlin, GermanyTitle of book
Neural information processing : 21st International Conference ICONIP 2014 Kuching, Malaysia, November 3-6, 2014 Proceedings, Part IIISeries
Lecture notes in computer scienceUsage metrics
Categories
No categories selectedKeywords
Licence
Exports
RefWorks
BibTeX
Ref. manager
Endnote
DataCite
NLM
DC