Du, Tao; Guo, Lei Unbiased information filtering for systems with missing measurement based on disturbance estimation. (English) Zbl 1395.93533 J. Franklin Inst. 353, No. 4, 936-954 (2016). Summary: This paper designs the information filters for a class of linear discrete-time systems with unknown disturbance. A recursive three-step information filter (RTSIF) is presented at first, which is used to estimate the unknown disturbance and state separately. In the presence of measurement dropout, a recursive three-step information filter with missing measurement (RTSIFMM) is also developed, in which the missing measurement is modelled as Bernoulli process with a binary variable. Two types of stochastic stability are introduced to give the boundedness of proposed filter. It is shown that the estimation error will be bounded, if some assumptions are satisfied. The relationships between the designed filter in this paper and some existing results are given. Finally, a simulation example is applied to demonstrate the effectiveness of the proposed filter. Cited in 3 Documents MSC: 93E11 Filtering in stochastic control theory 93E10 Estimation and detection in stochastic control theory 93B51 Design techniques (robust design, computer-aided design, etc.) 93C55 Discrete-time control/observation systems 93E15 Stochastic stability in control theory 93C05 Linear systems in control theory Keywords:unbiased information filtering; missing measurement systems; disturbance estimation; linear discrete-time systems; stochastic stability PDFBibTeX XMLCite \textit{T. Du} and \textit{L. Guo}, J. Franklin Inst. 353, No. 4, 936--954 (2016; Zbl 1395.93533) Full Text: DOI References: [1] Kitanidis, Peter K., Unbiased minimum-variance linear state estimation, Automatica, 23, 6, 775-778, (1987) · Zbl 0627.93065 [2] Jie Chen, Ron J. 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