The paper addresses state estimation for discrete-time systems with binary (threshold) measurements by following a Maximum A posteriori Probability (MAP) approach and exploiting a Moving Horizon (MH) approximation of the MAP cost-function. It is shown that, for a linear system and noise distributions with log-concave probability density function, the proposed MH-MAP state estimator involves the solution, at each sampling interval, of a convex optimization problem. Application of the MH-MAP estimator to dynamic estimation of a diffusion field given pointwise-in-time-and-space binary measurements of the field is also illustrated and, finally, simulation results relative to this application are shown to demonstrate the effectiveness of the proposed approach.
MAP Moving Horizon state estimation with binary measurements / Battistelli, Giorgio; Chisci, Luigi; Forti, Nicola; Gherardini, Stefano. - ELETTRONICO. - (2016), pp. 5413-5418. (Intervento presentato al convegno 2016 American Control Conference (ACC)) [10.1109/ACC.2016.7526518].
MAP Moving Horizon state estimation with binary measurements
BATTISTELLI, GIORGIO;CHISCI, LUIGI;FORTI, NICOLA;GHERARDINI, STEFANO
2016
Abstract
The paper addresses state estimation for discrete-time systems with binary (threshold) measurements by following a Maximum A posteriori Probability (MAP) approach and exploiting a Moving Horizon (MH) approximation of the MAP cost-function. It is shown that, for a linear system and noise distributions with log-concave probability density function, the proposed MH-MAP state estimator involves the solution, at each sampling interval, of a convex optimization problem. Application of the MH-MAP estimator to dynamic estimation of a diffusion field given pointwise-in-time-and-space binary measurements of the field is also illustrated and, finally, simulation results relative to this application are shown to demonstrate the effectiveness of the proposed approach.
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MAPMH_binary.pdf
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