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    Publication
    On the use of shape constraints for state estimation in reaction systems
    (01-01-2016)
    Srinivasan, Sriniketh
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    Darsha Kumar, D. M.
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    Billeter, Julien
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    Bonvin, Dominique
    State estimation techniques are used for improving the quality of measured signals and for reconstructing unmeasured quantities. In chemical reaction systems, nonlinear estimators are often used to improve the quality of estimated concentrations. These nonlinear estimators, which include the extended Kalman filter, the receding-horizon nonlinear Kalman filter and the moving-horizon estimator, use a state-space representation in terms of concentrations. An alternative to the representation of chemical reaction systems in terms of concentrations consists in representing these systems in terms of extents. This paper formulates the state estimation problem in terms of extents, which allows imposing additional shape constraints on the sign, monotonicity and concavity/convexity properties of extents. The addition of shape constraints often leads to significantly improved state estimates. A simulated example illustrates the formulation of the state estimation problem in terms of concentrations and extents, and the use of shape constraints.
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    Publication
    State estimation in systems with wireless devices
    (01-01-2005)
    Khan, M. E.
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    Raghavan, H.
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    Brahmajosyula, J.
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    Kumar, S.
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    A general framework for modeling and analyzing systems with wireless devices is proposed. This framework is used to derive an optimal state estimator when the network introduces random communication delays and packet losses. The framework is general and allows us to analyze earlier results derived in the context of state estimation with delayed and missing observations.