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Linearly Reconfigurable Kalman Filtering for a Vector Process

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arxiv 1212.3376 v2 pith:HELTTCUL submitted 2012-12-14 cs.IT math.IT

Linearly Reconfigurable Kalman Filtering for a Vector Process

classification cs.IT math.IT
keywords problemobservationparameterscasefoundkalmanlinearlymin-max-mse
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In this paper, we consider a dynamic linear system in state-space form where the observation equation depends linearly on a set of parameters. We address the problem of how to dynamically calculate these parameters in order to minimize the mean-squared error (MSE) of the state estimate achieved by a Kalman filter. We formulate and solve two kinds of problems under a quadratic constraint on the observation parameters: minimizing the sum MSE (Min-Sum-MSE) or minimizing the maximum MSE (Min-Max-MSE). In each case, the optimization problem is divided into two sub-problems for which optimal solutions can be found: a semidefinite programming (SDP) problem followed by a constrained least-squares minimization. A more direct solution is shown to exist for the special case of a scalar observation; in particular, the Min-Sum-MSE solution can be found directly using a generalized eigendecomposition, and is optimally solved utilizing Rayleigh quotient, and the Min-Max-MSE problem reduces to an SDP feasibility test that can be solved via the bisection method.

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