Jose Jiménez-López, Rosa María Fernández Alcalá1, J. Navarro-Moreno, Ruiz Molina
14:30 - 16:00 | Tue 5 Jul | Pentland B | R4.4
This paper is concerned with the optimal quaternion estimation problem for linear discrete-time stochastic systems with intermittent observations by using a widely linear processing. The uncertainty of the observations is modeled by a Bernoulli distributed quaternion variable with known parameters. An augmented linear state-space model is developed to describe the evolution of both the quaternion state and their noisy observations. On the basis of that model, the optimal widely linear filter, predictor and smoothers (fixed-point and fixed-interval), that only depend on probabilities, are obtained via an innovation analysis approach. The special case of semi-widely estimators, which appears under C-properness, is also studied. Simulation examples demonstrate the effectiveness and applicability of the proposed estimators.