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1. Méthode fiable d’estimation d'état non-linéaire impliquant des incertitudes temporelles

Author

Lyudmila Mihaylova, Sandor M. Veres, Luc Jaulin, Fabrice Le Bars, Simon Rohou, Lab-STICC_ENSTAB_CID_PRASYS, Laboratoire des sciences et techniques de l'information, de la communication et de la connaissance (Lab-STICC), École Nationale d'Ingénieurs de Brest (ENIB)-Université de Bretagne Sud (UBS)-Université de Brest (UBO)-École Nationale Supérieure de Techniques Avancées Bretagne (ENSTA Bretagne)-Institut Mines-Télécom [Paris] (IMT)-Centre National de la Recherche Scientifique (CNRS)-Université Bretagne Loire (UBL)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-École Nationale d'Ingénieurs de Brest (ENIB)-Université de Bretagne Sud (UBS)-Université de Brest (UBO)-École Nationale Supérieure de Techniques Avancées Bretagne (ENSTA Bretagne)-Institut Mines-Télécom [Paris] (IMT)-Centre National de la Recherche Scientifique (CNRS)-Université Bretagne Loire (UBL)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT), and University of Sheffield [Sheffield]

Subjects

tubes, 0209 industrial biotechnology, Computer science, Computation, [MATH.MATH-DS]Mathematics [math]/Dynamical Systems [math.DS], 0102 computer and information sciences, 02 engineering and technology, 01 natural sciences, [SPI.AUTO]Engineering Sciences [physics]/Automatic, [INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI], contractors, Set (abstract data type), 020901 industrial engineering & automation, Bounding overwatch, [INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO], state estimation, Electrical and Electronic Engineering, robotics, non-linear systems, Mobile robot, Nonlinear system, 010201 computation theory & mathematics, Control and Systems Engineering, Bounded function, Trajectory, Local consistency, time uncertainties, constraints, Algorithm, [MATH.MATH-NA]Mathematics [math]/Numerical Analysis [math.NA]

Abstract

This paper presents a new approach to bounded-error state estimation involving time uncertainties. For a given bounded\ud observation of a continuous-time non-linear system, it is assumed that neither the values of the observed data nor their\ud acquisition instants are known exactly. For systems described by state-space equations, we prove theoretically and demonstrate\ud by simulations that the proposed constraint propagation approach enables the computation of bounding sets for the systems’\ud state vectors that are consistent with the uncertain measurements. The bounding property of the method is guaranteed even\ud if the system is strongly non-linear. Compared with other existing constraint propagation approaches, the originality of the\ud method stems from our definition and use of bounding tubes which enable to enclose the set of all feasible trajectories inside\ud sets. This method makes it possible to build specific operators for the propagation of time uncertainties through the whole\ud trajectory. The efficiency of the approach is illustrated on two examples: the dynamic localization of a mobile robot and the\ud correction of a drifting clock.

Published

2018