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12 results on '"Desrochers, Benoit"'

1. Enclosing the Sliding Surfaces of a Controlled Swing

Author

Jaulin, Luc and Desrochers, Benoît

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Logic in Computer Science, G.1.0, G.1.7
Abstract

When implementing a non-continuous controller for a cyber-physical system, it may happen that the evolution of the closed-loop system is not anymore piecewise differentiable along the trajectory, mainly due to conditional statements inside the controller. This may lead to some unwanted chattering effects than may damage the system. This behavior is difficult to observe even in simulation. In this paper, we propose an interval approach to characterize the sliding surface which corresponds to the set of all states such that the state trajectory may jump indefinitely between two distinct behaviors. We show that the recent notion of thick sets will allows us to compute efficiently an outer approximation of the sliding surface of a given class of hybrid system taking into account all set-membership uncertainties. An application to the verification of the controller of a child swing is considered to illustrate the principle of the approach., Comment: In Proceedings SNR 2020, arXiv:2101.05256

Published
2021
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2. Minkowski Operations of Sets with Application to Robot Localization

Author

Desrochers, Benoit and Jaulin, Luc

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computational Geometry, Computer Science - Systems and Control, interval analysis
Abstract

This papers shows that using separators, which is a pair of two complementary contractors, we can easily and efficiently solve the localization problem of a robot with sonar measurements in an unstructured environment. We introduce separators associated with the Minkowski sum and the Minkowski difference in order to facilitate the resolution. A test-case is given in order to illustrate the principle of the approach., Comment: In Proceedings SNR 2017, arXiv:1704.02421

Published
2017
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3. Thick Separators

Author

Jaulin, Luc, Desrochers, Benoit, Kacprzyk, Janusz, Series Editor, Ceberio, Martine, editor, and Kreinovich, Vladik, editor

Published
2020
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12. Simultaneous Localization and Mapping in Unstructured Environments

Author

Desrochers, Benoît, DGA Techniques Navales, Direction générale de l'Armement (DGA), Université Bretagne Loire, Luc Jaulin, and DESROCHERS, Benoit

Subjects
[INFO.INFO-AI] Computer Science [cs]/Artificial Intelligence [cs.AI], [SPI.AUTO] Engineering Sciences [physics]/Automatic, localisation, [INFO.INFO-AO]Computer Science [cs]/Computer Arithmetic, SLAM, [INFO.INFO-AO] Computer Science [cs]/Computer Arithmetic, analyse par intervalles, robotique, interval analysis, AUV, [SPI.AUTO]Engineering Sciences [physics]/Automatic, [INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI]
Abstract

This thesis deals with the simultaneous localization and mapping (SLAM) problem in unstructured environments, \textit{i.e.} which cannot be described by geometrical features. This type of environment frequently occurs in an underwater context.Unlike classical approaches, the environment is not described by a collection of punctual features or landmarks, but directly by sets. These sets, called shapes, are associated with physical features such as the relief, some textures or, in a more symbolic way, the space free of obstacles that can be sensed around a robot. In a theoretical point of view, the SLAM problem is formalized as an hybrid constraint network where the variables are vectors and subsets of $\mathbb{R}^{n}$. Whereas an uncertain real number is enclosed in an interval, an uncertain shape is enclosed in an interval of sets. The main contribution of this thesis is the introduction of a new formalism, based on interval analysis, able to deal with these domains. As an application, we illustrate our method on a SLAM problem based on bathymetric data acquired by an autonomous underwater vehicle (AUV)., Cette thèse étudie le problème de la localisation et de la cartographie simultanée (SLAM), dans des environnements non structurés, c'est-à-dire, qui ne peuvent pas être décrits par des équations ou des formes géométriques. Ces types d'environements sont souvent rencontrés dans le domaine sous-marin.Contrairement aux approches classiques, l'environnement n'est pas modélisé par une collection de descripteurs ou d'amers ponctuels, mais directement par des ensembles. Ces ensembles, appelés forme ou shape, sont associés à des caractéristiques physiques de l'environnement, comme par exemple, des textures, du relief ou, de manière plus symbolique, à l'espace libre autour du véhicule.D'un point de vue théorique, le problème du SLAM, basé sur des formes, est formalisé par un réseau de contraintes hybrides dont les variables sont des vecteurs de $\mathbb{R}^{n}$ et des sous-ensembles de $\mathbb{R}^{n}$. De la même façon que l'incertitude sur une variable réelle est représentée par un intervalle de réels, l'incertitude sur les formes sera représenté par un intervalle de forme. La principale contribution de cette thèse est de proposer un formalisme, basé sur le calcul par intervalle, capable de calculer ces domaines. En application, les algorithmes développés ont été appliqués au problème du SLAM à partir de données bathymétriques recueillies par un véhicule sous-marin autonome (AUV).

Published
2018

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