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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Hardware Testbed for Relative Navigation of Unmanned Vehicles Using Visual Servoing

Monda, Mark J. 12 June 2006 (has links)
Future generations of unmanned spacecraft, aircraft, ground, and submersible vehicles will require precise relative navigation capabilities to accomplish missions such as formation operations and autonomous rendezvous and docking. The development of relative navigation sensing and control techniques is quite challenging, in part because of the difficulty of accurately simulating the physical relative navigation problems in which the control systems are designed to operate. A hardware testbed that can simulate the complex relative motion of many different relative navigation problems is being developed. This testbed simulates near-planar relative motion by using software to prescribe the motion of an unmanned ground vehicle and provides the attached sensor packages with realistic relative motion. This testbed is designed to operate over a wide variety of conditions in both indoor and outdoor environments, at short and long ranges, and its modular design allows it to easily test many different sensing and control technologies. / Master of Science
42

A universal iterative learning stabilizer for a class of MIMO systems.

Jiang, Ping, Chen, H., Bamforth, C.A. January 2006 (has links)
No / Design of iterative learning control (ILC) often requires some prior knowledge about a system's control matrix. In some applications, such as uncalibrated visual servoing, this kind of knowledge may be unavailable so that a stable learning control cannot always be achieved. In this paper, a universal ILC is proposed for a class of multi-input multi-output (MIMO) uncertain nonlinear systems with no prior knowledge about the system control gain matrix. It consists of a gain matrix selector from the unmixing set and a learned compensator in a form of the positive definite discrete matrix kernel, corresponding to rough gain matrix probing and refined uncertainty compensating, respectively. Asymptotic convergence for a trajectory tracking within a finite time interval is achieved through repetitive tracking. Simulations and experiments of uncalibrated visual servoing are carried out in order to verify the validity of the proposed control method.
43

Multistage Localization for High Precision Mobile Manipulation Tasks

Mobley, Christopher James 03 March 2017 (has links)
This paper will present a multistage localization approach for an autonomous industrial mobile manipulator (AIMM). This approach allows tasks with an operational scope outside the range of the robot's manipulator to be completed without having to recalibrate the position of the end-effector each time the robot's mobile base moves to another position. This is achieved by localizing the AIMM within its area of operation (AO) using adaptive Monte Carlo localization (AMCL), which relies on the fused odometry and sensor messages published by the robot, as well as a 2-D map of the AO, which is generated using an optimization-based smoothing simultaneous localization and mapping (SLAM) technique. The robot navigates to a predefined start location in the map incorporating obstacle avoidance through the use of a technique called trajectory rollout. Once there, the robot uses its RGB-D sensor to localize an augmented reality (AR) tag in the map frame. Once localized, the identity and the 3-D position and orientation, collectively known as pose, of the tag are used to generate a list of initial feature points and their locations based on a priori knowledge. After the end-effector moves to the approximate location of a feature point provided by the AR tag localization, the feature point's location, as well as the end-effector's pose are refined to within a user specified tolerance through the use of a control loop, which utilizes images from a calibrated machine vision camera and a laser pointer, simulating stereo vision, to localize the feature point in 3-D space using computer vision techniques and basic geometry. This approach was implemented on two different ROS enabled robots, the Clearpath Robotics' Husky and the Fetch Robotics' Fetch, in order to show the utility of the multistage localization approach in executing two tasks which are prevalent in both manufacturing and construction: drilling and sealant application. The proposed approach was able to achieve an average accuracy of ± 1 mm in these operations, verifying its efficacy for tasks which have a larger operational scope than that of the range of the AIMM's manipulator and its robustness to general applications in manufacturing. / Master of Science / This paper will present a multistage localization approach for an autonomous industrial mobile manipulator (AIMM). This approach allows for tasks with an operational scope outside the range of the robot’s manipulator to be completed without having to recalibrate the position of the end-effector each time the robot’s mobile base moves to another position. This is achieved by first localizing the AIMM within its area of operation (AO) using a probabilistic state estimator. The robot navigates to a predefined start location in the map incorporating obstacle avoidance through the use of a technique called trajectory rollout, which samples the space of feasible controls, generates trajectories through forward simulation, and chooses the simulated trajectory that minimizes a cost function. Once there, the robot uses a depth camera to localize an augmented reality (AR) tag in the map frame. Once localized, the identity and the 3-D position and orientation, collectively known as pose, of the tag are used to generate a list of initial feature points and their locations based on a <i>priori</i> knowledge of the operation, which was associated with the AR tag’s identity. After the end-effector moves to the approximate location of a feature point provided by the AR tag localization, the feature point’s location, as well as the end-effector’s pose, are refined to within a user specified tolerance through the use of a control loop. This approach was implemented on two different ROS-enabled robots, the Clearpath Robotics’ Husky and the Fetch Robotics’ Fetch, in order to show the utility of the multistage localization approach in executing two tasks which are prevalent in both manufacturing and construction: drilling and sealant application. The proposed approach was able to achieve an average accuracy of ± 1 mm in these operations, verifying its efficacy for tasks which have a larger operational scope than that of the range of the AIMM’s manipulator and its robustness to general applications in manufacturing.
44

Utilisation of photometric moments in visual servoing / Utilisation de moments photométriques en asservissement visuel

Bakthavatchalam, Manikandan 17 March 2015 (has links)
Cette thèse s'intéresse à l'asservissement visuel, une technique de commande à retour d'information visuelle permettant de contrôler le mouvement de systèmes équipées de caméras tels que des robots. Pour l'asservissement visuel, il est essentiel de synthétiser les informations obtenues via la caméra et ainsi établir la relation entre l'évolution de ces informations et le déplacement de la caméra dans l'espace. Celles-ci se basent généralement sur l'extraction et le suivi de primitives géométriques comme des points ou des lignes droites dans l'image. Il a été montré que le suivi visuel et les méthodes de traitement d'images restent encore un frein à l'expansion des techniques d'asservissement visuel. C'est pourquoi la distribution de l'intensité lumineuse de l'image a également été utilisée comme caractéristique visuelle. Finalement, les caractéristiques visuelles basée sur les moments de l'image ont permis de définir des lois de commande découplées. Cependant ces lois de commande sont conditionnées par l'obtention d'une région parfaitement segmentée ou d'un ensemble discret de points dans la scène. Ce travail propose donc une stratégie de capture de l'intensité lumineuse de façon indirecte, par le biais des moments calculés sur toute l'image. Ces caractéristiques globales sont dénommées moments photométriques. Les développements théoriques établis dans cette thèse tendent à définir une modélisation analytique de la matrice d'interaction relative aux moments photométriques. Ces derniers permettent de réaliser une tâche d'asservissement visuel dans des scènes complexes sans suivi visuel ni appariement. Un problème pratique rencontré par cette méthode dense d'asservissement visuel est l'apparition et la disparition de portions de l'image durant la réalisation de la tâche. Ce type de problème peut perturber la commande, voire dans le pire des cas conduire à l’échec de la réalisation de la tâche. Afin de résoudre ce problème, une modélisation incluant des poids spatiaux est proposée. Ainsi, la pondération spatiale, disposant d'une structure spécifique, est introduite de telle sorte qu'un modèle analytique de la matrice d'interaction peut être obtenue comme une simple fonction de la nouvelle formulation des moments photométriques. Une partie de ce travail apporte également une contribution au problème de la commande simultanée des mouvements de rotation autour des axes du plan image. Cette approche définit les caractéristiques visuelles de façon à ce que l'asservissement soit optimal en fonction de critères spécifiques. Quelques critères de sélection basées sur la matrice d'interaction ont été proposés. Ce travail ouvre donc sur d'intéressantes perspectives pour la sélection d'informations visuelles pour l'asservissement visuel basé sur les moments de l'image. / This thesis is concerned with visual servoing, a feedback control technique for controlling camera-equipped actuated systems like robots. For visual servoing, it is essential to synthesize visual information from the camera image in the form of visual features and establish the relationship between their variations and the spatial motion of the camera. The earliest visual features are dependent on the extraction and visual tracking of geometric primitives like points and straight lines in the image. It was shown that visual tracking and image processing procedures are a bottleneck to the expansion of visual servoing methods. That is why the image intensity distribution has also been used directly as a visual feature. Finally, visual features based on image moments allowed to design decoupled control laws but they are restricted by the availability of a well-segmented regions or a discrete set of points in the scene. This work proposes the strategy of capturing the image intensities not directly, but in the form of moments computed on the whole image plane. These global features have been termed photometric moments. Theoretical developments are made to derive the analytical model for the interaction matrix of the photometric moments. Photometric moments enable to perform visual servoing on complex scenes without visual tracking or image matching procedures, as long as there is no severe violation of the zero border assumption (ZBA). A practical issue encountered in such dense VS methods is the appearance and disappearance of portions of the scene during the visual servoing. Such unmodelled effects strongly violate the ZBA assumption and can disturb the control and in the worst case, result in complete failure to convergence. To handle this important practical problem, an improved modelling scheme for the moments that allows for inclusion of spatial weights is proposed. Then, spatial weighting functions with a specific structure are exploited such that an analytical model for the interaction matrix can be obtained as simple functions of the newly formulated moments. A part of this work provides an additional contribution towards the problem of simultaneous control of rotational motions around the image axes. The approach is based on connecting the design of the visual feature such that the visual servoing is optimal with respect to specific criteria. Few selection criteria based on the interaction matrix was proposed. This contribution opens interesting possibilities and finds immediate applications in the selection of visual features in image moments-based VS.
45

Development of Integration Algorithms for Vision/Force Robot Control with Automatic Decision System

Bdiwi, Mohamad 10 June 2014 (has links)
In advanced robot applications, the challenge today is that the robot should perform different successive subtasks to achieve one or more complicated tasks similar to human. Hence, this kind of tasks required to combine different kind of sensors in order to get full information about the work environment. However, from the point of view of control, more sensors mean more possibilities for the structure of the control system. As shown previously, vision and force sensors are the most common external sensors in robot system. As a result, in scientific papers it can be found numerous control algorithms and different structures for vision/force robot control, e.g. shared, traded control etc. The lacks in integration of vision/force robot control could be summarized as follows: • How to define which subspaces should be vision, position or force controlled? • When the controller should switch from one control mode to another one? • How to insure that the visual information could be reliably used? • How to define the most appropriated vision/force control structure? In many previous works, during performing a specified task one kind of vision/force control structure has been used which is pre-defined by the programmer. In addition to that, if the task is modified or changed, it would be much complicated for the user to describe the task and to define the most appropriated vision/force robot control especially if the user is inexperienced. Furthermore, vision and force sensors are used only as simple feedback (e.g. vision sensor is used usually as position estimator) or they are intended to avoid the obstacles. Accordingly, much useful information provided by the sensors which help the robot to perform the task autonomously is missed. In our opinion, these lacks of defining the most appropriate vision/force robot control and the weakness in the utilization from all the information which could be provided by the sensors introduce important limits which prevent the robot to be versatile, autonomous, dependable and user-friendly. For this purpose, helping to increase autonomy, versatility, dependability and user-friendly in certain area of robotics which requires vision/force integration is the scope of this thesis. More concretely: 1. Autonomy: In the term of an automatic decision system which defines the most appropriated vision/force control modes for different kinds of tasks and chooses the best structure of vision/force control depending on the surrounding environments and a priori knowledge. 2. Versatility: By preparing some relevant scenarios for different situations, where both the visual servoing and force control are necessary and indispensable. 3. Dependability: In the term of the robot should depend on its own sensors more than on reprogramming and human intervention. In other words, how the robot system can use all the available information which could be provided by the vision and force sensors, not only for the target object but also for the features extraction of the whole scene. 4. User-friendly: By designing a high level description of the task, the object and the sensor configuration which is suitable also for inexperienced user. If the previous properties are relatively achieved, the proposed robot system can: • Perform different successive and complex tasks. • Grasp/contact and track imprecisely placed objects with different poses. • Decide automatically the most appropriate combination of vision/force feedback for every task and react immediately to the changes from one control cycle to another because of occurrence of some unforeseen events. • Benefit from all the advantages of different vision/force control structures. • Benefit from all the information provided by the sensors. • Reduce the human intervention or reprogramming during the execution of the task. • Facilitate the task description and entering of a priori-knowledge for the user, even if he/she is inexperienced.
46

Robot Visual Servoing Using Discontinuous Control

Muñoz Benavent, Pau 03 November 2017 (has links)
This work presents different proposals to deal with common problems in robot visual servoing based on the application of discontinuous control methods. The feasibility and effectiveness of the proposed approaches are substantiated by simulation results and real experiments using a 6R industrial manipulator. The main contributions are: - Geometric invariance using sliding mode control (Chapter 3): the defined higher-order invariance is used by the proposed approaches to tackle problems in visual servoing. Proofs of invariance condition are presented. - Fulfillment of constraints in visual servoing (Chapter 4): the proposal uses sliding mode methods to satisfy mechanical and visual constraints in visual servoing, while a secondary task is considered to properly track the target object. The main advantages of the proposed approach are: low computational cost, robustness and fully utilization of the allowed space for the constraints. - Robust auto tool change for industrial robots using visual servoing (Chapter 4): visual servoing and the proposed method for constraints fulfillment are applied to an automated solution for tool changing in industrial robots. The robustness of the proposed method is due to the control law of the visual servoing, which uses the information acquired by the vision system to close a feedback control loop. Furthermore, sliding mode control is simultaneously used in a prioritized level to satisfy the aforementioned constraints. Thus, the global control accurately places the tool in the warehouse, but satisfying the robot constraints. - Sliding mode controller for reference tracking (Chapter 5): an approach based on sliding mode control is proposed for reference tracking in robot visual servoing using industrial robot manipulators. The novelty of the proposal is the introduction of a sliding mode controller that uses a high-order discontinuous control signal, i.e., joint accelerations or joint jerks, in order to obtain a smoother behavior and ensure the robot system stability, which is demonstrated with a theoretical proof. - PWM and PFM for visual servoing in fully decoupled approaches (Chapter 6): discontinuous control based on pulse width and pulse frequency modulation is proposed for fully decoupled position based visual servoing approaches, in order to get the same convergence time for camera translation and rotation. Moreover, other results obtained in visual servoing applications are also described. / Este trabajo presenta diferentes propuestas para tratar problemas habituales en el control de robots por realimentación visual, basadas en la aplicación de métodos de control discontinuos. La viabilidad y eficacia de las propuestas se fundamenta con resultados en simulación y con experimentos reales utilizando un robot manipulador industrial 6R. Las principales contribuciones son: - Invariancia geométrica utilizando control en modo deslizante (Capítulo 3): la invariancia de alto orden definida aquí es utilizada después por los métodos propuestos, para tratar problemas en control por realimentación visual. Se apuertan pruebas teóricas de la condición de invariancia. - Cumplimiento de restricciones en control por realimentación visual (Capítulo 4): esta propuesta utiliza métodos de control en modo deslizante para satisfacer restricciones mecánicas y visuales en control por realimentación visual, mientras una tarea secundaria se encarga del seguimiento del objeto. Las principales ventajas de la propuesta son: bajo coste computacional, robustez y plena utilización del espacio disponible para las restricciones. - Cambio de herramienta robusto para un robot industrial mediante control por realimentación visual (Capítulo 4): el control por realimentación visual y el método propuesto para el cumplimiento de las restricciones se aplican a una solución automatizada para el cambio de herramienta en robots industriales. La robustez de la propuesta radica en el uso del control por realimentación visual, que utiliza información del sistema de visión para cerrar el lazo de control. Además, el control en modo deslizante se utiliza simultáneamente en un nivel de prioridad superior para satisfacer las restricciones. Así pues, el control es capaz de dejar la herramienta en el intercambiador de herramientas de forma precisa, a la par que satisface las restricciones del robot. - Controlador en modo deslizante para seguimiento de referencia (Capítulo 5): se propone un enfoque basado en el control en modo deslizante para seguimiento de referencia en robots manipuladores industriales controlados por realimentación visual. La novedad de la propuesta radica en la introducción de un controlador en modo deslizante que utiliza la señal de control discontinua de alto orden, i.e. aceleraciones o jerks de las articulaciones, para obtener un comportamiento más suave y asegurar la estabilidad del sistema robótico, lo que se demuestra con una prueba teórica. - Control por realimentación visual mediante PWM y PFM en métodos completamente desacoplados (Capítulo 6): se propone un control discontinuo basado en modulación del ancho y frecuencia del pulso para métodos completamente desacoplados de control por realimentación visual basados en posición, con el objetivo de conseguir el mismo tiempo de convergencia para los movimientos de rotación y traslación de la cámara . Además, se presentan también otros resultados obtenidos en aplicaciones de control por realimentación visual. / Aquest treball presenta diferents propostes per a tractar problemes habituals en el control de robots per realimentació visual, basades en l'aplicació de mètodes de control discontinus. La viabilitat i eficàcia de les propostes es fonamenta amb resultats en simulació i amb experiments reals utilitzant un robot manipulador industrial 6R. Les principals contribucions són: - Invariància geomètrica utilitzant control en mode lliscant (Capítol 3): la invariància d'alt ordre definida ací és utilitzada després pels mètodes proposats, per a tractar problemes en control per realimentació visual. S'aporten proves teòriques de la condició d'invariància. - Compliment de restriccions en control per realimentació visual (Capítol 4): aquesta proposta utilitza mètodes de control en mode lliscant per a satisfer restriccions mecàniques i visuals en control per realimentació visual, mentre una tasca secundària s'encarrega del seguiment de l'objecte. Els principals avantatges de la proposta són: baix cost computacional, robustesa i plena utilització de l'espai disponible per a les restriccions. - Canvi de ferramenta robust per a un robot industrial mitjançant control per realimentació visual (Capítol 4): el control per realimentació visual i el mètode proposat per al compliment de les restriccions s'apliquen a una solució automatitzada per al canvi de ferramenta en robots industrials. La robustesa de la proposta radica en l'ús del control per realimentació visual, que utilitza informació del sistema de visió per a tancar el llaç de control. A més, el control en mode lliscant s'utilitza simultàniament en un nivell de prioritat superior per a satisfer les restriccions. Així doncs, el control és capaç de deixar la ferramenta en l'intercanviador de ferramentes de forma precisa, a la vegada que satisfà les restriccions del robot. - Controlador en mode lliscant per a seguiment de referència (Capítol 5): es proposa un enfocament basat en el control en mode lliscant per a seguiment de referència en robots manipuladors industrials controlats per realimentació visual. La novetat de la proposta radica en la introducció d'un controlador en mode lliscant que utilitza senyal de control discontínua d'alt ordre, i.e. acceleracions o jerks de les articulacions, per a obtindre un comportament més suau i assegurar l'estabilitat del sistema robòtic, la qual cosa es demostra amb una prova teòrica. - Control per realimentació visual mitjançant PWM i PFM en mètodes completament desacoblats (Capítol 6): es proposa un control discontinu basat en modulació de l'ample i la freqüència del pols per a mètodes completament desacoblats de control per realimentació visual basats en posició, amb l'objectiu d'aconseguir el mateix temps de convergència per als moviments de rotació i translació de la càmera. A més, es presenten també altres resultats obtinguts en aplicacions de control per realimentació visual. / Muñoz Benavent, P. (2017). Robot Visual Servoing Using Discontinuous Control [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/90430
47

Commande d'un robot de télé-échographie par asservissement visuel / Control a robot tele-echography by visual servoing

Li, Tao 14 February 2013 (has links)
Les robots légers utilisés pour la télé-échographie robotisée permettent, à l'expert médical, d'orienter à distance une sonde ultrasonore 2D. L'analyse en temps réel de l'image ultrasonore du patient, reçue via un lien de communication, permet à l'expert de définir un diagnostic. Les validations cliniques du concept de télé-échographie robotisée montrent qu'il est ainsi possible de pallier le manque d'experts en ultrasonographie sur des sites médicalement isolés. Le robot porte-sonde est positionné et maintenu sur le corps du patient par un assistant à partir des informations communiquées par le spécialiste via visioconférence. Cependant, la faible masse du robot, le fait qu'il soit maintenu par un assistant sur le corps du patient et les mouvements physiologiques du patient provoquent des perturbations dans la position de la sonde et engendrent ainsi des pertes des sections d'intérêt des organes étudiés. Les travaux de cette thèse ont consisté à développer une approche par asservissement visuel basé sur les moments d'image ultrasonore 2D. Le calcul des moments 2D étant basé sur les points du contour de la section d'intérêt, un algorithme de traitement d'images efficace est nécessaire pour détecter et suivre le contour d'intérêt en mouvement. Pour cela, une méthode de contour actif paramétrique basée sur les descripteurs de Fourier est présentée. Les lois de commandes correspondant à trois tâches autonomes autorisant la recherche et le maintien de visibilité d'un organe lors de l'acte médical télé-opéré sont implémentées et validées sur la plateforme robotique du projet ANR Prosit. / The light weight robots used for robotized tele-echography allow the medical expert to remotely operate a 2D-ultrasound probe. The real-time analysis of the patient's ultrasound images, received via a standard communication link, provides the expert with relevant information to define a diagnosis. The clinical validations of the robotized tele-echography concept show that it is possible to overcome the lack of sonographers in medically isolated sites. The robot probe-holder is usually positioned and held on the patient's body by a paramedical staff based on information provided by the specialist via videoconferencing. However, the small mass of the robot, the fact that it is held by an assistant on the patient's body and the patient's physiological movements cause disturbances in the position of the probe ; this thus can generate a loss of the region of interest of the organ being under investigation during the teleoperated medical act. This thesis work focuses on the development of a visual servoing approach based on 2D ultrasound image moments. 2D moments calculation is based on the contour points of the image section of interest, therefore an image-processing algorithm is needed to effectively detect and follow the contour of interest in motion. For this reason, a parametric active contour method based on Fourier descriptors is presented. The control laws, corresponding to three independent autonomous tasks to search and maintain the visibility of an organ within a given ultrasound plane during the tele-operated medical act are implemented and validated on robotic platform project ANR Prosit.
48

Going further with direct visual servoing / Aller plus loin avec les asservissements visuels directs

Bateux, Quentin 12 February 2018 (has links)
Dans cette thèse, nous nous concentrons sur les techniques d'asservissement visuel (AV), critiques pour de nombreuses applications de vision robotique et insistons principalement sur les AV directs. Afin d'améliorer l'état de l'art des méthodes directes, nous nous intéressons à plusieurs composantes des lois de contrôle d'AV traditionnelles. Nous proposons d'abord un cadre générique pour considérer l'histogramme comme une nouvelle caractéristique visuelle. Cela permet de définir des lois de contrôle efficaces en permettant de choisir parmi n'importe quel type d'histogramme pour décrire des images, depuis l'histogramme d'intensité à l'histogramme couleur, en passant par les histogrammes de Gradients Orientés. Une nouvelle loi d'asservissement visuel direct est ensuite proposée, basée sur un filtre particulaire pour remplacer la partie optimisation des tâches d'AV classiques, permettant d'accomplir des tâches associées à des fonctions de coûts hautement non linéaires et non convexes. L'estimation du filtre particulaire peut être calculée en temps réel à l'aide de techniques de transfert d'images permettant d'évaluer les mouvements de caméra associés aux déplacements des caractéristiques visuelles considérées dans l'image. Enfin, nous présentons une nouvelle manière de modéliser le problème de l'AV en utilisant l'apprentissage profond et les réseaux neuronaux convolutifs pour pallier à la difficulté de modélisation des problèmes non convexes via les méthodes analytiques classiques. En utilisant des techniques de transfert d'images, nous proposons une méthode permettant de générer rapidement des ensembles de données d'apprentissage de grande taille afin d'affiner des architectures de réseau pré-entraînés sur des tâches connexes, et résoudre des tâches d'AV. Nous montrons que cette méthode peut être appliquée à la fois pour modéliser des scènes connues, et plus généralement peut être utilisée pour modéliser des estimations de pose relative entre des couples de points de vue pris de scènes arbitraires. / In this thesis we focus on visual servoing (VS) techniques, critical for many robotic vision applications and we focus mainly on direct VS. In order to improve the state-of-the-art of direct methods, we tackle several components of traditional VS control laws. We first propose a method to consider histograms as a new visual servoing feature. It allows the definition of efficient control laws by allowing to choose from any type of his tograms to describe images, from intensity to color histograms, or Histograms of Oriented Gradients. A novel direct visual servoing control law is then proposed, based on a particle filter to perform the optimization part of visual servoing tasks, allowing to accomplish tasks associated with highly non-linear and non-convex cost functions. The Particle Filter estimate can be computed in real-time through the use of image transfer techniques to evaluate camera motions associated to suitable displacements of the considered visual features in the image. Lastly, we present a novel way of modeling the visual servoing problem through the use of deep learning and Convolutional Neural Networks to alleviate the difficulty to model non-convex problems through classical analytic methods. By using image transfer techniques, we propose a method to generate quickly large training datasets in order to fine-tune existing network architectures to solve VS tasks.We shows that this method can be applied both to model known static scenes, or more generally to model relative pose estimations between couples of viewpoints from arbitrary scenes.
49

Asservissement visuel direct utilisant les décompositions en shearlets et en ondelettes de l'image / Direct visual servoingusing shearlet and wavelet transforms of the image

Duflot, Lesley-Ann 13 July 2018 (has links)
L'asservissement visuel est un procédé consistant à utiliser l'information visuelle obtenue par un capteur afin de commander un système robotique. Ces informations, appelées primitives visuelles peuvent être d'ordre 2D ou 3D. Le travail présenté ici porte sur une nouvelle approche 2D utilisant des primitives directes : les décompositions de l'image en ondelettes ou en shearlets. Ces représentations présentent en effet l'avantage de décrire l'image sous différentes formes, mettant l'accent soit sur les basses fréquences de l'image, soit sur les hautes fréquences selon plusieurs directions. Les zones de l'image contenant beaucoup d'information, comme les contours ou les points singuliers, possèdent alors de forts coefficients dans la transformée en ondelettes ou en shearlets de l'image, tandis que les zones uniformes possèdent des coefficients proches de zéro. Les travaux de cette thèse montrent la précision et la robustesse de l'approche utilisant la décomposition en shearlets dans le cadre de l'imagerie échographique. Néanmoins, sa contribution majeure est l'élaboration d'une commande permettant d'utiliser au choix les ondelettes ou les shearlets ainsi que la validation de cette méthode sur caméra monoculaire et sur capteur de type tomographie par cohérence optique dans différentes conditions d'utilisation. Cette méthode présente des performances significatives en termes de précision et de robustesse et ouvre la porte vers une utilisation couplée de l'asservissement visuel et de l'acquisition comprimée. / A visual servoing scheme consists of a closed-loop control approach which uses visual information feedback to control the movement of a robotic system. This data, called visual features, can be 2D or 3D. This thesis deals with the development of a new generation of 2D direct visual servoing methods in which the signal control inputs are the coefficients of a multiscale image representation. Specially, we consider the use of multiscale image representations that are based on discrete wavelet and shearlet transformations. This kind of representations allows us to obtain several descriptions of the image based on either low or high frequencies levels. Indeed, high coefficients in the wavelet or in the shearlet transformation of the image correspond to image singularities. This thesis has begun with the development of a shearlet-based visual servoing for ultrasound imaging that has performed well in precision and robustness for this medical application. Nevertheless, the main contribution is a framework allowing us to use several multi-scale representations of the image. It was then tested with conventional white light camera and with an optical coherence tomography imaging system with nominal and unfavorable conditions. Then, the wavelet and the shearlet based methods showed their accuracy and their robustness in several conditions and led to the use of both visual servoing and compressed sensing as the main perspective of this work.
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Mobile Magnetic Microrobots Control and Study in Microfluidic Environment : New Tools for Biomedical Applications / Contrôle et étude de microrobots magnétiques mobiles en milieu microfluidique : nouveaux outils pour le biomédicale

Salmon, Hugo 07 October 2014 (has links)
Dans le domaine du développement d'outils de micromanipulation de haute précision pour le biomédical, les microrobots mobiles immergés font figures de technologie émergente prometteuse pour des applications in-vitro, puis à plus long terme pour l'in-vivo. Mes travaux portent sur l'étude de la propulsion de microrobots par voie magnétique dans des fluides circulant dans des microcanaux, à une échelle où les phénomènes d'adhérence et d'amortissement prévalent. Leur application pour des opérations de transduction est développée dans un deuxième volet.Un dispositif d'asservissement par vision à haute fréquence d’échantillonnage (~5kHz) a été développé rendant possible le contrôle sous champ magnétique uniforme ou gradient. Les performances du système ont notamment demandé l’implémentation d'une interface multi-tâches afin de pouvoir acquérir et traiter les images en parallèle de l'actuation du robot. L'analyse de la dynamique permet de mieux appréhender les phénomènes parfois imprévisibles liés au déplacement du robot, MagPol, intégré dans une puce microfluidique. Il peut réciproquement servir de capteur dans son environnement fluidique.Ce design original de robot a été conçu pour la micromanipulation et permet également d'explorer des nouvelles stratégies de déplacement. Ces capacités ont été éprouvées sur des objets de même taille qu'en biologie cellulaire (billes, bulles).Enfin, une démonstration de l'asservissement visuel en planification de tâche a été effectuée. Sous réserve de posséder un algorithme suffisamment performant, l'échantillonnage haute fréquence en temps réel devient possible et l'observation de performances sur des trajectoires complexes est démontrée. Les performances, la portabilité et la reproductibilité du système démontrent des capacités de transduction à haut débit qui sont très prometteuses pour l'aspect applicatif. / In the research for new high performances tool for micrometric scale manipulation, mobile microrobots immersed are considered as a promising technology for in-vitro applications, and with a long term view in-vivo. My work focuses on the propulsion study of mobile microrobots immersed in microfluidic channels controlled through electromagnets. At this scale, surface and damping phenomena predominates. Application for transduction operation is developed in a second part.A high sampling rate (≈5kHz) visual servoing setup have been developed making a control possible through uniform and gradient magnetic field. Performances of the system have notably required a multi-thread programmed user interface to acquire and analyze the frame in parallel of the robot actuation. Dynamic analysis allow to better apprehend the perturbation dynamics of the robot MagPol, integrated in a microfluidic chip. It can reciprocally serve as a sensor for in fluidic environment.MagPol design has been originally conceived for micromanipulation, and also allows to explore new displacement strategies. Its capacities have been tested on beads and bubbles equivalent to cell biology characteristic size (10µm – 100µm).Finally, a demonstration of planned trajectory using visual servoing was accomplished. Though it has required an algorithm sufficiently efficient, high frequency real-time sampling is possible and lead to control and post observation on complex trajectory. Global performances, repeatability and portability of our system has demonstrated its capacities as a high-throughput transducer, promising for single microagent applications.

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