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71	Les loisirs motorisés hors route. Conflits controverse et réseaux d'actants / Off road motorised recreation : Conflicts, controversy and actor-network Haye, Lisa 28 November 2012 (has links) Le développement récent des Loisirs Motorisés Hors Route (LMHR) suscite une controverse et de vives réactions dans les milieux du sport et de la protection de l'environnement. Le phénomène est encore peu étudié, à la fois du fait qu'il est récent, que l'argumentation relève de plusieurs disciplines et que les loisirs motorisés, s'ils font partie sans problème de l'outdoor recreation nord-américaine, sont rejetés en France par les autres sportifs et ne sont pas reconnus de façon évidente comme relevant du domaine d'une discipline particulière. Afin de combler un manque dans la littérature scientifique française, cette thèse vise à apporter une connaissance fine de la dynamique de la controverse – en tant qu'échange d'arguments génériques – et des conflits dont les LMHR font l'objet. Elle présente deux originalités majeures : sa thématique et son approche combinant les théories de l'acteur-réseau avec les outils de visualisation et d'analyse de réseau basés sur la théorie des graphes. Cette construction théorique et méthodologique visait à interroger les interrelations entre la controverse portée par des collectifs présents sur la scène nationale et les conflits et interactions sur le terrain. Pour cela, nous avons mené des enquêtes sur quatre scènes : la scène nationale (composée de collectifs pro et anti-motorisé, de Fédérations, de constructeurs, de gestionnaires et décideurs et d'élus) ; deux scènes locales conflictuelles où des démarches de gestion sont en cours (le PNR du Pilat et les Chambarans) ; une scène locale où aucun conflit n'est visible sur la scène publique (le canton de La Grave – Villar d'Arène). Nos résultats montrent, que bien que la controverse trouve ses racines dans des conflits sur le terrain, il n'existerait pas de coprésence entre acteurs qui s'opposent. D'abord, en l'absence de conflit, la scène de La Grave apparaît déconnectée du reste du réseau. Ensuite, les détracteurs des LMHR se mobilisent dans la controverse mais ne cherchent pas directement à agir sur le terrain. Par contre, les défenseurs de la pratique s'impliquent, eux, aux deux niveaux. Enfin, les gestionnaires et agents de la police de l'environnement confrontés à la gestion des activités, nouent des liens sur le terrain et au niveau national, à la fois avec les défenseurs et les détracteurs des LMHR ; devenant parfois des acteurs-passerelles. D'un point de vue théorique et méthodologique, les outils de visualisation et d'analyse de réseau ont montré leur intérêt dans le cadre d'une approche par l'acteur-réseau ; les perspectives apparaissent riches. Mots-clés : Sociologie, loisirs motorisés hors route, théories de l'acteur-réseau, visualisation et analyse de réseau, controverse, conflits, gestion / The recent expansion of off road motorized recreation raises controversy and strong reactions from the worlds of sports and environmental protection. The phenomenon is still poorly studied, because it is recent, because the argumentation falls across disciplines and because motorized recreation is rejected by other recreationists. Moreover, motorized recreation is obviously not recognized as a domain of a particular discipline in France, whereas it is truly integrated to outdoor recreation in North America. To fill a gap in the French literature, this thesis aims to provide a detailed understanding of the dynamics of the controversy - as an exchange of generic arguments - and conflicts around motorized recreation. The thesis has two main peculiarities: its theme and its approach combining the actor-network theory, visualization tools and network analysis based on graph theory. The aim of this theoretical and methodological building was to examine the interrelationships between the controversy – carried by groups who are present on the national scene – and conflicts and interactions in the field. To do this, we investigated four scenes: the national scene (composed of pro-motorized and anti- motorized collectives, Federations, manufacturers, managers, policy makers and elected officials), two local scenes where conflict management approaches are in progress (NRP Pilat and Chambarans), a local scene where no conflict is visible in the public arena (the township of La Grave - Villar d'Arene). Our results show that although the controversy is rooted in conflicts on the field, there would be no copresence between opposing stakeholders. First, in the absence of conflict, the scene of La Grave is disconnected from the network. Second, critics of motorized recreation rally in controversy but do not try to act directly on the field. By contrast, the defenders of those activities imply them at both levels. Finally, managers and actors in charge of environmental police who face the management of the activities, build relationships in the field and at a national level, with both defenders and detractors of motorized recreation, sometimes becoming gateways actors. From a theoretical and methodological point of view, tools for visualization and network analysis have shown their interest in the context of the actor-network theory: perspectives appear to be rich. Key words : Sociology, off road motorized recreation, Actor-Network Theory, viualization and network analysis, controversy, conflicts, management. Loisirs motorisés hors route Espace naturel Sociologie des réseaux Controverse Conflits Off road motorised leisure Natural area Network sociology Controversy Conflicts
72	Navegação de veículos autônomos em ambientes externos não estruturados baseada em visão computacional / Autonomous vehicles navigation on external unstructured terrains based in computer vision Rafael Luiz Klaser 06 June 2014 (has links) Este trabalho apresenta um sistema de navegação autônoma para veículos terrestres com foco em ambientes não estruturados, tendo como principal meta aplicações em campos abertos com vegetação esparsa e em cenário agrícola. É aplicada visão computacional como sistema de percepção principal utilizando uma câmera estéreo em um veículo com modelo cinemático de Ackermann. A navegação é executada de forma deliberativa por um planejador baseado em malha de estados sobre um mapa de custos e localização por odometria e GPS. O mapa de custos é obtido através de um modelo de ocupação probabilístico desenvolvido fazendo uso de uma OctoMap. É descrito um modelo sensorial para atualizar esta OctoMap a partir da informação espacial proveniente de nuvens de pontos obtidas a partir do método de visão estéreo. Os pontos são segmentados e filtrados levando em consideração os ruídos inerentes da aquisição de imagens e do processo de cálculo de disparidade para obter a distância dos pontos. Os testes foram executados em ambiente de simulação, permitindo a replicação e repetição dos experimentos. A modelagem do veículo foi descrita para o simulador físico Gazebo de acordo com a plataforma real CaRINA I (veículo elétrico automatizado do LRM-ICMC/USP), levando-se em consideração o modelo cinemático e as limitações deste veículo. O desenvolvimento foi baseado no ROS (Robot Operating System) sendo utilizada a arquitetura básica de navegação deste framework a partir da customização dos seus componentes. Foi executada a validação do sistema no ambiente real em cenários com terreno irregular e obstáculos diversos. O sistema apresentou um desempenho satisfatório tendo em vista a utilização de uma abordagem baseada em apenas uma câmera estéreo. Nesta dissertação são apresentados os principais componentes de um sistema de navegação autônoma e as etapas necessárias para a sua concepção, assim como resultados de experimentos simulados e com o uso de um veículo autônomo real / This work presents a system for autonomous vehicle navigation focusing on unstructured environments, with the primary goal applications in open fields with sparse vegetation, unstructured environments and agricultural scenario. Computer vision is applied as the main perception system using a stereo camera in a car-like vehicle with Ackermann kinematic model. Navigation is performed deliberatively using a path planner based on a lattice state space over a cost map with localization by odometry and GPS. The cost map is obtained through a probabilistic occupation model developed making use of an OctoMap. It is described a sensor model to update the spatial occupancy information of the OctoMap from a point cloud obtained by stereo vision. The points are segmented and filtered taking into account the noise inherent in the image acquisition and calculation of disparity to obtain the distance from points. Tests are performed in simulation, allowing replication and repetition of experiments. The modeling of the vehicle is described to be used in the Gazebo physics simulator in accordance with the real platform CaRINA I (LRM-ICMC/USP automated electrical vehicle) taking into account the kinematic model and the limitations of this vehicle. The development is based on ROS (Robot Operating System) and its basic navigation architecture is customized. System validation is performed on real environment in scenarios with different obstacles and uneven terrain. The system shows satisfactory performance considering a simple configuration and an approach based on only one stereo camera. This dissertation presents the main components of an autonomous navigation system and the necessary steps for its conception as well as results of experiments in simulated and using a real autonomous vehicle Ambiente externo Mapa de navegabilidade Navegação autônoma Simulação Visão computacional Autonomous navigation Computer vision Navigability map Off-road environment Simulation
73	Design obytného přívěsu / Design of Travel Trailer Komárková, Kristina January 2017 (has links) This master’s thesis describes the design of the travel trailer. The main aim of the work was to create a draft of a folding trailer in off-road configuration. The final design brings a new look at the solution of folding caravans and trailers, especially in the use of inflatable technology for the construction of a folding tent liner. The basic parameters are reduced and the shape solution in the travel state is minimalistic with regard to the use of the folding system.
74	Analysis of Erosion Rates on User-Created Off-Road Vehicle Trails inSoutheastern Ohio Wagner, Richard R. 16 September 2022 (has links) No description available. Environmental Geology Environmental Management Geomorphology Geography Off-road vehicle trails Trail erosion Trail compaction Wayne National Forest ORV
75	Systematic Tire Testing and Model Parameterization for Tire Traction on Soft Soil He, Rui 30 January 2020 (has links) Tire performance over soft soil influences the performance of off-road vehicles on soft soil, as the tire is the only force transmitting element between the off-road vehicles and soil during the vehicle operation. One aspect of the tire performance over soft soil is the tire tractive performance on soft soil, and it attracts the attention of vehicle and geotechnical engineers. The vehicle engineer is interested in the tire tractive performance on soft soil because it is related to vehicle mobility and energy efficiency; the geotechnical engineer is concerned about the soil compaction, brought about by the tire traffic, which accompanies the tire tractive performance on soft soil. In order to improve the vehicle mobility and energy efficiency over soft soil and mitigate the soil compaction, it's essential to develop an in-depth understanding of tire tractive performance on soft soil. This study has enhanced the understanding of tire tractive performance on soft soil and promoted the development of terramechanics and tire model parameterization method through experimental tests. The experimental tests consisted of static tire deflection tests, static tire-soil tests, soil properties tests, and dynamic tire-soil tests. The series of tests (test program) presented herein produced parameterization and validation data that can be used in tire off-road traction dynamics modeling and terramechanics modeling. The 225/60R16 97S Uniroyal (Michelin) Standard Reference Test Tire (SRTT) and loamy sand were chosen to be studied in the test program. The tests included the quantification or/and measurement of soil properties of the test soil, pre-traffic soil condition, the pressure distribution in the tire contact patch, tire off-road tractive performance, and post-traffic soil compaction. The influence of operational parameters, e.g., tire inflation pressure, tire normal load, tire slip ratio, initial soil compaction, or the number of passes, on the measurement data of tire performance parameters or soil response parameters was also analyzed. New methods of the rolling radius estimation for a tire on soft soil and of the 3-D rut reconstruction were developed. A multi-pass effect phenomenon, different from any previously observed phenomenon in the available existing literature, was discovered. The test data was fed into optimization programs for the parameterization of the Bekker's model, a modified Bekker's model, the Magic Formula tire model, and a bulk density estimation model. The modified Bekker's model accounts for the slip sinkage effect which the original Bekker's pressure-sinkage model doesn't. The Magic Formula tire model was adapted to account for the combined influence of tire inflation pressure and initial soil compaction on the tire tractive performance and validated by the test data. The parameterization methods presented herein are new effective terramechanics model parameterization methods, can capture tire-soil interaction which the conventional parameterization methods such as the plate-sinkage test and shear test (not using a tire as the shear tool) cannot sufficiently, and hence can be used to develop tire off-road dynamics models that are heavily based on terramechanics models. This study has been partially supported by the U.S. Army Engineer Research and Development Center (ERDC) and by the Terramechanics, Multibody, and Vehicle (TMVS) Laboratory at Virginia Tech. / Doctor of Philosophy / Big differences exist between a tire moving in on-road conditions, such as asphalt lanes, and a tire moving in off-road conditions, such as soft soil. For example, for passenger cars commonly driven on asphalt lanes, normally, the tire inflation pressure is suggested to be between 30 and 35 psi; very low inflation pressure is also not suggested. By contrast, for off-road vehicles operated on soft soil, low inflation pressure is recommended for their tires; the inflation pressure of a tractor tire can be as low as 12 psi, for the sake of low post-traffic soil compaction and better tire traction. Besides, unlike the research on tire on-road dynamics, the research on off-road dynamics is still immature, while the physics behind the off-road dynamics could be more complex than the on-road dynamics. In this dissertation, experimental tests were completed to study the factors influencing tire tractive performance and soil behavior, and model parameterization methods were developed for a better prediction of tire off-road dynamics models. Tire or vehicle manufacturers can use the research results or methods presented in this dissertation to offer suggestions for the tire or vehicle operation on soft soil in order to maximize the tractive performance and minimize the post-traffic soil compaction. terramechanics tire off-road dynamics tire test soil test model parameterization tire tractive performance soil compaction multi-pass effect
76	Prediction of mobility, handling, and tractive efficiency of wheeled off-road vehicles Senatore, Carmine 25 May 2010 (has links) Our society is heavily and intrinsically dependent on energy transformation and usage. In a world scenario where resources are being depleted while their demand is increasing, it is crucial to optimize every process. During the last decade the concept of energy efficiency has become a leitmotif in several fields and has directly influenced our everyday life: from light bulbs to airplane turbines, there has been a general shift from pure performance to better efficiency. In this vein, we focus on the mobility and tractive efficiency of off-road vehicles. These vehicles are adopted in military, agriculture, construction, exploration, recreation, and mining applications and are intended to operate on soft, deformable terrain. The performance of off-road vehicles is deeply influenced by the tire-soil interaction mechanism. Soft soil can drastically reduce the traction performance of tires up to the point of making motion impossible. In this study, a tire model able to predict the performance of rigid wheels and flexible tires is developed. The model follows a semi-empirical approach for steady-state conditions and predicts basic features, such as the drawbar pull, the driving torque and the lateral force, as well as complex behaviors, such as the slip-sinkage phenomenon and the multi-pass effect. The tractive efficiency of different tire-soil configurations is simulated and discussed. To investigate the handling and the traction efficiency, the tire model is implemented into a four-wheel vehicle model. Several tire geometries, vehicle configurations (FWD, RWD, AWD), soil types, and terrain profiles are considered to evaluate the performance under different simulation scenarios. The simulation environment represents an effective tool to realistically analyze the impact of tire parameters (size, inflation pressure) and torque distribution on the energy efficiency. It is verified that larger tires and decreased inflation pressure generally provide better traction and energy efficiency (under steady-state working conditions). The torque distribution strategy between the axles deeply affects the traction and the efficiency: the two variables can't clearly be maximized at the same time and a trade-off has to be found. / Ph. D. tire dynamics tractive efficiency energy efficiency tire soil interaction off-road torque distribution fuel economy lateral force multi pass
77	Contribution à la modélisation et à la commande de robots mobiles autonomes et adaptables en milieux naturels / Contribution to the modelling and control of autonomous and adaptable mobile robots in natural environments Deremetz, Mathieu 06 July 2018 (has links) Les problématiques de recherche abordées dans cette thèse concernent la conceptualisation, la modélisation et la commande générique des robots mobiles lors de leur évolution en milieux extérieurs et en présence de glissement pour des applications de suivi de précision. Ainsi, ce mémoire synthétise dans un premier temps les développements et résultats obtenus lors du suivi de trajectoire (localisation absolue), puis synthétise ensuite ceux obtenus lors de suivi de structure et de cible (localisation relative). Une dernière partie introduit un concept de plateforme robotique reconfigurable et sa commande associée pour adapter l’assiette et les dimensions du châssis en fonction de la topographie du terrain.Pour chaque application de suivi, ce mémoire présente un panel de lois de commande originales pour des robots différentiels, à un train et à deux trains directeurs. Chaque modalité de commande est présentée en quatre étapes : modélisation, estimation, commande et expérimentations. La première contribution majeure de la thèse concerne l’estimation du glissement. Cette dernière est adaptative et basée modèle. Elle intègre la modélisation cinématique étendue seule ou couplée à la modélisation dynamique du robot mobile pour assurer une estimation intègre quels que soient la vitesse, les phénomènes dynamiques rencontrés et la nature du sol. La seconde contribution majeure concerne le développement d’une stratégie de commande générique pour les robots mobiles. Cette stratégie est basée sur le principe de la commande en cascade (ou par backstepping) et est déclinée dans ce mémoire à travers un panel de lois de commande. Cette méthodologie de commande, lorsqu’elle est associée à l’observation du glissement précédent, permet d’obtenir des performances de suivi accrues quel que soit le contexte rencontré. L’ensemble des algorithmes ont été validés en simulation et/ou expérimentalement à l’aide de différentes plateformes robotiques en contextes réels. / This work is focused on the conceptualization, the modeling and the genericcontrol of mobile robots when moving in off-road contexts and facing slipperyterrains, especially for very accurate tracking and following applications. Thisthesis summarizes the proposed methods and the obtained results to addressthis research issue, first for path following applications (absolute localization)and then for edge and target tracking applications (relative localization). A finalsection of this thesis introduces an adaptive robotic concept and its associatedcontroller allowing the adaptation of the pose (position and orientation) of thechassis with respect to the environment topography.For each application, this thesis introduces a panel of innovative control algorithmsfor controlling skid-steering, two-wheel steering and four-wheel steeringmobile robots. Each algorithm of the panel is described, in this thesis, infour steps : modeling, estimation, control and experiments.The first main contribution of this thesis deals with the slippage estimation.The latter is adaptive and model-based. It also includes the extended kinematicmodeling only or together with the dynamic modeling of the mobile robot toensure a robust estimation of the slippage whatever the speed of the robot, encountereddynamic phenomena or even ground characteristics.The second main contribution deals with the design of a generic control approachfor mobile robots when path following and target tracking. The proposedstrategy is mostly based on a backstepping method and is illustrated inthis thesis via a panel of control laws. When combining this proposed controlapproach with the slippage estimation described above, significant improvedtracking and following performances are obtained (in term of stability, repeatability,accuracy and robustness) whatever the encountered context.All algorithms have been tested and validated through simulations and/orfull-scale experiments, indoor and off-road, with different mobile robots. Robot mobile Commande non-linéaire Commande par backstepping Commande robuste Estimation des glissements Milieux naturels et tout terrain Mobile robot Nonlinear control Backstepping control Robust control Slippage estimation Off-road contexts
78	Suspension design for off-road construction machines Rehnberg, Adam January 2011 (has links) Construction machines, also referred to as engineering vehicles or earth movers, are used in a variety of tasks related to infrastructure development and material handling. While modern construction machines represent a high level of sophistication in several areas, their suspension systems are generally rudimentary or even nonexistent. This leads to unacceptably high vibration levels for the operator, particularly when considering front loaders and dump trucks, which regularly traverse longer distances at reasonably high velocities. To meet future demands on operator comfort and high speed capacity, more refined wheel suspensions will have to be developed. The aim of this thesis is therefore to investigate which factors need to be considered in the fundamental design of suspension systems for wheeled construction machines. The ride dynamics of wheeled construction machines are affected by a number of particular properties specific to this type of vehicle. The pitch inertia is typically high in relation to the mass and wheelbase, which leads to pronounced pitching. The axle loads differ considerably between the loaded and the unloaded condition, necessitating ride height control, and hence the suspension properties may be altered as the vehicle is loaded. Furthermore, the low vertical stiffness of off-road tyres means that changes in the tyre properties will have a large impact on the dynamics of the suspended mass. The impact of these factors has been investigated using analytical models and parameters for a typical wheel loader. Multibody dynamic simulations have also been used to study the effects of suspended axles on the vehicle ride vibrations in more detail. The simulation model has also been compared to measurements performed on a prototype wheel loader with suspended axles. For reasons of manoeuvrability and robustness, many construction machines use articulated frame steering. The dynamic behaviour of articulated vehicles has therefore been examined here, focusing on lateral instabilities in the form of “snaking” and “folding”. A multibody dynamics model has been used to investigate how suspended axles influence the snaking stability of an articulated wheel loader. A remote-controlled, articulated test vehicle in model-scale has also been developed to enable safe and inexpensive practical experiments. The test vehicle is used to study the influence of several vehicle parameters on snaking stability, including suspension, drive configuration and mass distribution. Comparisons are also made with predictions using a simplified linear model. Off-road tyres represent a further complication of construction machine dynamics, since the tyres’ behaviour is typically highly nonlinear and difficult to evaluate in testing due to the size of the tyres. A rolling test rig for large tyres has here been evaluated, showing that the test rig is capable of producing useful data for validating tyre simulation models of varying complexity. The theoretical and experimental studies presented in this thesis contribute to the deeper understanding of a number of aspects of the dynamic behaviour of construction machines. This work therefore provides a basis for the continued development of wheel suspensions for such vehicles. / QC 20110531 construction machine engineering vehicle earth mover wheel loader vehicle dynamics vehicle engineering whole body vibrations off-road vehicle anläggningsmaskin entreprenadmaskin hjullastare fordonsdynamik fordonsteknik helkroppsvibrationer terrängfordon Vehicle engineering Farkostteknik
79	Real Time Implementation of Map Aided Positioning Using a Bayesian Approach / Realtidsimplementation av kartstödd positionering med hjälp av Bayesianska estimeringsmetoder Svenzén, Niklas January 2002 (has links) With the simple means of a digitized map and the wheel speed signals, it is possible to position a vehicle with an accuracy comparable to GPS. The positioning problem is a non-linear filtering problem and a particle filter has been applied to solve it. Two new approaches studied are the Auxiliary Particle Filter (APF), that aims at lowerering the variance of the error, and Rao-Blackwellization that exploits the linearities in the model. The results show that these methods require problems of higher complexity to fully utilize their advantages. Another aspect in this thesis has been to handle off-road driving scenarios, using dead reckoning. An off road detection mechanism has been developed and the results show that off-road driving can be detected accurately. The algorithm has been successfully implemented on a hand-held computer by quantizing the particle filter while keeping good filter performance. Reglerteknik Rao-Blackwellization Bayesian Estimation Map Matching Particle Filter Monte Carlo Simulation Positioning Off-road Driving Quantization Fixed Point Arithmetics Modeling. Reglerteknik Automatic control Reglerteknik
80	Real Time Implementation of Map Aided Positioning Using a Bayesian Approach / Realtidsimplementation av kartstödd positionering med hjälp av Bayesianska estimeringsmetoder Svenzén, Niklas January 2002 (has links) <p>With the simple means of a digitized map and the wheel speed signals, it is possible to position a vehicle with an accuracy comparable to GPS. The positioning problem is a non-linear filtering problem and a particle filter has been applied to solve it. Two new approaches studied are the Auxiliary Particle Filter (APF), that aims at lowerering the variance of the error, and Rao-Blackwellization that exploits the linearities in the model. The results show that these methods require problems of higher complexity to fully utilize their advantages.</p><p>Another aspect in this thesis has been to handle off-road driving scenarios, using dead reckoning. An off road detection mechanism has been developed and the results show that off-road driving can be detected accurately. The algorithm has been successfully implemented on a hand-held computer by quantizing the particle filter while keeping good filter performance.</p> Reglerteknik Rao-Blackwellization Bayesian Estimation Map Matching Particle Filter Monte Carlo Simulation Positioning Off-road Driving Quantization Fixed Point Arithmetics Modeling. Reglerteknik Automatic control Reglerteknik

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