957 resultados para Robots mòbils -- Sistemes de control
Resumo:
This article aims to apply the concepts associated with artificial neural networks (ANN) in the control of an autonomous robot system that is intended to be used in competitions of robots. The robot was tested in several arbitrary paths in order to verify its effectiveness. The results show that the robot performed the tasks with success. Moreover, in the case of arbitrary paths the ANN control outperforms other methodologies, such as fuzzy logic control (FLC).
Resumo:
This research aims to understand the fundamental dynamic behavior of servo-controlled machinery in response to various types of sensory feedback. As an example of such a system, we study robot force control, a scheme which promises to greatly expand the capabilities of industrial robots by allowing manipulators to interact with uncertain and dynamic tasks. Dynamic models are developed which allow the effects of actuator dynamics, structural flexibility, and workpiece interaction to be explored in the frequency and time domains. The models are used first to explain the causes of robot force control instability, and then to find methods of improving this performance.
Resumo:
The control of aerial gymnastic maneuvers is challenging because these maneuvers frequently involve complex rotational motion and because the performer has limited control of the maneuver during flight. A performer can influence a maneuver using a sequence of limb movements during flight. However, the same sequence may not produce reliable performances in the presence of off-nominal conditions. How do people compensate for variations in performance to reliably produce aerial maneuvers? In this report I explore the role that passive dynamic stability may play in making the performance of aerial maneuvers simple and reliable. I present a control strategy comprised of active and passive components for performing robot front somersaults in the laboratory. I show that passive dynamics can neutrally stabilize the layout somersault which involves an "inherently unstable" rotation about the intermediate principal axis. And I show that a strategy that uses open loop joint torques plus passive dynamics leads to more reliable 1 1/2 twisting front somersaults in simulation than a strategy that uses prescribed limb motion. Results are presented from laboratory experiments on gymnastic robots, from dynamic simulation of humans and robots, and from linear stability analyses of these systems.
Resumo:
The transformation from high level task specification to low level motion control is a fundamental issue in sensorimotor control in animals and robots. This thesis develops a control scheme called virtual model control which addresses this issue. Virtual model control is a motion control language which uses simulations of imagined mechanical components to create forces, which are applied through joint torques, thereby creating the illusion that the components are connected to the robot. Due to the intuitive nature of this technique, designing a virtual model controller requires the same skills as designing the mechanism itself. A high level control system can be cascaded with the low level virtual model controller to modulate the parameters of the virtual mechanisms. Discrete commands from the high level controller would then result in fluid motion. An extension of Gardner's Partitioned Actuator Set Control method is developed. This method allows for the specification of constraints on the generalized forces which each serial path of a parallel mechanism can apply. Virtual model control has been applied to a bipedal walking robot. A simple algorithm utilizing a simple set of virtual components has successfully compelled the robot to walk eight consecutive steps.
Resumo:
Since robots are typically designed with an individual actuator at each joint, the control of these systems is often difficult and non-intuitive. This thesis explains a more intuitive control scheme called Virtual Model Control. This thesis also demonstrates the simplicity and ease of this control method by using it to control a simulated walking hexapod. Virtual Model Control uses imagined mechanical components to create virtual forces, which are applied through the joint torques of real actuators. This method produces a straightforward means of controlling joint torques to produce a desired robot behavior. Due to the intuitive nature of this control scheme, the design of a virtual model controller is similar to the design of a controller with basic mechanical components. The ease of this control scheme facilitates the use of a high level control system which can be used above the low level virtual model controllers to modulate the parameters of the imaginary mechanical components. In order to apply Virtual Model Control to parallel mechanisms, a solution to the force distribution problem is required. This thesis uses an extension of Gardner`s Partitioned Force Control method which allows for the specification of constrained degrees of freedom. This virtual model control technique was applied to a simulated hexapod robot. Although the hexapod is a highly non-linear, parallel mechanism, the virtual models allowed text-book control solutions to be used while the robot was walking. Using a simple linear control law, the robot walked while simultaneously balancing a pendulum and tracking an object.
Resumo:
Les organitzacions es veuen actualment envoltades d’un entorn en constant canvi. Les empreses que volen sobreviure en aquest context de creixent competitivitat i internacionalització dels mercats, tenen en els models de gestió una eina per a la millora de la seva gestió diària, la presa de decisions en l’empresa i l’establiment d’una estratègia que les ajudi a avançar cap a l’excel·lència empresarial. Els models de gestió empresarial neixen amb la idea de fomentar aquest paradigma de la qualitat i han anat evolucionant fins a arribar als anomenats Sistemes Integrats de Gestió, SIG, que aborden la gestió de la qualitat, el medi ambient i la seguretat d’una manera conjunta
Resumo:
Les organitzacions es veuen actualment envoltades d’un entorn en constant canvi. Les empreses que volen sobreviure en aquest context de creixent competitivitat i internacionalització dels mercats, tenen en els models de gestió una eina per a la millora de la seva gestió diària, la presa de decisions en l’empresa i l’establiment d’una estratègia que les ajudi a avançar cap a l’excel·lència empresarial. Els models de gestió empresarial neixen amb la idea de fomentar aquest paradigma de la qualitat i han anat evolucionant fins a arribar als anomenats Sistemes Integrats de Gestió, SIG, que aborden la gestió de la qualitat, el medi ambient i la seguretat d’una manera conjunta
Resumo:
Exhaustive statistical information-gathering operations pose major logistical challenges. By using GISs, managing the associated information becomes simpler, and monitoring the quality control of the information gathered can be stricter
Resumo:
Desde hace más de 5 años DIELMO 3D S.L. ha estado trabajando en el desarrollo de software para el procesado de datos LiDAR, usándolo internamente para la producción de Modelos Digitales del Terreno (MDT) en numerosos proyectos. Finalmente, con la ayuda de la CIT hemos decidido tomar la iniciativa de crear un nuevo software libre basado en gvSIG para el manejo de datos LiDAR. En primer lugar haremos una introducción a la tecnología LiDAR, comentando los fundamentos básicos, los datos originales que se obtienen después de un vuelo y las aplicaciones o productos finales que se pueden generar a partir de la tecnología LiDAR. Una vez familiarizados con este tipo de datos, mostraremos el uso del driver desarrollado por DIELMO para el acceso, visualización y análisis de datos LiDAR originales en formato LAS y BIN para grandes volúmenes de datos. Por último comentaremos las herramientas que se están desarrollando para realizar controles de calidad a los datos originales y generar diferentes productos finales a partir de los datos originales: Modelo Digital del Terreno (MDT), Modelo Digital de Superficie (MDS) e imagen de intensidades
Resumo:
In this paper we present a novel approach to assigning roles to robots in a team of physical heterogeneous robots. Its members compete for these roles and get rewards for them. The rewards are used to determine each agent’s preferences and which agents are better adapted to the environment. These aspects are included in the decision making process. Agent interactions are modelled using the concept of an ecosystem in which each robot is a species, resulting in emergent behaviour of the whole set of agents. One of the most important features of this approach is its high adaptability. Unlike some other learning techniques, this approach does not need to start a whole exploitation process when the environment changes. All this is exemplified by means of experiments run on a simulator. In addition, the algorithm developed was applied as applied to several teams of robots in order to analyse the impact of heterogeneity in these systems
Resumo:
L’objectiu d’aquest projecte és realitzar l’anàlisi, disseny i implementació d’una nova eina per analitzar les diferencies entre el paper que s’està produint i les mostres de referència, que millori els resultats obtinguts pel prototipus anterior i faciliti la interpretació dels resultats obtinguts, per part dels operaris de l’empresa. Partint de dos imatges escannejades que anomenem patró i mostra, que corresponen respectivament a les imatges de referència i de la mostra de producció
Resumo:
Disseny d’un projecte que controli la gestió d’ubicacions del magatzem d’una empresa del sector de materials de construcció, concretament de “Materials Brecor”, una empresa líder de la zona compresa entre la costa brava sud i el maresme nord. L’Objectiu principal és concebre un projecte que permeti controlar en temps real tant l’entrada com la sortida de mercaderies, a més a més de poder consultar la ubicació de cadascuna d’elles dins el magatzem. Aconseguint millorar els temps de resposta en el moment de localitzar l’article demanat i la seva posterior expedició al client
Resumo:
Monogr??fico con el t??tulo: 'Aprendre tecnologia, eina de futur'. Resumen tomado de la publicaci??n
Resumo:
El presente trabajo desarrolla una aplicación de control de calidad semántico para los productos Base Cartográfica Numérica del IGN (escalas 1/100.000 y 1/200.000 en principio), basada en software libre. De este modo se pretende fomentar el uso de herramientas de código abierto en los procesos de producción cartográfica, favoreciendo la reutilización de código para implementaciones futuras. Esto será beneficioso tanto para los organismos productores, que tendrán más control sobre sus productos, como para las empresas que se encarguen de producir y realizar controles de calidad, que podrán trabajar sobre aplicaciones ya desarrolladas y mejorar los procesos de control
Resumo:
The presented work focuses on the theoretical and practical aspects concerning the design and development of a formal method to build a mission control system for autonomous underwater vehicles bringing systematic design principles for the formal description of missions using Petri nets. The proposed methodology compounds Petri net building blocks within it to de_ne a mission plan for which it is proved that formal properties, such as reachability and reusability, hold as long as these same properties are also guaranteed by each Petri net building block. To simplify the de_nition of these Petri net blocks as well as their composition, a high level language called Mission Control Language has been developed. Moreover, a methodology to ensure coordination constraints for teams of multiple robots as well as the de_nition of an interface between the proposed system and an on-board planner able to plan/replan sequences of prede_ned mission plans is included as well. Results of experiments with several real underwater vehicles and simulations involving an autonomous surface craft and an autonomous underwater vehicles are presented to show the system's capabilities.
