8 resultados para Unmanned Aerial System (UAS)
em Consorci de Serveis Universitaris de Catalunya (CSUC), Spain
Resumo:
An Unmanned Aerial Vehicle is a non-piloted airplane designed to operate in dangerous and repetitive situations. With the advent of UAV's civil applications, UAVs are emerging as a valid option in commercial scenarios. If it must be economically viable, the same platform should implement avariety of missions with little reconguration time and overhead.This paper presents a middleware-based architecture specially suited to operate as a exible payload and mission controller in a UAV. The system is composed of low-costcomputing devices connected by network. The functionality is divided into reusable services distributed over a number ofnodes with a middleware managing their lifecycle and communication.Some research has been done in this area; yetit is mainly focused on the control domain and in its realtime operation. Our proposal differs in that we address the implementation of adaptable and reconfigurable unmannedmissions in low-cost and low-resources hardware.
Resumo:
Peer reviewed
Resumo:
La iniciativa ATLANTIDA engloba numerosos estudios de ingeniería con el objetivo de reformar el actual sistema de gestión del tráfico aéreo. Dentro de estos estudios se encuentran diversas investigaciones en el campo de las comunicaciones móviles. La gran variabilidad del entorno aeronáutico promueve el estudio de sistemas de comunicaciones móviles capaces de funcionar en este tipo de entorno. Este proyecto propone un sistema de comunicaciones WiMAX en un entorno aeronáutico con aviones no tripulados utilizando la modulación OFDM.
Resumo:
Satellite remote sensing imagery is used for forestry, conservation and environmental applications, but insufficient spatial resolution, and, in particular, unavailability of images at the precise timing required for a given application, often prevent achieving a fully operational stage. Airborne remote sensing has the advantage of custom-tuned sensors, resolution and timing, but its price prevents using it as a routine technique for the mentioned fields. Some Unmanned Aerial Vehicles might provide a “third way” solution as low-cost techniques for acquiring remotely sensed information, under close control of the end-user, albeit at the expense of lower quality instrumentation and instability. This report evaluates a light remote sensing system based on a remotely-controlled mini-UAV (ATMOS-3) equipped with a color infra-red camera (VEGCAM-1) designed and operated by CATUAV. We conducted a testing mission over a Mediterranean landscape dominated by an evergreen woodland of Aleppo pine (Pinus halepensis) and (Holm) oak (Quercus ilex) in the Montseny National Park (Catalonia, NE Spain). We took advantage of state-of-the-art ortho-rectified digital aerial imagery (acquired by the Institut Cartogràfic de Catalunya over the area during the previous year) and used it as quality reference. In particular, we paid attention to: 1) Operationality of flight and image acquisition according to a previously defined plan; 2) Radiometric and geometric quality of the images; and 3) Operational use of the images in the context of applications. We conclude that the system has achieved an operational stage regarding flight activities, although with meteorological limits set by wind speed and turbulence. Appropriate landing areas can be sometimes limiting also, but the system is able to land on small and relatively rough terrains such as patches of grassland or short matorral, and we have operated the UAV as far as 7 km from the control unit. Radiometric quality is sufficient for interactive analysis, but probably insufficient for automated processing. A forthcoming camera is supposed to greatly improve radiometric quality and consistency. Conventional GPS positioning through time synchronization provides coarse orientation of the images, with no roll information.
Resumo:
Este trabajo presenta las prácticas de laboratorio de la asignatura de Tecnología Aaeroespacial, perteneciente a la titulación de Ingeniería Técnica Aeronáutica (especialidad en Aeronavegación) y que se imparte en la Escuela Politécnica Superior de Castelldefels (EPSC) de laUniversidad Politécnica de Catalunya (UPC). Dichas prácticas se desarrollan en grupos de dos estudiantes alrededor de un conocido programa de simulación de vuelo y permiten al alumno ver y profundizar en los diferentes aspectos tratados en las clases teóricas de una manera próxima a la realidad y muy amigable.El alumno debe afrontarse a situaciones que, a lo largo de las diferentes sesiones de laboratorio, aumentan progresivamente en complejidad y conocimientos previos necesarios para resolverlas. Con esto, se llega a la práctica final donde cada pareja de estudiantes realiza un vuelo completosimulado de principio a fin que ha ido preparando y experimentando por partes durante el curso.Además, este vuelo se realiza en un entorno de simulación de tráfico aéreo en tiempo real con control del tráfico aéreo virtual (formado por estudiantes voluntarios de cursos superiores) que da aun más realismo a la simulación.Después de seis cursos consecutivos realizando esta experiencia, este trabajo concluye que este tipo de prácticas motivan significativamente al alumno a profundizar en los aspectos de la asignatura y potencian el trabajo cooperativo y el aprendizaje basado en proyectos.
Resumo:
Peer reviewed
Resumo:
This paper presents an automatic vision-based system for UUV station keeping. The vehicle is equipped with a down-looking camera, which provides images of the sea-floor. The station keeping system is based on a feature-based motion detection algorithm, which exploits standard correlation and explicit textural analysis to solve the correspondence problem. A visual map of the area surveyed by the vehicle is constructed to increase the flexibility of the system, allowing the vehicle to position itself when it has lost the reference image. The testing platform is the URIS underwater vehicle. Experimental results demonstrating the behavior of the system on a real environment are presented
Resumo:
This paper deals with the problem of navigation for an unmanned underwater vehicle (UUV) through image mosaicking. It represents a first step towards a real-time vision-based navigation system for a small-class low-cost UUV. We propose a navigation system composed by: (i) an image mosaicking module which provides velocity estimates; and (ii) an extended Kalman filter based on the hydrodynamic equation of motion, previously identified for this particular UUV. The obtained system is able to estimate the position and velocity of the robot. Moreover, it is able to deal with visual occlusions that usually appear when the sea bottom does not have enough visual features to solve the correspondence problem in a certain area of the trajectory
