An approach to coded structured light to obtain three dimensional information

The human visual ability to perceive depth looks like a puzzle. We perceive three-dimensional spatial information quickly and efficiently by using the binocular stereopsis of our eyes and, what is mote important the learning of the most common objects which we achieved through living. Nowadays, modelling the behaviour of our brain is a fiction, that is why the huge problem of 3D perception and further, interpretation is split into a sequence of easier problems. A lot of research is involved in robot vision in order to obtain 3D information of the surrounded scene. Most of this research is based on modelling the stereopsis of humans by using two cameras as if they were two eyes. This method is known as stereo vision and has been widely studied in the past and is being studied at present, and a lot of work will be surely done in the future. This fact allows us to affirm that this topic is one of the most interesting ones in computer vision. The stereo vision principle is based on obtaining the three dimensional position of an object point from the position of its projective points in both camera image planes. However, before inferring 3D information, the mathematical models of both cameras have to be known. This step is known as camera calibration and is broadly describes in the thesis. Perhaps the most important problem in stereo vision is the determination of the pair of homologue points in the two images, known as the correspondence problem, and it is also one of the most difficult problems to be solved which is currently investigated by a lot of researchers. The epipolar geometry allows us to reduce the correspondence problem. An approach to the epipolar geometry is describes in the thesis. Nevertheless, it does not solve it at all as a lot of considerations have to be taken into account. As an example we have to consider points without correspondence due to a surface occlusion or simply due to a projection out of the camera scope. The interest of the thesis is focused on structured light which has been considered as one of the most frequently used techniques in order to reduce the problems related lo stereo vision. Structured light is based on the relationship between a projected light pattern its projection and an image sensor. The deformations between the pattern projected into the scene and the one captured by the camera, permits to obtain three dimensional information of the illuminated scene. This technique has been widely used in such applications as: 3D object reconstruction, robot navigation, quality control, and so on. Although the projection of regular patterns solve the problem of points without match, it does not solve the problem of multiple matching, which leads us to use hard computing algorithms in order to search the correct matches. In recent years, another structured light technique has increased in importance. This technique is based on the codification of the light projected on the scene in order to be used as a tool to obtain an unique match. Each token of light is imaged by the camera, we have to read the label (decode the pattern) in order to solve the correspondence problem. The advantages and disadvantages of stereo vision against structured light and a survey on coded structured light are related and discussed. The work carried out in the frame of this thesis has permitted to present a new coded structured light pattern which solves the correspondence problem uniquely and robust. Unique, as each token of light is coded by a different word which removes the problem of multiple matching. Robust, since the pattern has been coded using the position of each token of light with respect to both co-ordinate axis. Algorithms and experimental results are included in the thesis. The reader can see examples 3D measurement of static objects, and the more complicated measurement of moving objects. The technique can be used in both cases as the pattern is coded by a single projection shot. Then it can be used in several applications of robot vision. Our interest is focused on the mathematical study of the camera and pattern projector models. We are also interested in how these models can be obtained by calibration, and how they can be used to obtained three dimensional information from two correspondence points. Furthermore, we have studied structured light and coded structured light, and we have presented a new coded structured light pattern. However, in this thesis we started from the assumption that the correspondence points could be well-segmented from the captured image. Computer vision constitutes a huge problem and a lot of work is being done at all levels of human vision modelling, starting from a)image acquisition; b) further image enhancement, filtering and processing, c) image segmentation which involves thresholding, thinning, contour detection, texture and colour analysis, and so on. The interest of this thesis starts in the next step, usually known as depth perception or 3D measurement.

A distributed environment for virtual and/or real experiments for underwater robots

This paper presents the distributed environment for virtual and/or real experiments for underwater robots (DEVRE). This environment is composed of a set of processes running on a local area network composed of three sites: 1) the onboard AUV computer; 2) a surface computer used as human-machine interface (HMI); and 3) a computer used for simulating the vehicle dynamics and representing the virtual world. The HMI can be transparently linked to the real sensors and actuators dealing with a real mission. It can also be linked with virtual sensors and virtual actuators, dealing with a virtual mission. The aim of DEVRE is to assist engineers during the software development and testing in the lab prior to real experiments

Edición vectorial colaborativa en tiempo real en un globo virtual (glob3)

En el desarrollo de glob3 (https://sourceforge.net/p/glob3/), en la implementación del proyecto de la Plataforma virtual de difusión de la ciencia de la Junta de Extremadura (http://forjamari.linex.org/projects/pdcv), IGO Software ha desarrollado un servidor de dMVC (Modelo vista controlador distribuido) en java que permite el uso de métodos en remoto o en local permitiendo así la interacción en tiempo real de todos los clientes conectados al servidor

Dielmo 3D Viewer based on NASA World Wind

Partiendo de la versión Java del software libre NASA World Wind, DIELMO ha desarrollado el software Dielmo 3D Viewer que permite la creación de escenarios virutales en 3D que se convierten en clientes IDE y que permiten un mejor conocimiento del territorio, tratando la tercera dimensión con el máximo rigor

Visualización geográfica 3D. Estándares y aplicaciones

Desde la aparición de Google Earth se ha desencadenado una proliferación de aplicaciones de “visores 3D” o globos virtuales facilitando a los usuarios la navegación y exploración de cualquier localización de la Tierra en formato 3D. A estas alturas, nadie puede negar la repercusión mediática de este tipo de aplicaciones y, sobretodo, el impacto diseminador de conceptos geográficos (capas, mapas, etc.) que ha tenido sobre la gran mayoría de usuarios, normalmente no especializados en el dominio geográfico. En el ámbito del software libre, a los originales World Wind (.NET) y Ossimplanet se han venido uniendo iniciativas en otras plataformas como Marble KDE, nuevas versiones de WordWind (Java SDK), a las que últimamente se están añadiendo iniciativas españolas dignas de consideración, como el Capaware canario y el módulo 3D de gvSIG. En este artículo se analiza el estado del desarrollo de estos proyectos, así como los estándares y formatos específicos que se están elaborando en el OGC para el ámbito específico de la información geográfica tridimensional (modelado de escenarios, objetos, terreno o cachés)

Modelatge basat en exemples de carrers d’una ciutat

L’objectiu d’aquest projecte és el desenvolupament d’una eina de generació de xarxes de carrers a partir d’exemples. L’eina ha de permetre generar una xarxa de carrers nova que sigui semblant a l’existent en un mapa vectorial donat. A més, també es pretén unir aquesta aplicació amb l’urbanEngine per tal de poder generar vistes en 3D sobre aquestes xarxes de carrers, a més d’ampliar les opcions de l’urbanEngine a l’hora de crear ciutats

Estudi de l’expansió de carrers en ciutats al llarg del temps

El Projecte s’ha desenvolupat dintre del Grup de Geometria i Gràfics de la Udg on es treballa amb projectes de desenvolupament urbanístic 3D. L’objectiu del projecte consisteix en construir una aplicació per simular l’evolució de ciutats expandint els carrers al llarg del temps. L’aplicació es desenvoluparà dintre del projecte urbanEngine incorporant la possibilitat d’expandir ciutats com una extensió d’aquest. A més es vol dissenyat una interfície gràfica d’usuari que faciliti les tasques de configuració i supervisió del sistema

Families of periodic horseshoe orbits in the restricted three-body problem

We compute families of symmetric periodic horseshoe orbits in the restricted three-body problem. Both the planar and three-dimensional cases are considered and several families are found.We describe how these families are organized as well as the behavior along and among the families of parameters such as the Jacobi constant or the eccentricity. We also determine the stability properties of individual orbits along the families. Interestingly, we find stable horseshoe-shaped orbit up to the quite high inclination of 17◦

Glob3 Mobile: hacia un SIG 3D para entornos Apple-iOS, Android y WebGL

El trabajo describe el proyecto de desarrollo de un SIG 3D de código abierto para dispositivos móviles (Apple-iOS y Android) y para navegadores web con tecnología WebGL. En la fase actual, nos centraremos en el diseño e implementación del globo virtual, como elemento esencial que da soporte al SIG 3D y de una IDE que permite la programación de nuevas funcionalidades al globo. Dentro de los objetivos de diseño del globo virtual tenemos (i) simplicidad, con código estructurado que facilita la portabilidad y con una API de código abierto sencilla, (ii) eficiencia, tomando en cuenta los recursos hardware de los dispositivos móviles más extendidos en el mercado, (ii) usabilidad, implementando una navegación intuitiva mediante gestos para la interacción en pantalla y (iv) escalabilidad, gracias a una API desarrollada, se permite aumentar de las prestaciones mediante el desarrollo de scripts y podrán ser ejecutados tanto dentro del navegador web como de forma nativa en las plataformas móviles. Ante un panorama de clara proliferación de aplicaciones para móviles, Glob3 Mobile pretende ser una apuesta fuerte que llegue a convertirse en un SIG 3D de código abierto que abarque variadas aplicaciones sectoriales, algunas ya en marcha