Restaural, sistema de gestió de comandes per restaurants

El projecte consisteix en un sistema informatitzat per restaurants centralitzat en un servidor que permet recollir comandes als clients a través de PDA’s i de pantalles tàctils situades a la barra per enviar-les als corresponents llocs d’ elaboració: -Terminal de la cuina on s’elaboraran tots els menjars. -Terminal de la bodega on es serviran els vins i caves. -Terminal barra on es serviran els licors, refrescos (entre d’altres productes totalment configurables). -Terminal de postres on es reben les línies de comanda relacionades amb els postres. L’objectiu acadèmic del projecte serà adquirir coneixement a nivell de disseny i gestió de dades, així com la comunicació de diversos dispositius en temps real. S’utilitzarà la tecnologia .net, concretament el llenguatge de programació visual c# .net. i com a gestor de bases de dades el mysql 5.0.19. A més, es treballa amb la metodologia UML, utilitzant també diversos patrons. Per fer del sistema un sistema centralitzat en un servidor s’utilitzarà la comunicació per terminal service de windows el qual ens brinda la possibilitat d’establir diverses sessions d’usuaris concurrents. Cada sessió estarà destinada a un cambrer, per tant, hi haurà una sessió per PDA

Aplicació informà tica per al cà lcul de les pèrdues de posttesat en bigues continues de formigó estructural

El present projecte té per objecte el desenvolupament d’una aplicació informàtica per calcular les pèrdues instantànies i diferides que presenta el formigó posttesat en bigues contínues de formigó estructural. Per a la realització d'aquest programa informàtic, s’ha optat per la programació amb Microsoft® Visual Basic .NET, ja que es vol proporcionar al programa un entorn de Windows per tal d’oferir un format conegut i que ja s’hagi emprat alguna vegada

CoDaPack. An Excel and Visual Basic based software of compositional data analysis. Current version and discussion form upcoming versions

In the eighties, John Aitchison (1986) developed a new methodological approach for the statistical analysis of compositional data. This new methodology was implemented in Basic routines grouped under the name CODA and later NEWCODA inMatlab (Aitchison, 1997). After that, several other authors have published extensions to this methodology: Marín-Fernández and others (2000), Barceló-Vidal and others (2001), Pawlowsky-Glahn and Egozcue (2001, 2002) and Egozcue and others (2003). (...)

A Camera-Projector System for Robot Positioning by Visual Servoing

Positioning a robot with respect to objects by using data provided by a camera is a well known technique called visual servoing. In order to perform a task, the object must exhibit visual features which can be extracted from different points of view. Then, visual servoing is object-dependent as it depends on the object appearance. Therefore, performing the positioning task is not possible in presence of nontextured objets or objets for which extracting visual features is too complex or too costly. This paper proposes a solution to tackle this limitation inherent to the current visual servoing techniques. Our proposal is based on the coded structured light approach as a reliable and fast way to solve the correspondence problem. In this case, a coded light pattern is projected providing robust visual features independently of the object appearance

An approach to visual servoing based on coded light

Positioning a robot with respect to objects by using data provided by a camera is a well known technique called visual servoing. In order to perform a task, the object must exhibit visual features which can be extracted from different points of view. Then, visual servoing is object-dependent as it depends on the object appearance. Therefore, performing the positioning task is not possible in presence of non-textured objects or objects for which extracting visual features is too complex or too costly. This paper proposes a solution to tackle this limitation inherent to the current visual servoing techniques. Our proposal is based on the coded structured light approach as a reliable and fast way to solve the correspondence problem. In this case, a coded light pattern is projected providing robust visual features independently of the object appearance

Robust decoupled visual servoing based on structured light

This paper focuses on the problem of realizing a plane-to-plane virtual link between a camera attached to the end-effector of a robot and a planar object. In order to do the system independent to the object surface appearance, a structured light emitter is linked to the camera so that 4 laser pointers are projected onto the object. In a previous paper we showed that such a system has good performance and nice characteristics like partial decoupling near the desired state and robustness against misalignment of the emitter and the camera (J. Pages et al., 2004). However, no analytical results concerning the global asymptotic stability of the system were obtained due to the high complexity of the visual features utilized. In this work we present a better set of visual features which improves the properties of the features in (J. Pages et al., 2004) and for which it is possible to prove the global asymptotic stability

Plane-to-plane positioning from image-based visual servoing and structured light

In this paper we face the problem of positioning a camera attached to the end-effector of a robotic manipulator so that it gets parallel to a planar object. Such problem has been treated for a long time in visual servoing. Our approach is based on linking to the camera several laser pointers so that its configuration is aimed to produce a suitable set of visual features. The aim of using structured light is not only for easing the image processing and to allow low-textured objects to be treated, but also for producing a control scheme with nice properties like decoupling, stability, well conditioning and good camera trajectory

Creatividad en la escuela y libre expresión: iniciación al lenguaje plástico y visual mediante la exploración

Los dibujos de los niños son como sus relatos, sus movimientos, sus gestos, sus canciones inventadas (Coll, Elkonin, Freire, Gardner, Heathcote, Lowenfeld, Moll, Monereo, Read, Vygotsky). Expresan lo que viven, y cómo lo viven, su entorno, sus gustos, intereses, miedos… Aprenden a comunicarlo en los lenguajes que aprenden de los adultos, tanto verbales como corporales, visuales, musicales. Para entender el mundo adulto, ellos nos imitan, copian nuestros elementos y nos cuentan sus cosas. Pero poco a poco van eligiendo unos elementos y desechando otros que no les gustan o no les convencen, y se quedan con un lenguaje particular y propio, personalizado, de todos aquellos que han aprendido