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Ein Interpreter für GReQL 2
(2006)
Im Rahmen dieser Diplomarbeit wird die Auswertungskomponente fuer die Graphanfragesprache GREQL 2, welche von Katrin Marchewka beschrieben wurde, entworfen, welche Anfragen diese Sprache interpretiert. Die Auswertungskomponente besteht aus den Bausteinen Auswerter, Parser, Optimierer, Funktionsbibliothek und dem Containerframework JValue. Der Parser wurde bereits von Katrin Marchewka implementiert, der Optimierer bleibt einer Anschlußarbeit vorbehalten. Innerhalb dieser Arbeit werden die Bausteine Auswerter, Funktionsbibliothek und JValue als Prototypen implementiert. Aufgrund der Erfahrungen mit der Auswertungskomponente fuer den GREQL 2-Vorgaenger GREQL 1 ist das Primaerziel dieser Arbeit der Entwurf einer sauberen, klaren, erweiterbaren und zukunftsfähigen Architektur, wobei die aktuellen Prinzipien der Softwaretechnik beüecksichtigt werden sollen.
Shadows add a level of realism to a rendered image. Furthermore, they support the user of an augmented reality application through the interactions of virtual objects. The reason for this is that shadows make it easier to judge the position and the size of a virtual object. In 1978, Lance Williams published the shadow mapping algorithm with the aim to render a shadow of objects in a virtual scene. This master thesis presents a modified shadow mapping approach that can additionally be used in Augmented/Mixed Reality applications. First of all the standard algorithm ist extended by a PCF-filter. This filter is used to handle the aliasing-problem on the edges of the shadow and also to soften the shadow. Phantom objects are necessary to be able to operate this approach in a Mixed Reality application. These objects simulate the position and the geometry of the real objects for the algorithm. The approach consists of three steps: First the camera image is drawn into the framebuffer. After that a shadow map, of the virtual objects only, is created. When rendering these objects shadow mapping creates the shadows of virtual objects onto other virtual objects and on themselves. Afterwards the phantom objects are rendered. The depth test is performed on the fragment shader. If a fragment lies in a shadowed region it will get the color of the shadow. However, if it is beeing lit its transpareny value will be set to 1 so that it will not be seen. By applying this procedure all shadows from the virtual objects onto the real objects will be drawn. The results show that the approach can be used in real time in Mixed Reality environments. Additionally a comparison with a modified version of a shadow volume algorithm that can also be used for Mixed Reality applications shows that the approach of this master thesis casts a more realistic shadow in a shorter period of time. All in all this approach increases the level of realism in augmented reality applications and it helps the user measure distances and sizes of the virtual objects more easily.
Interactive video retrieval
(2006)
The goal of this thesis is to develop a video retrieval system that supports relevance feedback. One research approach of the thesis is to find out if a combination of implicit and explicit relevance feedback returns better retrieval results than a system using explicit feedback only. Another approach is to identify a model to weight existing feature categories. For this purpose, a state-of-the-art analysis is presented and two systems implemented, which run under the conditions of the international TRECVID workshop. It will be a basis system for further research approaches in the field of interactive video retrieval. Amongst others, it shall participate in the 2006 search task of the mentioned workshop.