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- Institut für Computervisualistik (24) (remove)
The goal of this thesis is the development of methods for augmented image synthesis using 3D photo collections. 3D photo collections are representations of real scenes automatically generated from single photos and describe a scene as a set of images with known camera poses as well as a sparse point-based model of the scene geometry. The main goal is to perform a photo-realistic augmented image synthesis of real and virtual parts, where the real scene is provided as a 3D photo collection. Therefore, three main problems are addressed.
Since the photos may be represented in different device-specific RGB color spaces, a color characterization of the 3D photo collections is necessary to gain correct color information that is consistent with human perception. The proposed novel method automatically transforms all images into a common RGB color space and thereby simplifies color characterization of 3D photo collections.
As a main problem for augmented image synthesis, all environmental lighting has to be known in order to apply illumination to virtual parts that is consistent with the real portions shown in the photos. To solve this problem, two novel methods were developed to reconstruct the lighting from 3D photo collections.
In order to perform image synthesis for arbitrary views on the scene, an image-based approach was developed that generates new views in 3D photo collections making direct use of its point cloud. The novel method creates new views in real-time and allows free-navigation.
In conclusion, the proposed novel methods show that 3D photo collections are a useful representation for real scenes in Augmented Reality and they can be used to perform a realistic image synthesis of real and virtual portions.
The present thesis covers the implementation and optimization of global illumination in three-dimensional scenes. Global illumination does not only consider direct illumination dependent on one or more light sources, but also indirect illumination which is emitted by surrounding objects in the scene. The thesis focuses on the implementation of a global illumination method and its improvement using OpenGL 4.4. This is done by a voxelization of the scene. By traversing the resulting voxel structure, additional information is taken from the scene, which contributes to a plausible global illumination.
Abstract 3 This paper explains the convolution reverb, a method that enables users to add realistic sounding reverberation to audio material that was recorded in neutral sounding rooms. In particular, the possibility of computing the effect on the GPU using OpenCL is discussed, to make use of the high concurrency of the problem. This paper aims at the development of a VST plugin that utilizes the GPU accelerated convolution algorithm, so that it can be used for audio software solutions.
Zusätzlich zum Rendern wird die Rechenleistung moderner Grafikkarten immer häufiger auch für allgemeine Berechnungen (GPGPU) genutzt. Für die Umsetzung stehen verschiedene Möglichkeiten zur Verfügung, die von der Verwendung der Renderingpipeline bis zu eigenständigen Schnittstellen reichen. In dieser Arbeit werden mit Render-To-Texture, Transform Feedback, Compute Shader und OpenCL vier verschiedene GPGPU-Methoden untersucht. Anhand von Partikelsystemen werden sie hinsichtlich der benötigten Berechnungszeit, der GPU-Auslastung, Lines of Code und Portierbarkeit miteinander verglichen. Dazu wurden sowohl das N-Körper Problem, Smoothed Particle Hydrodynamics und ein Partikelschwarm als Partikelsysteme umgesetzt. Es konnte gezeigt werden, dass insbesondere OpenCL und Compute Shader sehr gute Ergebnisse liefern.
This thesis presents a prototypical application for speech therapy as a therapeutical tool, simulating the articulation of German phonemes and the swallowing reflex. A special attention is given to a three-dimensional visualization of anatomical models of the pharyngolaryngeal region, which can be used in an interactive way. For examining the benefits of such an application in relation to conventional therapy mediums, the thesis considers iteratively the requirements of speech therapists.
This work presents an application for simulation objects, which can change their aggregate states between solid and liquid using a temperature system. The focal points are the simulation of fluids with a particle system, the generation of a surface and the visualization of metal. The application should be interactive and match the real time conditions. Different types of Shader are used for the parallelized computations on the GPU. Also more options to use the application and possible improvements are presented.
Ziel der Bachelorarbeit war es, eine moderne Art des Geländespiels "Schnitzeljagd" zu entwickeln. Dieses sollte möglichst auf jedem aktuellen Smartphone spielbar sein, welches mit dem Betriebssystem Android arbeitet. Das Gelände ist begrenzt auf den Universitätscampus Koblenz, somit dient das Spiel auch dazu, den Campus besser kennenzulernen.
Den Benutzern der Campusjagd wird eine mobile Applikation geboten, welche sie anhand von Hinweisen und Rätseln über den kompletten Campus führt, um letztendlich an einen Zielort zu gelangen, an welchem sich ein "Schatz" befindet. Anstatt wie üblich auf dem Gelände Schnitzel bzw. Schnipsel mit Hinweisen zu verstecken, werden bei der Campusjagd QR-Codes aufgehängt, um so den Weg zu markieren. Zur Täuschung sind auch irrelevante Codes zu finden. Die Codes müssen in der richtigen Reihenfolge abgelaufen werden, d. h. von einem Code erhält der Spieler den Hinweis zum jeweiligen Nächsten. Außerdem ist es möglich, dass aus einem QR-Code mehrere Hinweise für nächste Stationen angezeigt werden.
Diese Arbeit beschreibt den Entwurf und die Umsetzung einer prototypischen Android-Applikation zum Dokumentieren von Reiserouten. Nach einer kurzen Einführung in die grundlegenden Aspekte des Reisens, der notwendigen Hilfsmittel sowie das Betriebssystem Android wird das Konzept und die Anforderungen an die Anwendung vorgestellt. Anschließend werden die Realisierung der Implementierung erläutert und die Ergebnisse der Evaluation offengelegt.
Erweiterung der Konzeption und Implementierung einer Screening Applikation für mobile Endgeräte
(2014)
In this bachelor thesis an existing generic concept and an existing prototype for a smartphone application to record, monitor and document physical symptoms or observations of the human body are being extended. The existing funktionalities are being complemented by analysis of the previous Prototype. The concept and its Function modules, which are implemented in the existing prototype for the mobile platform Android, are being extended based on their analysed weaknesses. The resulting prototype and generic concept are evaluated and optimizations and extensions are being collected for further projects.
Tiny waves driven by wind, shallow, long waves, head overlapping sea, all of these waves occur in every ocean and even in small lakes. The surface of water is one of the most versatile phenomenas of nature. Not only the movement of waves, but also the reflection of sky, sun and coastline makes the surface of water unique. Exactly this complexity is what brings its own challenges to the simulation of water surfaces. That is why simulation of water occupies mathematicians with a challenge for nearly 400 years now.
In the last fifty years this challenge has more and more shifted to computer science. Computer graphic designers have tried to visualise water in a realistic manner for centuries. Science in this field expends from simple noise filters to mathematically complex solutions like Fourier Transformation.
In the following work historical background of todays wave theories, as well as mathematical fundamentals are given. The focus of this work is set on the implementation of these methods in OpenGL 3.3.