Institut für Computervisualistik
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Institute
Learning or doing ones homework isn’t among the first things students like to do. They rather play videogames — a situation every teacher knows. One chance to solve this problem is to combine learning and video games.
Scientists are discussing game-based learning and gamification in this context. To shed some light at the meaning of these terms, especially on gamification, is one of the purposes of this thesis. Gamification doesn’t mean to cover boring
learning content with some sort of game mechanics or to reward a right answer with a minigame, that has no connection to the teaching and learning content at all. In contrast, gamification is the inclusion of game elements in learning applications to motivate students to use these applications to learn.
Learning languages takes special profit of computer-assisted learning. Using an online learning environment enables the students to get in touch with each other and exchange experiences. Certain game elements can be used to let students participate in a sort of competition. Here they can compare their knowledge in a game-based manner.
In the context of this thesis, a prototype will be developed that connects game elements to a learning application for “German as a Foreign Language“. The
purpose of this prototype is to show teachers possibilites to motivate their students. A usability test will be conducted, the collected data will be evaluated and improvements will be proposed. As a result of this thesis, it is shown that the prototype includes promising approches and was evaluated successfully. Nonetheless the prototype needs to be tested more thoroughly and improvements need to be implemented. Furthermore, evaluation methods need to be developed to take the peculiarities of games and their special characteristics into account.
Augmented Reality has many areas of application. It can be used to simplify everyday life as well as working processes. However, since there are
many manufacturers that offer greatly varying systems, choosing the correct system according to application as well as cross-platform development are dfficult. This thesis attempts to develop an application which can be used to simulate Augmented Reality devices on Virtual Reality systems. This should simplify the processes of choosing a system as well as cross-platform
development.
Since the simulation will be designed to run on mobile devices, it should be possible to render high quality, realistic environments in advance, using a panoramic image. On a Virtual Reality device, they need to be displayed as a stereoscopic image. To achieve this, several methods are presented that can be used to perform this conversion. An editor will be created which will allow the creation of scenes, configuration of Augmented Reality devices and displaying them on a Virtual Reality system. For closing this thesis a test will be performed, to check the quality of the simulation as well as improvements that can be made.
Die vorliegende Arbeit befasst sich mit der Entwicklung eines Pixel-Sticks, ein digitales Hilfsmittel für das Light Painting. Schwerpunkte sind die Entwicklung von Hard- und Software des Sticks, sowie einer Android Applikation für die Bedienung.
Der Einbezug des Smartphones unterscheidet diesen Pixel-Stick anderen Varianten. Neben der grundlegenden Steuerung ist es möglich, Bilder direkt von dem Smartphone auf den Stick zu übertragen.
Ray Tracing als Bildsyntheseverfahren ist relevant für viele Anwendungsbereiche, da es Aspekte des Lichttransports physikalisch korrekt simulieren kann. Aufgrund des hohen Berechnungsaufwands sind der Einsatz von Datenstrukturen zur Beschleunigung und die parallele Verarbeitung notwendig. GPUs sind inzwischen hoch parallele, programmierbare Prozessoren mit zahlreichen Kernen und eignen sich aufgrund ihrer hohen Leistungsfähigkeit dazu, aufwändige, parallelisierbare Probleme zu lösen. In dieser Arbeit geht es um GPU Ray Tracing, beschleunigt durch Bounding Volume Hierarchien (BVH). Auf Basis relevanter Veröffentlichungen zu Aufbau und Traversierung von BVHs und der Abbildung des Ray Tracing Prozesses auf die GPU Architektur wird ein GPU Ray Tracer konzeptioniert und entwickelt. Während der BVH Aufbau vorab auf dem Host stattfindet, wird der gesamte Ray Tracing Prozess durch mehrere Kernel komplett auf der GPU ausgeführt. Die Implementierung der Kernel erfolgt in Form von OpenGL Compute Shader Programmen, und die Aufteilung des Ray Tracers auf mehrere Kernel ist durch die GPU Achitektur und das SIMT Ausführungsmodell motiviert. Für die Speicherorganisation der binären BVHs werden zwei Varianten betrachtet, klassisch und als MBVH, wobei sich die MBVH Organisation als effizienter erweist. Zudem werden verschiedene Varianten für die Traversierung ohne Stack und für die Stack-basierte Traversierung umgesetzt und bewertet. Der in mehrere Kernel strukturierte GPU Ray Tracer wird zudem mit einer Einzelkernel Version verglichen. Die besten Ergebnisse erreicht die Traversierung ohne Stack mit einem while-while Ablauf und MBVH im Rahmen des aufgeteilten GPU Ray Tracers.
While Virtual Reality has been around for decades it gained new life in recent years. The release of the first consumer hardware devices allows fully immersive and affordable VR for the user at home. This availability lead to a new focus of research on technical problems as well as psychological effects. The concepts of presence, describing the feeling of being in the virtual place, body ownership and their impact are central topics in research for a long time and still not fully understood.
To enable further research in the area of Mixed Reality, we want to introduce a framework that integrates the users body and surroundings inside a visual coherent virtual environment. As one of two main aspects we want to merge real and virtual objects to a shared environment in a way such that they are no longer visually distinguishable. To achieve this the main focus is not supposed to be on a high graphical fidelity but on a simplified representation of reality. The essential question is, what level of visual realism is necessary to create a believable mixed reality environment that induces a sense of presence in the user? The second aspect considers the integration of virtual persons. Can characters be recorded and replayed in a way such that they are perceived as believable entities of the world and therefore act as a part of the users environment?
The purpose of this thesis was the development of a framework called Mixed Reality Embodiment Platform. This inital system implements fundamental functionalities to be used as a basis for future extensions to the framework. We also provide a first application that enables user studies to evaluate the framework and contribute to aforementioned research questions.
Six and Gimmler have identified concrete capabilities that enable users to use the Internet in a competent way. Their media competence model can be used for the didactical design of media usage in secondary schools. However, the special challenge of security awareness is not addressed by the model. In this paper, the important dimension of risk and risk assessment will be introduced into the model. This is especially relevant for the risk of the protection of personal data and privacy. This paper will apply the method of IT risk analysis in order to select those dimensions of the Six/Gimmler media competence model that are appropriate to describe privacy aware Internet usage. Privacy risk aware decisions for or against the Internet usage is made visible by the trust model of Mayer et al.. The privacy extension of the competence model will lead to a measurement of the existing privacy awareness in secondary schools, which, in turn, can serve as a didactically well-reasoned design of Informatics modules in secondary schools. This paper will provide the privacy-extended competence model, while empirical measurement and module design is planned for further research activities.
One of the fundamental decisions during the development of any system is the representation of data. In computer graphics, objects are usually represented as sets of triangles. There are however many different variants with their own strengths and weaknesses. This thesis will explore distancefields as a representation for objects. Distancefields are functions, which map every point in space to the distance to the closest surface point. While this description is very simple, a number of interesting properties can be derived, allowing for a multitude of shapes, operations and effects. An overview of the necessary background and methods is given. Furthermore, some extended or new approaches are presented, such as displaying implicit surfaces, approximating indirect illumination or implementing a GPU tracer.
In recent years head mounted displays (HMD) and their abilities to create virtual realities comparable with the real world moved more into the focus of press coverage and consumers. The reason for this lies in constant improvements in available computing power, miniaturisation of components as well as the constantly shrinking power consumption. These trends originate in the general technical progress driven by advancements made in smartphone sector. This gives more people than ever access to the required components to create these virtual realities. However at the same time there is only limited research which uses the current generation of HMDs especially when comparing the virtual and real world against each other. The approach of this thesis is to look into the process of navigating both real and virtual spaces while using modern hardware and software. One of the key areas are the spatial and peripheral perception without which it would be difficult to navigate a given space. The influence of prior real and virtual experiences on these will be another key aspect. The final area of focus is the influence on the emotional state and how it compares to the real world. To research these influences a experiment using the Oculus Rift DK2 HMD will be held in which subjects will be guided through a real space as well as a virtual model of it. Data will be gather in a quantitative manner by using surveys. Finally, the findings will be discussed based on a statistical evaluation. During these tests the different perception of distances and room size will the compared and how they change based on the current reality. Furthermore, the influence of prior spatial activities both in the real and the virtual world will looked into. Lastly, it will be checked how real these virtual worlds are and if they are sufficiently sophisticated to trigger the same emotional responses as the real world.
Der natürliche Prozess der Verwitterung ist ein komplexer Vorgang, der von unterschiedlichsten Parametern beeinflusstwird. Hauptbestandteil dieses Prozesses ist das Zusammenziehen des Fruchtvolumens infolge von Wasserverlust durch Transpiration sowie die Veränderung der Fruchtfarbe und Oberfläche. Es wurden bereits Verfahren entwickelt, die diese Eigenschaften mit Hilfe von Parametrisierung sowie physikalischer Ansätze simulieren. Die in dieser Arbeit erstellte Anwendung simuliert das Fruchtfleisch durch ein Tetraedernetz und die Veränderung der Haut mit Hilfe von dynamischer Texturanpassung. Der entwickelte Algorithmus arbeitet in linearer Laufzeit und seine Ergebnisse werden anhand selbst erstellter Fruchtmodelle präsentiert.
A special challenge of the basic musical education of children is to give them an understanding of reading and writing musical scores. During the training of young choristers it is furthermore important to educate them in directly transforming the written scores into sounds.
Therefore it is an interesting idea to play the sounds to the children via piano or keyboard and simultaneously present them on a screen in musical notation.
The aim of this bachelor thesis is the implementation of such a system that allows to enter scores using a MIDI-compatible keyboard and then depicting these as musical notation. The prototype of the application operates in three steps. It receives the musical scores via keyboard in form of MIDIdatasets. These MIDI-information are converted to the MusicXML-format. Based on this MusicXML-notation the software finally generates and displays the visual output.