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In dieser Arbeit wird das Echtzeitrendering von Wolken von der Theorie bis hin zur Entwicklung derselben behandelt. Dabei sollen die visuellen Eigenschaften der Wolken sowie die unterschiedliche Wolkentypen simuliert werden. Dabei ist die Berechnung der Beleuchtung essentiell für ein glaubwürdiges Ergebnis. Die Rendertechniken nutzen dabei unterschiedliche Noise-Texturen; für die Modulierung der Wolken sind es hauptsächlich Perlin- und Perlin-Worley-Texturen. Das Rendern der Wolken wird per Compute-Shader durchgeführt um die Echtzeitfähigkeit zu gewährleisten. Um die Performance zu steigern, werden Temporal Reprojektion und andere Optimierungstechniken angewendet.
In dieser Arbeit wird überprüft, ob die Befahrung mit Forstmaschinen auf Andosol-Waldstandorten Auswirkungen auf die Bodenverdichtung hat. Dazu werden Faktoren wie die Anzahl der Befahrungen, die Neigung sowie die Bodenart betrachtet und analysiert. Die Andosolböden im Untersuchungsgebiet sind durch sehr geringe Lagerungsdichten sowie hohe Porenvolumen, bedingt durch Laacher See-Tephra (LST), gekennzeichnet.
Infolge der Befahrung durch Forstmaschinen bei zum Teil ungünstiger Witterung, bildeten sich bis zu 67 cm tiefe Fahrspuren. Des Weiteren erhöht sich die Lagerungsdichte im Vergleich zum unbeeinflussten Wald im Schnitt um 17 %, im Extremfall bis zu 54 %. Einzeln betrachtet kann für die Bodenart ein starker Zusammenhang zwischen Feinboden, vor allem Schluff sowie Ton, und der Lagerungsdichte festgestellt werden. Ein Zusammenhang zwischen der Hangneigung und der Verdichtung des Bodens kann anhand der untersuchten Rückegasse nicht festgestellt werden. Die Anzahl der Befahrungen scheint im Untersuchungsgebiet mit dem Grad der Verdichtung einherzugehen.
This thesis is about the design and the implementation of a virtual reality experience. The goal is to answer two questions: Is it possible to create an immersive virtual reality experience which is mainly using impulses and triggers to scare and frighten users? Secondly, is this immersion strong enough to create an illusion in which the user can't separate the real world from the virtual world? To realise this project the design program Unity3D as well as Visual Studios 2017 were used. Furthermore, in order to verify that the experience is indeed immersive for the user, an experiment with a sample size of seven people was created. Afterwards the candidates were interviewed via a questionnaire how they felt during the virtual reality application. As a result the study showed that the application has tendencies to be immersive but the users were still aware of the situation. It can be concluded that the immersion was not strong enough to fool users regarding the separation of virtual and real world.
This bachelor thesis implements a system for camera tracking based on a particle filter. For this purpose, a marker tracking is realized and the camera position is calculated based on the marker position. The marker is to be found with a particle filter and in order to accomplish this possible marker positions are simulated, also called particles, and weighted with Likelyhood-Functions. The focus lies on the evaluation of different Likelihood-Functions of the particle filter. The Likelyhood functions were implemented in CUDA as part of the implementation.
This thesis deals with the conception and implementation of an action role-playing game using the game engine Unity. Within the context of an evaluation, the game was supposed to be evaluated with regard to the usability of the integrated control modes, the visual conviction of the animations and the user-friendliness of the tools and visualizations provided. In addition, weaknesses and problems in the game were to be identified through open feedback. The results of the evaluation showed that the game is still expandable in terms of usability and user-friendliness, but has left a good impression on the test persons.
The main goal of this paper is to ascertain, if neural networks (especially LSTM) are helpful in predicting processes by making predictions as accurately as possible.
TensorFlow is the used framework in Python to build recurrent neural networks. Two networks are built, whereby one is used for training and the other one for prediction.
Used datasets contain several processes with several events each. With those processes, the network ist trained and afterwards, the parameters are saved. The network for prediction uses these parameters to make predictions.
The neural network is able to make clear predictions about subsequent events. Even branches can be predicted.
When developed further, integration in other programs is possible. It is recommended to use unique names for the events or to rename them.
The Internet of Things is still one of the most relevant topics in the field of economics and research powered by the increasing demand of innovative services. Cost reductions in manufacturing of IoT hardware and the development of completely new communication ways has led to the point of bil-lions of devices connected to the internet. But in order to rule this new IoT landscape a standardized solution to conquer these challenges must be developed, the IoT Architecture.
This thesis examines the structure, purpose and requirements of IoT Architecture Models in the global IoT landscape and proposes an overview across the selected ones. For that purpose, a struc-tured literature analysis on this topic is conducted within this thesis, including an analysis on three existing research approaches trying to frame this topic and a tool supported evaluation of IoT Archi-tecture literature with over 200 accessed documents.
Furthermore, a coding of literature with the help of the specialised coding tool ATLAS.ti 8 is conduct-ed on 30 different IoT Architecture Models. In a final step these Architecture Models are categorized and compared to each other showing that the environment of IoT and its Architectures gets even more complex the further the research goes.
Das „Templerhaus“ in Boppard.
Kunsthistorische Untersuchung eines spätromanischen Baudenkmals
(2019)
Die vorliegende Bachelorarbeit untersucht die Namens-, Besitz- und Nutzungsgeschichte des sogenannten Templerhauses, einem massiven Profanbau der Stauferzeit in Boppard (Rheinland-Pfalz). Nach einer Beschreibung des heutigen Erscheinungsbildes und der Erarbeitung früherer Zustände erfolgt ein stilkritischer Vergleich mit ausgewählten Beispielen der Umgebung, der Rekonstruktionsversuch früherer Bauphasen und eine Einordnung in den städtischen Kontext.
Simulation von Schnee
(2019)
Using physics simulations natural phenomena can be replicated
with the computer. The aim is to calculate a physical feature as correclty as
possible in order to draw conclusions for the real world. Fields of Application
are, for example, medicine, industry, but also games or films.
Snow is a very complex natural phenomenon due to its physical structure
and properties. To simulate snow, different material properties have to be
considered.
The most important method that deals with the simulation of snow and its
dynamics is the material point method. It combines the Lagrangian particles
based on continuum mechanics with a Cartesian grid. The grid enables
communication between the snow particles, which are not actually connected.
For calculation of particles data is transferred from these particles to
the grid nodes. There, calculations are carried out with information about
neighboring particles. The results are then transferred back to the original
particles. Using GPGPU techniques, physical simulations can be implemented
on the graphics card. Procedures like the material point method
can be parallelized well with these techniques.
This paper deals with the physical basics of the material point method and
implements them on the graphics card using compute shaders. Then performance
and quality are evaluated.
The development of a game engine is considered a non-trivial problem. [3] The architecture of such simulation software must be able to manage large amounts of simulation objects in real-time while dealing with “crosscutting concerns” [3,p. 36] between subsystems. The use of object oriented paradigms to model simulation objects in class hierarchies has been reported as incompatible with constantly changing demands during game development [2, p. 9], resulting in anti-patterns and eventual, messy refactoring.[13]
Alternative architectures using data oriented paradigms revolving around object composition and aggregation have been proposed as a result. [13, 9, 1, 11]
This thesis describes the development of such an architecture with the explicit goals to be simple, inherently compatible with data oriented design, and to make reasoning about performance characteristics possible. Concepts are formally defined to help analyze the problem and evaluate results. A functional implementation of the architecture is presented together with use cases common to simulation software.
This bachelor thesis investigates the utilization of the Wii Balance Board
in virtual reality applications. For the investigation a snowboard game is
implemented, in which the virtual avatar can be controlled with the pressure
sensors of the Wii Balance Board. The user should be able to move
playfully and intuitively through the virtual environment by balancing his
body. The immersiveness and the influence on motion sickness and cybersickness
will be investigated. In Addition, the Wii Balance Board will be
compared with the Xbox Controller. The aim of the work is to evaluate
whether the Wii Balance Board is able to allow free movement in virtual
environments and whether it is more advantageous to use it rather than
a conventional controller. The results of the survey indicate that the Wii
Balance Board has a positive influence on the immersivness of the game,
despite better game results by using a conventional controller. The survey
also reveals that the use of the Wii Balance Board is responsible for more
motion-sickness/cybersickness cases.
A growing flood of advertising and information as well a limited capacity to collect information present a challenge to marketing today. Marketing in general is very important for the success of a company. But the classic marketing theory which ignores the special characteristics of young companies dominates. A new company with a new idea and a new product meets an existing market with customers and established competitors. For an innovation-related founding context this is a special challenge.
In this bachelor thesis the subjects, entrepreneurship and marketing will be discussed first. In addition the special characteristics of young companies, the so-called liabilities will be explained. The meaning of the term entrepreneurial marketing is explained by detailed consideration of the close and wide conceptual understanding. Afterwards the comparison clarifies the difference to the classic marketing. As part of the literature review, the current state of research will be presented and the practical use will be examined in more detail based on the central approaches. The approaches are the guerrilla marketing, ambient marketing, sensation marketing, viral marketing and ambush marketing. How entrepreneurial marketing with the central approaches is used in a start-up company is analyzed by a qualitative investigation in the form of a case study.
The case study shows that unconventional marketing measures and low use of medium can have a large effect. The entrepreneurial marketing therefore offers an alternative to classic marketing because it pays attention to the special characteristics of a young start-up company. This bachelor thesis shows that the entrepreneurial marketing can convert the weaknesses of young founding companies into strengths and lead to superiority over the competition.
Simulation von Rauch
(2019)
This bachelor thesis deals with the simulation of smoke in a particle
system. Here the possibilities are investigated to implement smoke as
realistically as possible in a particle system and to calculate it in real time.
The physical simulation is based on the work of Müller and
Ren, who deal with the physical properties of fluids and gases.
The simulation was implemented on the GPU using C++, OpenGL and
the compute shaders available in OpenGL. Special attention was paid
to the performance of the simulation. Hoetzlein techniques are
used to accelerate the particle system. Two acceleration methods were
then implemented and compared. The runtime, but also the used memory
space of the GPU is discussed.
The mitral valve is one of four human heart valves. It is located in the left heart and acts as a unidirectional passageway for blood between the left atrium and the left ventricle. A correctly functioning mitral valve prevents a backflow of blood into the pulmonary circulation (lungs) and thus constitutes a vital part of the cardiac cycle. Pathologies of the mitral valve can manifest in a variety of symptoms with severity ranging from chest pain and fatigue to pulmonary edema (fluid accumulation in the tissue and air space of lungs), which may ultimately cause respiratory failure.
Malfunctioning mitral valves can be restored through complex surgical interventions, which greatly benefit from intensive planning and pre-operative analysis. Visualization techniques provide a possibility to enhance such preparation processes and can also facilitate post-operative evaluation. The work at hand extends current research in this field, building upon patient-specific mitral valve segmentations developed at the German Cancer Research Center, which result in triangulated 3D models of the valve surface. The core of this work will be the construction of a 2D-view of these models through global parameterization, a method that can be used to establish a bijective mapping between a planar parameter domain and a surface embedded in higher dimensions.
A flat representation of the mitral valve provides physicians with a view of the whole surface at once, similar to a map. This allows assessment of the valve's area and shape without the need for different viewing angles. Parts of the valve that are occluded by geometry in 3D become visible in 2D.
An additional contribution of this work will be the exploration of different visualizations of the 3D and 2D mitral valve representations. Features of the valve can be highlighted by associating them with specified colors, which can for instance directly convey pathology indicators.
Quality and effectiveness of the proposed methods were evaluated through a survey conducted at the Heidelberg University Hospital.
The goal of this work is the induction, conception, implementation and evaluation of an interactive game application among Android. The game genre of the app is a 2D-Jump ‘n’ Run Side-Scroller, whose graphical implementation is based on the four elements earth, fire, water and wind. The application should have classic functions of a Jump ‘n’ Run game and allow the player to overcome the four game worlds to find the finish. The implementation is based on Unity Engine and Adobe Photoshop. A user test asks basic questions about the application and specific questions about the research question, which are then evaluated. The research question examines the connection between fun factor and color perception while playing the app. Represented by the natural color combinations of the four elements. At the end possibilities for expansion and future prospects will be discussed.
Mit der rasant fortschreitenden Entwicklung von Informatiksystemen und Algorithmen ist die Erfassung und Verarbeitung von Daten in immer größeren Umfang möglich. Verschiedene Initiativen haben sich dadurch motiviert zur Aufgabe gemacht, über die daraus resultierenden Gefahren für die Persönlichkeitsrechte und die Meinungsfreiheit aufzuklären. Dies soll einen bewussteren Umgang mit personenbezogenen Daten zur Folge haben. Zum Schutz der Grundrechte bedarf es aufgeklärter und informierter Nutzer, diese Aufgabe können die Initiativen allerdings nicht alleine leisten. Die staatlichen Bildungseinrichtungen und besonders die Schulen, stehen hier in der Pflicht sich an der Lösung des Problems zu beteiligen. Um ihrem Bildungsauftrag im vollen Ausmaß gerecht zu werden, bedarf es struktureller Änderungen, wie der Änderung von Lehrplänen. Solange diese allerdings nicht erfolgt sind, muss in und mit den gegebenen Strukturen gearbeitet werden. Eine Plattform dafür bietet der schulische Informatikunterricht.
Die vorliegende Arbeit stellt eine Unterrichtsreihe zur Behandlung von Datenschutz und Datensicherheit vor. Es wurde dabei ein kontextorientierter Ansatz nach Vorbild von Informatik im Kontext gewählt. Die Reihe Smartphone-Applikationen beinhaltet über die genannten primären Themen der Unterrichtsreihe hinaus weitere Dimensionen, die bei der Nutzung von Smartphones auftreten. Durch den direkten Bezug zum Alltag der Schüler soll dabei eine möglichst hohe Betroffenheit erzeugt werden. Dadurch sollen die Schüler ihr bisheriges Nutzungsverhalten überdenken und im besten Fall ihren Altersgenossen als Vorbilder dienen. Die Prüfung der Durchführbarkeit der Reihe im Unterricht steht noch aus. Diese war im Rahmen dieser Arbeit, begründet durch die begrenzte Bearbeitungszeit, nicht zu leisten.
In this thesis criteria and requirements for a successful collaboration platform for the improvement of communication between scientific institutes of the railway industry distributed worldwide are developed and evaluated. First, an introduction to collaboration platforms and their current market situation and trends will be given. The result-ing knowledge will be used for a qualitative content analysis in the form of interviews with the target group of the planned collaboration platform. Based on the basic knowledge and the interviews carried out, hypotheses for communication in scientific institutes will then be formed. These hypotheses serve to create a questionnaire for a quantitative survey of the target group. The following analysis of general collaboration platforms and those of the railway industry provides further insights and describes requirements for a successful conception of a collaboration platform.
A subsequently planned conception of this platform cannot be carried out within the scope of this research work due to a lack of meaningful results and information. The planned quantitative content analysis was too complex for the chosen research context. In this research work, the quantitative questioning will be prepared for the following research work in this topic area. Further work results will be evaluated and made available for the following research work.
Social Network of Business Objects (SoNBO) is a concept for aggregating information distributed in he-terogeneous system landscapes and making it available via a single user interface. The central idea is to understand company information as a network (graph). There is already a SoNBO-Explorer which integrates the information of a customer relationship management system (CRM system). The challenge in configuring such an application is to identify the corporate network and thus find out how the stored data is linked within the company. A tool that can visualize the corporate network is helpful for this. In this thesis a selfdeveloped tool (SoNBO-Graph-App) is presented as a prototype, which realizes this visualization. With this application the configuration of the network in the SoNBO Explorer consisting of the merged data can be supported by carrying out that configuration on a graphical level. The prototype is connected to two different databases of a Customer Relationship Management (CRM) system and allows the aggregation of these data so that it is displayed as a graph in an overview. This gives the user a better insight and understanding of the relationship between the different data. This work is part of the longterm research project SoNBO, whose goal is a concept for the integration of information from different business application systems.
This work describes a novel software tool for visualizing anatomical segmentations of medical images. It was developed as part of a bachelor's thesis project, with a view to supporting research into automatic anatomical brain image segmentation. The tool builds on a widely-used visualization approach for 3D image volumes, where sections in orthogonal directions are rendered on screen as 2D images. It implements novel display modes that solve common problems with conventional viewer programs. In particular, it features a double-contour display mode to aid the user's spatial orientation in the image, as well as modes for comparing two competing segmentation labels pertaining to one and the same anatomical region. The tool was developed as an extension to an existing open-source software suite for medical image processing. The visualization modes are, however, suitable for implementation in the context of other viewer programs that follow a similar rendering approach.
The modified code can be found here: soundray.org/mm-segmentation-visualization.tar.gz.