05 Fakultät Informatik, Elektrotechnik und Informationstechnik

Permanent URI for this collectionhttps://elib.uni-stuttgart.de/handle/11682/6

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Subject: search.filters.subject.620Start date: 2017Publication Type: search.filters.UBSTyp.Dissertation

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    Deep learning based prediction and visual analytics for temporal environmental data
    (2022) Harbola, Shubhi; Coors, Volker (Prof. Dr.)
    The objective of this thesis is to focus on developing Machine Learning methods and their visualisation for environmental data. The presented approaches primarily focus on devising an accurate Machine Learning framework that supports the user in understanding and comparing the model accuracy in relation to essential aspects of the respective parameter selection, trends, time frame, and correlating together with considered meteorological and pollution parameters. Later, this thesis develops approaches for the interactive visualisation of environmental data that are wrapped over the time series prediction as an application. Moreover, these approaches provide an interactive application that supports: 1. a Visual Analytics platform to interact with the sensors data and enhance the representation of the environmental data visually by identifying patterns that mostly go unnoticed in large temporal datasets, 2. a seasonality deduction platform presenting analyses of the results that clearly demonstrate the relationship between these parameters in a combined temporal activities frame, and 3. air quality analyses that successfully discovers spatio-temporal relationships among complex air quality data interactively in different time frames by harnessing the user’s knowledge of factors influencing the past, present, and future behaviour with Machine Learning models' aid. Some of the above pieces of work contribute to the field of Explainable Artificial Intelligence which is an area concerned with the development of methods that help understand, explain and interpret Machine Learning algorithms. In summary, this thesis describes Machine Learning prediction algorithms together with several visualisation approaches for visually analysing the temporal relationships among complex environmental data in different time frames interactively in a robust web platform. The developed interactive visualisation system for environmental data assimilates visual prediction, sensors’ spatial locations, measurements of the parameters, detailed patterns analyses, and change in conditions over time. This provides a new combined approach to the existing visual analytics research. The algorithms developed in this thesis can be used to infer spatio-temporal environmental data, enabling the interactive exploration processes, thus helping manage the cities smartly.
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    Efficient modeling and computation methods for robust AMS system design
    (2018) Gil, Leandro; Radetzki, Martin (Prof. Dr.-Ing.)
    This dissertation copes with the challenge regarding the development of model based design tools that better support the mixed analog and digital parts design of embedded systems. It focuses on the conception of efficient modeling and simulation methods that adequately support emerging system level design methodologies. Starting with a deep analysis of the design activities, many weak points of today’s system level design tools were captured. After considering the modeling and simulation of power electronic circuits for designing low energy embedded systems, a novel signal model that efficiently captures the dynamic behavior of analog and digital circuits is proposed and utilized for the development of computation methods that enable the fast and accurate system level simulation of AMS systems. In order to support a stepwise system design refinement which is based on the essential system properties, behavior computation methods for linear and nonlinear analog circuits based on the novel signal model are presented and compared regarding the performance, accuracy and stability with existing numerical and analytical methods for circuit simulation. The novel signal model in combination with the method proposed to efficiently cope with the interaction of analog and digital circuits as well as the new method for digital circuit simulation are the key contributions of this dissertation because they allow the concurrent state and event based simulation of analog and digital circuits. Using a synchronous data flow model of computation for scheduling the execution of the analog and digital model parts, very fast AMS system simulations are carried out. As the best behavior abstraction for analog and digital circuits may be selected without the need of changing component interfaces, the implementation, validation and verification of AMS systems take advantage of the novel mixed signal representation. Changes on the modeling abstraction level do not affect the experiment setup. The second part of this work deals with the robust design of AMS systems and its verification. After defining a mixed sensitivity based robustness evaluation index for AMS control systems, a general robust design method leading to optimal controller tuning is presented. To avoid over-conservative AMS system designs, the proposed robust design optimization method considers parametric uncertainty and nonlinear model characteristics. The system properties in the frequency domain needed to evaluate the system robustness during parameter optimization are obtained from the proposed signal model. Further advantages of the presented signal model for the computation of control system performance evaluation indexes in the time domain are also investigated in combination with range arithmetic. A novel approach for capturing parameter correlations in range arithmetic based circuit behavior computation is proposed as a step towards a holistic modeling method for the robust design of AMS systems. The several modeling and computation methods proposed to improve the support of design methodologies and tools for AMS system are validated and evaluated in the course of this dissertation considering many aspects of the modeling, simulation, design and verification of a low power embedded system implementing Adaptive Voltage and Frequency Scaling (AVFS) for energy saving.
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    Direction of arrival estimation using a multiple-input-multiple-output radar with applications to automobiles
    (2017) Rambach, Kilian; Yang, Bin (Prof. Dr.-Ing.)
    The thesis at hand investigates the direction of arrival (DOA) estimation using a Multiple-Input-Multiple-Output (MIMO) radar system. The application of MIMO radars in automobiles is studied. A MIMO radar consists of several transmitting (Tx) and receiving (Rx) antennas. We focus on a time division multiplexed (TDM) MIMO radar with colocated Tx and Rx antennas. The motivation is the use of a radar as a security system in automotive applications, e.g. to identify a dangerous situation and react automatically. Security systems must be very reliable. Hence, besides a good estimation of the distance and velocity, a high performance in DOA estimation is necessary. This is a demanding task, since only a small number of antennas is used and the radar is limited to a small geometrical size. Compared to the corresponding Single-Input-Multiple-Output (SIMO) radar, a MIMO radar with colocated antennas can achieve a higher accuracy in DOA estimation due to its larger virtual aperture. Therefore it is a promising technique for the use in automobiles. The obtained results of this thesis enable us to find optimal TDM schemes which yield a very high DOA accuracy for targets which are stationary as well as for targets which are moving relative to the radar system. The results are not confined to MIMO radars in automobiles, but can be used in other applications as well.
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    Laser doping for silicon solar cells : modeling and application
    (2024) Hassan, Mohamed; Werner, Jürgen H. (Prof. Dr. rer. nat. habil.)
    In meiner Dissertation geht es um die Simulation des Laserdotierungsprozess der Oberfläche des Siliziumwafers um hoch effizienten Solarzellen herzustellen. Die Simulation ermöglicht die genaue Vorhersage der Dimensionen eines dotierten Bereiches. Das hat ermöglicht, nicht nur die Abhängigkeit des ergebenden Schichtleitwerts von der benutzten Rastergeschwindigkeit des Laserstrahls auf die Siliziumoberfläche zu verstehen, sondern auch der Schichtleitwert einer laserdotierten Schicht basierend auf ein einfaches geometrisches Modell vorherzusagen.
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    Der Germanium-Zener-Emitter für die Silizium-Photonik
    (2020) Körner, Roman; Schulze, Jörg (Prof. Dr. habil.)
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    Implications of the uncanny valley of avatars and virtual characters for human-computer interaction
    (2018) Schwind, Valentin; Henze, Niels (Prof. Dr.)
    Technological innovations made it possible to create more and more realistic figures. Such figures are often created according to human appearance and behavior allowing interaction with artificial systems in a natural and familiar way. In 1970, the Japanese roboticist Masahiro Mori observed, however, that robots and prostheses with a very - but not perfect - human-like appearance can elicit eerie, uncomfortable, and even repulsive feelings. While real people or stylized figures do not seem to evoke such negative feelings, human depictions with only minor imperfections fall into the "uncanny valley," as Mori put it. Today, further innovations in computer graphics led virtual characters into the uncanny valley. Thus, they have been subject of a number of disciplines. For research, virtual characters created by computer graphics are particularly interesting as they are easy to manipulate and, thus, can significantly contribute to a better understanding of the uncanny valley and human perception. For designers and developers of virtual characters such as in animated movies or games, it is important to understand how the appearance and human-likeness or virtual realism influence the experience and interaction of the user and how they can create believable and acceptable avatars and virtual characters despite the uncanny valley. This work investigates these aspects and is the next step in the exploration of the uncanny valley. This dissertation presents the results of nine studies examining the effects of the uncanny valley on human perception, how it affects interaction with computing systems, which cognitive processes are involved, and which causes may be responsible for the phenomenon. Furthermore, we examine not only methods for avoiding uncanny or unpleasant effects but also the preferred characteristics of virtual faces. We bring the uncanny valley into context with related phenomena causing similar effects. By exploring the eeriness of virtual animals, we found evidence that the uncanny valley is not only related to the dimension of human-likeness, which significantly change our view on the phenomenon. Furthermore, using advanced hand tracking and virtual reality technologies, we discovered that avatar realism is connected to other factors, which are related to the uncanny valley and depend on avatar realism. Affinity with the virtual ego and the feeling of presence in the virtual world were also affected by gender and deviating body structures such as a reduced number of fingers. Considering the performance while typing on keyboards in virtual reality, we also found that the perception of the own avatar depends on the user's individual task proficiencies. This thesis concludes with implications that not only extends existing knowledge about virtual characters, avatars and the uncanny valley but also provide new design guidelines for human-computer interaction and virtual reality.
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    Load-balancing for scalable simulations with large particle numbers
    (2021) Hirschmann, Steffen; Pflüger, Dirk (Prof. Dr.)
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    Decentralized interference coordination for the downlink of fully loaded heterogeneous wireless networks
    (2019) Bleicher, Zarah M. L.; Speidel, Joachim (Prof. Dr.-Ing.)
    The relentless evolution towards an overwhelming increase of mobile data traffic, where mobile phone subscribers demand the highest data rates and comprehensive coverage presents current and future mobile communication networks with demanding requirements. Previous homogeneous networks were mostly designed to optimize the sum capacity and peak data rates rather than take the individual user experience into account, and therefore failed to meet these requirements. Multi-layer networks, also known as heterogeneous networks, can improve the coverage and capacity of the cellular network and bring the network closer to the user. Moreover, the introduction of the smaller cells into the macro cellular network can improve the performance, especially in hotspots and indoors, which results in a better user experience. Frequency spectrum is rare and valuable, thus solely adding further bandwidth does not meet the demand. However, when reusing the bandwidth, inter-cell interference from neighboring cells leads to performance degradations, in particular for users located at the cell edges. Within a multi-layer network, additional and even more dynamic interference is present, caused by different kinds of cells, like macro-, pico-, femtocells, and relays. Therefore, addressing the interference issue is essential. This thesis examines suitable interference coordination algorithms and introduces an advanced interference coordination technique for heterogeneous networks. Whereas current techniques require significant communication between base stations, reduce the available bandwidth notably or do not consider interference between the small cells, the advanced technique is located in the small cells with only marginal information exchange. Its performance is investigated by means of computer simulations for fully loaded heterogeneous networks on the system layer. As a result, the proposed technique reduces the impact on the surrounding cells significantly, making in-home communication services attractive, leading to a tremendous advantage for service providers as well as the end-user.
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    Drahtloses Kommunikationssystem für biegsame Sensor-Folien
    (2019) Briem, Jochen; Berroth, Manfred (Prof. Dr.-Ing.)
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    Mining software repositories for coupled changes
    (2017) Ramadani, Jasmin; Wagner, Stefan (Prof. Dr.)
    Software-Repositories enthalten Informationen über den Entwicklungsverlauf eines Softwaresystems, die von den Entwicklern bei Wartungsarbeiten genutzt werden können. Dazu gehören Daten im Versionsverwaltungssystem, im Issue-Tracking-System und in den Dokumentationsarchiven. Eine der meistverwendeten Techniken zur Analyse von Software-Repositories ist Data Mining, wobei die Frequent-Itemsets-Analyse häufig verwendet wird, um Gruppen von Dateien zu definieren, die in der Vergangenheit häufig zusammen geändert wurden. Diese Dateigruppen definieren wir als gekoppelte Dateien oder Coupled Files. Die meisten Studien über gekoppelte Dateiänderungen in Software-Repositories beziehen Git Versioning-Systeme nicht mit ein. Auch wird darin das Feedback der Entwickler bezüglich der Nützlichkeit der gekoppelten Dateiänderungen und deren Einfluss auf die Wartungsaufgaben nicht berücksichtigt. Das Hauptziel der vorliegenden Untersuchung besteht darin, Entwickler bei ihren Wartungsaufgaben zu unterstützen, und zwar in Form von Vorschlägen für mögliche Dateiänderungen, die auf früheren Änderungen im Git-Versionsverlauf der Software basieren. Wir untersuchten die Extraktion gekoppelter Dateiänderungen durch Data Mining mit Git und analysierten die Rückmeldung von Entwicklern bezüglich der Interessantheit und Nützlichkeit der Vorschläge für gekoppelte Dateiänderungen sowie deren Einfluss auf die Wartungsarbeiten. Anhand einer Fallstudie in der Industrie extrahierten wir gekoppelte Dateiänderungen aus drei Git-Repositories. Basierend auf der in dieser Fallstudie untersuchten Interessantheit und den Erkenntnissen aus einer Reihe empirischer Studien zu Wartungsarbeiten stellten wir eine Theorie auf über die Verwendung von Vorschlägen für gekoppelte Dateiänderungen bei Wartungsarbeiten. Diese Theorie wurde in folgenden Studien getestet: (1) Wir führten ein kontrolliertes Experiment durch, in dem wir Heuristiken zum Gruppieren verwandter Änderungssätze in Git untersuchten, aus denen wir relevante gekoppelte Dateiänderungen extrahierten. (2) In einem Quasi-Experiment untersuchten wir die Nützlichkeit gekoppelter Dateiänderungsvorschläge und deren Auswirkung auf die Korrektheit der Lösung sowie den Zeitaufwand für die Bearbeitung der Wartungsaufgaben. (3) In einer Explorationsstudie untersuchten wir, wie gekoppelte Dateiänderungsvorschläge die Strategie der Entwickler beeinflussen, mit der sie Wartungsarbeiten Hilfe suchen. In einer Explorationsstudie erweiterten wir das Konzept gekoppelter Dateiänderungen auf Paketebene und ermittelten verschiedene Stufen von Entwickler-Kompetenz anhand der von den Entwicklern bearbeiteten Systempakete. Wir entwickelten ein Werkzeug auf Eclipse-Basis, das gekoppelte Dateiänderungsvorschläge extrahiert, visualisiert und Entwicklern bei Wartungsaufgaben zur Verfügung stellt. Wir haben Heuristiken definiert um verwandte Änderungen in Git zu gruppieren. Mit der Frequent-Itemsets-Analyse gelang uns die Extraktion relativer häufiger gekoppelter Dateiänderungen aus Git. Die an der Fallstudie zur Interessantheit gekoppelter Dateien beteiligten Entwickler zeigten sich interessiert an dieser Art von Hilfe während der Wartungsarbeiten. Das Experiment zur Nützlichkeit von gekoppelten Dateiänderungsvorschlägen ergab, dass die Entwickler, die die Vorschläge nutzten, ihre Aufgaben erfolgreicher bewältigten als diejenigen, die es nicht taten. Die Ergebnisse der Explorationsstudie zur Inanspruchnahme von Hilfe bei Wartungsaufgaben zeigen, dass gekoppelte Dateiänderungsvorschläge auch den Bedarf an für die Wartungsaufgaben relevanten externen Informationsquellen reduzieren und so den Wartungsprozess kompakter machen. Zudem wurde das Konzept der gekoppelten Dateiänderungen erfolgreich eingesetzt, um Kompetenzprofile mit unterschiedlichen Spezialisierungen zu erstellen, die auf den Änderungen in den gekoppelten Systempaketen basieren. Die Rückmeldungen der Entwickler zu dem Verfahren der gekoppelten Dateiänderungsvorschläge wurden als positiv identifiziert. Unsere Theorie über den Einsatz gekoppelter Dateiänderungsvorschläge bei Wartungsaufgaben wurde erfolgreich getestet. Mit den vorgeschlagenen Heuristiken ermittelten wir, dass die Gruppierung der Änderungssätze in Git ihre Relevanz beeinflusst. Die Rückmeldungen der Entwickler zeigten, dass das Format und der Kontext gekoppelter Dateiänderungsvorschläge sich auf deren Nützlichkeit auswirken. Die Ergebnisse zeigen auch, dass gekoppelte Dateiänderungsvorschläge die Bearbeitung der Wartungsaufgaben und die Strategien zum Suchen nach Hilfe positiv beeinflussen. Die weitere Analyse von Kopplungen zwischen Teilen des Quellcodes anhand großer Datensätze ermöglicht es, die Auswirkungen gekoppelter Dateiänderungen auf die Wartung und die Qualität von Software besser zu verstehen.