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The present thesis deals with the realization of a stepper motor driver on an 8-bit microcontroller by the company Atmel. The focus is on the devel- opment of a current control, which allows microstepping in addition to the basic modes of operation like full- and halfstep. For this purpose, a PI con- troller is derived using physical and control engineering principles, which is implemented on the microcontroller. In this context, essential knowledge for the practical implementation will be discussed. In addition, the development of the hardware is documented, which is of great significance for the current measurement.
In this work, some network protocols with Wireshark Protokollanalyser should be observed and described the deal with them. Wireshark is an offshoot of "Ethereal", one of the most popular protocol analyzer. Wireshark analysis network traffic, draws on it and make it clear . For the simulation of the network is used VNUML. Since VNUML can only be used under Linux, andLinux is running as a virtual machine in between to work in Windows to be able to.
In diesem Bericht wird der Einsatz von drahtlosen Sensornetzen zur Temperaturmessung in Fließgewässern untersucht. Es wird dargestellt, inwieweit solche Netze als Bindeglied zwischen Fernerkundung und stationären Sensoren eingesetzt werden können. Es werden die Anforderungen an Sensornetze für die Anwendung Gewässermonitoring ermittelt und eine prototypische Realisierung von Netzknoten für ein solches Sensornetz dargestellt. Als Ergebnis dieser Arbeit werden die Genauigkeit von Temperaturmessungen mit solchen Sensorknoten im Vergleich zu einem Temperaturlogger als Referenzsystem dargestellt. Die Messungen zeigen, dass eine vergleichsweise gute Messgenauigkeit zu geringen Kosten erreichbar ist. Durch Weiterentwicklung des hier dargestellten Prototypen steht für die Temperaturüberwachung in Gewässern ein vielversprechendes und kostengünstiges neues Messinstrument zur Verfügung. Dieses kann auf der einen Seite in tieferen Regionen Gewässertemperaturen messen, als dies mit Fernerkundung möglich ist, und auf der anderen Seite eine höhere räumliche Auflösung als stationäre Messstationen erreichen. Zusätzlich dienen die Literaturrecherche und die Formulierung der Kriterien einer Eingrenzung des Anwendungsbereichs für weiterführende Arbeiten.
Die Forschung im Bereich der modellbasierten Objekterkennung und Objektlokalisierung hat eine vielversprechende Zukunft, insbesondere die Gebäudeerkennung bietet vielfaltige Anwendungsmöglichkeiten. Die Bestimmung der Position und der Orientierung des Beobachters relativ zu einem Gebäude ist ein zentraler Bestandteil der Gebäudeerkennung.
Kern dieser Arbeit ist es, ein System zur modellbasierten Poseschätzung zu entwickeln, das unabhängig von der Anwendungsdomäne agiert. Als Anwendungsdomäne wird die modellbasierte Poseschätzung bei Gebäudeaufnahmen gewählt. Vorbereitend für die Poseschätzung bei Gebäudeaufnahmen wird die modellbasierte Erkennung von Dominosteinen und Pokerkarten realisiert. Eine anwendungsunabhängige Kontrollstrategie interpretiert anwendungsspezifische Modelle, um diese im Bild sowohl zu lokalisieren als auch die Pose mit Hilfe dieser Modelle zu bestimmen. Es wird explizit repräsentiertes Modellwissen verwendet, sodass Modellbestandteilen Bildmerkmale zugeordnet werden können. Diese Korrespondenzen ermöglichen die Kamerapose aus einer monokularen Aufnahme zurückzugewinnen. Das Verfahren ist unabhängig vom Anwendungsfall und kann auch mit Modellen anderer rigider Objekte umgehen, falls diese der definierten Modellrepräsentation entsprechen. Die Bestimmung der Pose eines Modells aus einem einzigen Bild, das Störungen und Verdeckungen aufweisen kann, erfordert einen systematischen Vergleich des Modells mit Bilddaten. Quantitative und qualitative Evaluationen belegen die Genauigkeit der bestimmten Gebäudeposen.
In dieser Arbeit wird zudem ein halbautomatisches Verfahren zur Generierung eines Gebäudemodells vorgestellt. Das verwendete Gebäudemodell, das sowohl semantisches als auch geometrisches Wissen beinhaltet, den Aufgaben der Objekterkennung und Poseschätzung genügt und sich dennoch an den bestehenden Normen orientiert, ist Voraussetzung für das Poseschätzverfahren. Leitgedanke der Repräsentationsform des Modells ist, dass sie für Menschen interpretierbar bleibt. Es wurde ein halbautomatischer Ansatz gewählt, da die automatische Umsetzung dieses Verfahrens schwer die nötige Präzision erzielen kann. Das entwickelte Verfahren erreicht zum einen die nötige Präzision zur Poseschätzung und reduziert zum anderen die Nutzerinteraktionen auf ein Minimum. Eine qualitative Evaluation belegt die erzielte Präzision bei der Generierung des Gebäudemodells.
Performanz von RIP-MTIfi
(2009)
Diese Diplomarbeit beschäftigt sich mit der Performanz von RIP-MTI, insbesondere mit der Performanz der Schleifenerkennung. Ziel der Arbeit ist es, die Zeitdauer der Schleifenerkennung von RIP-MTI zu untersuchen und Probleme, welche bei der Erkennung von Schleifen auftreten könen, aufzudecken und zu lösen.
Generalized methods for automated theorem proving can be used to compute formula transformations such as projection elimination and knowledge compilation. We present a framework based on clausal tableaux suited for such tasks. These tableaux are characterized independently of particular construction methods, but important features of empirically successful methods are taken into account, especially dependency directed backjumping and branch local operation. As an instance of that framework an adaption of DPLL is described. We show that knowledge compilation methods can be essentially improved by weaving projection elimination partially into the compilation phase.
Die Motivation für diese Arbeit bestand darin, den Studierenden in den Rechnerpools der Universität Koblenz die Möglichkeit zu geben, mit der Simulationssoftware VNUML (Virtual Network User Mode Linux) zu arbeiten. Eingesetzt wird diese Software in den Vorlesungen und Übungen zu Rechnernetzen I und II, was eine Anwendung der Software für die Studenten unumgänglich macht. In der Vergangenheit gab es jedoch immer wieder Probleme bei der Installation und Einrichtung auf den privaten Rechnern, obwohl in früheren Studienarbeiten mehrfach vereinfachte Installationsroutinen entwickelt worden waren. Ein weiteres Problem für die Verwendung von VNUML stellt auch die Tatsache dar, dass die Software nur in einer Linux-Umgebung lauffähig ist. Da aber nicht alle Studierenden das Betriebssystem Linux benutzen und viele vor einer Installation allein zur Verwendung von VNUML zurückschrecken, war es schon länger angedacht, diese Software an den Rechnern der Universität zur Verfügung zu stellen. In dieser Arbeit wird der Prozess beschrieben, wie eine Installation der VNUML-Software in den Rechnerpools möglich war, welche Probleme dabei aufgetreten sind und welche Alternativen zur gewählten Vorgehensweise möglich gewesen wären. Das Ergebnis bietet auch eine sehr einfache Installation für den privaten Anwender, ohne dass hierfür eine eigenständige Linux-Installation nötig wäre. Auch wurden während der Entwicklung immer weitere Verbesserungen vorgenommen, welche die Anwenderfreundlichkeit der endgültigen Lösung weiter erhöhten. Die Möglichkeiten und Ideen sind dabei auch so vielfältig, dass sich die Arbeitsgruppe noch weiter mit diesem Thema beschäftigen wird und weitere Optimierungen vorgenommen werden können.
Ziel dieser Arbeit war es, den in [Rhe06] dargestellten operationalen Ansatz zur Modelltransformation mit Hilfe der am Institut für Softwaretechnik der Universität Koblenz-Landau vorhandenen Bibliotheken "JGraLab" und "GReQL" in Java zu implementieren. Die Implementierung sollte beweisen, dass der aufgezeigte Transformationsansatz in der Praxis umsetzbar ist. Dies wurde durch verschiedene Beispiele bewiesen. Die geplante Verwendung in weiteren Projekten des IST wird für die Zukunft zeigen, ob sich weitere Transformationen umsetzten lassen oder wo die Grenzen des Ansatzes sind. Des weiteren ist denkbar, die Transformationen nicht mehr in zwei Schritten (Schematransformation vor Graphtransformation), sondern beide Schritte auf einmal ablaufen zu lassen. Dieser Schritt setzt jedoch voraus, dass JGraLab dies ebenfalls unterstützt.
Problems in the analysis of requirements often lead to failures when developing software systems. This problem is nowadays being faced by requirements engineering. The early involvement of all kinds of stakeholders in the development of such a system and a structured process to elicitate and analyse requirements have made it a crucial factor as a first step in software development. The increasing complexity of modern softwaresystems though leads to a rising amount of information which has to be dealt with during analysis. Without the support of appropriate tools this would be almost impossible to do. Especially in bigger projects, which tend to be spatially distributed, an effective requirements engineering could not be implemented without this kind of support. Today there is a wide range of tools dealing with this matter. They have been in use since some time now and, in their most recent versions, realize the most important aspects of requirements engineering. Within the scope of this thesis some of these tools will be analysed, focussing on both the major functionalities concerning the management of requirements and the repository of these tools. The results of this analyis will be integrated into a reference model.
Model-Driven Engineering (MDE) aims to raise the level of abstraction in software system specifications and increase automation in software development. Modelware technological spaces contain the languages and tools for MDE that software developers take into consideration to model systems and domains. Ontoware technological spaces contain ontology languages and technologies to design, query, and reason on knowledge. With the advent of the Semantic Web, ontologies are now being used within the field of software development, as well. In this thesis, bridging technologies are developed to combine two technological spaces in general. Transformation bridges translate models between spaces, mapping bridges relate different models between two spaces, and, integration bridges merge spaces to new all-embracing technological spaces. API bridges establish interoperability between the tools used in the space. In particular, this thesis focuses on the combination of modelware and ontoware technological spaces. Subsequent to a sound comparison of languages and tools in both spaces, the integration bridge is used to build a common technological space, which allows for the hybrid use of languages and the interoperable use of tools. The new space allows for language and domain engineering. Ontology-based software languages may be designed in the new space where syntax and formal semantics are defined with the support of ontology languages, and the correctness of language models is ensured by the use of ontology reasoning technologies. These languages represent a core means for exploiting expressive ontology reasoning in the software modeling domain, while remaining flexible enough to accommodate varying needs of software modelers. Application domains are conceptually described by languages that allow for defining domain instances and types within one domain model. Integrated ontology languages may provide formal semantics for domain-specific languages and ontology technologies allow for reasoning over types and instances in domain models. A scenario in which configurations for network device families are modeled illustrates the approaches discussed in this thesis. Furthermore, the implementation of all bridging technologies for the combination of technological spaces and all tools for ontology-based language engineering and use is illustrated.
Towards Improving the Understanding of Image Semantics by Gaze-based Tag-to-Region Assignments
(2011)
Eye-trackers have been used in the past to identify visual foci in images, find task-related image regions, or localize affective regions in images. However, they have not been used for identifying specific objects in images. In this paper, we investigate whether it is possible to assign image regions showing specific objects with tags describing these objects by analyzing the users' gaze paths. To this end, we have conducted an experiment with 20 subjects viewing 50 image-tag-pairs each. We have compared the tag-to-region assignments for nine existing and four new fixation measures. In addition, we have investigated the impact of extending region boundaries, weighting small image regions, and the number of subjects viewing the images. The paper shows that a tag-to-region assignment with an accuracy of 67% can be achieved by using gaze information. In addition, we show that multiple regions on the same image can be differentiated with an accuracy of 38%.
Traditional Driver Assistance Systems (DAS) like for example Lane Departure Warning Systems or the well-known Electronic Stability Program have in common that their system and software architecture is static. This means that neither the number and topology of Electronic Control Units (ECUs) nor the presence and functionality of software modules changes after the vehicles leave the factory.
However, some future DAS do face changes at runtime. This is true for example for truck and trailer DAS as their hardware components and software entities are spread over both parts of the combination. These new requirements cannot be faced by state-of-the-art approaches of automotive software systems. Instead, a different technique of designing such Distributed Driver Assistance Systems (DDAS) needs to be developed. The main contribution of this thesis is the development of a novel software and system architecture for dynamically changing DAS using the example of driving assistance for truck and trailer. This architecture has to be able to autonomously detect and handle changes within the topology. In order to do so, the system decides which degree of assistance and which types of HMI can be offered every time a trailer is connected or disconnected. Therefore an analysis of the available software and hardware components as well as a determination of possible assistance functionality and a re-configuration of the system take place. Such adaptation can be granted by the principles of Service-oriented Architecture (SOA). In this architectural style all functionality is encapsulated in self-contained units, so-called Services. These Services offer the functionality through well-defined interfaces whose behavior is described in contracts. Using these Services, large-scale applications can be built and adapted at runtime. This thesis describes the research conducted in achieving the goals described by introducing Service-oriented Architectures into the automotive domain. SOA deals with the high degree of distribution, the demand for re-usability and the heterogeneity of the needed components.
It also applies automatic re-configuration in the event of a system change. Instead of adapting one of the frameworks available to this scenario, the main principles of Service-orientation are picked up and tailored. This leads to the development of the Service-oriented Driver Assistance (SODA) framework, which implements the benefits of Service-orientation while ensuring compatibility and compliance to automotive requirements, best-practices and standards. Within this thesis several state-of-the-art Service-oriented frameworks are analyzed and compared. Furthermore, the SODA framework as well as all its different aspects regarding the automotive software domain are described in detail. These aspects include a well-defined reference model that introduces and relates terms and concepts and defines an architectural blueprint. Furthermore, some of the modules of this blueprint such as the re-configuration module and the Communication Model are presented in full detail. In order to prove the compliance of the framework regarding state-of-the-art automotive software systems, a development process respecting today's best practices in automotive design procedures as well as the integration of SODA into the AUTOSAR standard are discussed. Finally, the SODA framework is used to build a full-scale demonstrator in order to evaluate its performance and efficiency.
Eine systematische Literaturstudie zu beaconless Algorithmen für drahtlose Ad-hoc- und Sensornetze
(2014)
Wireless sensor networks (WSN) are computer networks consisting of sensor nodes.In position-based protocols nodes broadcast messages containing their position information periodically. These messages are called beacons. The use of beacons however has downsides, which led to the emerging of beaconless algorithms. Despite their importance in the research area of computer networks and to the best of our knowledge, beaconless algorithms have not been systematically surveyed.
The aim of this work is a comprehensive, systematic review of beaconless algorithms since the turn of the millennium. Relevant articles are categorized based on their similarities and their differences are compared. Thus, this work serves as a reference to the current state of research of beaconless algorithms and as a basis for finding research gaps.
The term “Software Chrestomaty” is defined as a collection of software systems meant to be useful in learning about or gaining insight into software languages, software technologies, software concepts, programming, and software engineering. 101companies software chrestomathy is a community project with the attributes of a Research 2.0 infrastructure for various stakeholders in software languages and technology communities. The core of 101companies combines a semantic wiki and confederated open source repositories. We designed and developed an integrated ontology-based knowledge base about software languages and technologies. The knowledge is created by the community of contributors and supported with a running example and structured documentation. The complete ecosystem is exposed by using Linked Data principles and equipped with the additional metadata about individual artifacts. Within the context of software chrestomathy we explored a new type of software architecture – linguistic architecture that is targeted on the language and technology relationships within a software product and based on the megamodels. Our approach to documentation of the software systems is highly structured and makes use of the concepts of the newly developed megamodeling language MegaL. We “connect” an emerging ontology with the megamodeling artifacts to raise the cognitive value of the linguistic architecture.
Initial goal of the current dissertation was the determination of image-based biomarkers sensitive for neurodegenerative processes in the human brain. One such process is the demyelination of neural cells characteristic for Multiple sclerosis (MS) - the most common neurological disease in young adults for which there is no cure yet. Conventional MRI techniques are very effective in localizing areas of brain tissue damage and are thus a reliable tool for the initial MS diagnosis. However, a mismatch between the clinical fndings and the visualized areas of damage is observed, which renders the use of the standard MRI diffcult for the objective disease monitoring and therapy evaluation. To address this problem, a novel algorithm for the fast mapping of myelin water content using standard multiecho gradient echo acquisitions of the human brain is developed in the current work. The method extents a previously published approach for the simultaneous measurement of brain T1, T∗ 2 and total water content. Employing the multiexponential T∗ 2 decay signal of myelinated tissue, myelin water content is measured based on the quantifcation of two water pools (myelin water and rest) with different relaxation times. Whole brain in vivo myelin water content maps are acquired in 10 healthy controls and one subject with MS. The in vivo results obtained are consistent with previous reports. The acquired quantitative data have a high potential in the context of MS. However, the parameters estimated in a multiparametric acquisition are correlated and constitute therefore an ill-posed, nontrivial data analysis problem. Motivated by this specific problem, a new data clustering approach is developed called Nuclear Potential Clustering, NPC. It is suitable for the explorative analysis of arbitrary dimensional and possibly correlated data without a priori assumptions about its structure. The developed algorithm is based on a concept adapted from nuclear physics. To partition the data, the dynamic behavior of electrically even charged nucleons interacting in a d-dimensional feature space is modeled. An adaptive nuclear potential, comprised of a short-range attractive (Strong interaction) and a long-range repulsive term (Coulomb potential), is assigned to each data point. Thus, nucleons that are densely distributed in space fuse to build nuclei (clusters), whereas single point clusters are repelled (noise). The algorithm is optimized and tested in an extensive study with a series of synthetic datasets as well as the Iris data. The results show that it can robustly identify clusters even when complex configurations and noise are present. Finally, to address the initial goal, quantitative MRI data of 42 patients are analyzed employing NPC. A series of experiments with different sets of image-based features show a consistent grouping tendency: younger patients with low disease grade are recognized as cohesive clusters, while those of higher age and impairment are recognized as outliers. This allows for the definition of a reference region in a feature space associated with phenotypic data. Tracking of the individual's positions therein can disclose patients at risk and be employed for therapy evaluation.
Community-Plattformen im Internet verwenden codebasierte Governance, um ihre hohe Anzahl an Nutzerbeiträgen zu verwalten. Dazu gehören alle Arten von Funktionalitäten, mit denen die Community Nutzerbeiträge in irgendeiner Form direkt oder indirekt beurteilen kann. Diese Arbeit erklärt zunächst die Bedeutung codebasierter Governance und der verschiedenen dafür nutzbaren Funktionalitäten. Anschließend werden die erfolgreichsten 50 Community-Plattformen auf codebasierte Governance untersucht. Das Ergebnis zeigt die Zusammenhänge zwischen dem Aufbau einer Plattform, der Beschaσffenheit der Nutzerbeiträge und der darauf ausübbaren codebasierten Governance auf.
The aim of this work was to present the accident and traffic modeling of Oman (Muskat City) under theoretical assumptions by means of agent-based simulation. TRASS should be taken as the basis for the simulation environment. In addition, possible counter-measures should be proposed with regard to the high accident rate, which result from different simulation variants.
It was not part of this work whether the theoretical assumptions by the simulation should actually be applied and implemented in reality.
It was also necessary to check whether three different simulation variants could be represented differently by TRASS. The three variants were divided into simulation sequence with traffic light control, without traffic light control and finally with traffic light control, which however should be ignored with a probability of 70%. All three variants could produce different results. It has been shown that all three variants have advantages and disadvantages with respect to traffic flow and accident rate.
Not to be neglected is the fact that this work is modeled, analyzed and evaluated exclusively with TRASS framework. All potentials and deficits thus flow into the overall framework of this work. Therefore, after critical observation, this statement was viewed from a single angle only: the theoretical assumptions of Oman and the modeling limits of TRASS. In order to be able to make a promising statement about the actual implementation of the proposals, further comprehensive analyzes and simulations are necessary in a much wider range of variants of transport for Oman.
Die Arbeit beschäftigt sich mit der für Router und Kleingeräte entwickelten Linux-Distribution OpenWrt. Im ersten Teil der Arbeit wird die Erstellung von Softwarepaketen für OpenWrt erläutert und eine Anzeige- und Konfigurationskomponente für die Dateien des Quagga RIP-Daemons für die Benutzeroberfläche LuCI erstellt. Im zweiten Teil wird der Aufbau eines Testnetzwerkes mit OpenWrt Routern dokumentiert, sowie die Anbindung an VNUML-virtualisierte Netzwerke.
In dieser Arbeit wurden insgesamt fünf verwandte, aber variante Definitionen der Hermite-Normalform vorgestellt, angefangen bei der ursprünglichen Version von Charles Hermite. Anschließend wurden vier Basisalgorithmen zur Berechnung der Hermite-Normalform ganzzahliger Matrizen im Detail und anhand von vollständigen Beispielen präsentiert. Hierbei wurde vor allem Wert darauf gelegt, linear-algebraische Grundlagen wie beispielsweise die Verwendung von Permutationsmatrizen für unimodulare Spaltenoperationen verständlich zu vermitteln.