TY - THES A1 - Hopfner, Marbod T1 - Source Code Analysis, Management, and Visualization for PROLOG T1 - Quelltextanalyse, Verwaltung und Visualisierung für Prolog N2 - This thesis deals with the management and analysis of source code, which is represented in XML. Using the elementary methods of the XML repository, the XML source code representation is accessed, changed, updated, and saved. We reason about the source code, refactor source code and we visualize dependency graphs for call analysis. The visualized dependencies between files, modules, or packages are used to structure the source code in order to get a system, which is easily to comprehend, to modify and to complete. Sophisticated methods have been developed to slice the source code in order to obtain a working package of a large system, containing only a specific functionality. The basic methods, on which the visualizations and analyses are built on can be changed like changing a plug-in. The visualization methods can be reused in order to handle arbitrary source code representations, e.g., JAML, PHPML, PROLOGML. Dependencies of other context can be visualized, too, e.g., ER diagrams, or website references. The tool SCAV supports source code visualization and analyzing methods. N2 - Diese Dissertation beschäftigt sich mit der Verwaltung und Analyse von Quellcode, der in XML repräsentiert ist. Es werden Abhängigkeitsgraphen visualisiert um ein Projekt leichter verstehen zu können. Es kann auch ein Slice einer bestimmten Methode aus dem Projekt erstellt werden. Die Programmierung ist in Modulen gemacht, so dass die Funktionalität leicht erweitert werden kann. KW - Refactoring KW - Software Engineering KW - Refactoring KW - Call Graph KW - Dependency Graph KW - Abhängigskeitsgraph KW - Software Engineering KW - Source Code Visualization KW - Refactoring KW - Call Graph KW - Dependency Graph KW - Abhängigskeitsgraph KW - Software Engineering KW - Source Code Visualization Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-36300 ER - TY - THES A1 - Feineis, Markus T1 - Wortgenaue Annotation digitalisierter mittelalterlicher Handschriften T1 - One-to-one Annotation of Digitised Medieval Manuscripts N2 - No abstract available KW - Annotation KW - Handschrift KW - Digitalisierung Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-30448 ER - TY - THES A1 - Mäder, Andreas T1 - Performance Models for UMTS 3.5G Mobile Wireless Systems T1 - Leistungsmodelle für UMTS 3.5G Mobilfunksysteme N2 - Mobile telecommunication systems of the 3.5th generation (3.5G) constitute a first step towards the requirements of an all-IP world. As the denotation suggests, 3.5G systems are not completely new designed from scratch. Instead, they are evolved from existing 3G systems like UMTS or cdma2000. 3.5G systems are primarily designed and optimized for packet-switched best-effort traffic, but they are also intended to increase system capacity by exploiting available radio resources more efficiently. Systems based on cdma2000 are enhanced with 1xEV-DO (EV-DO: evolution, data-optimized). In the UMTS domain, the 3G partnership project (3GPP) specified the High Speed Packet Access (HSPA) family, consisting of High Speed Downlink Packet Access (HSDPA) and its counterpart High Speed Uplink Packet Access (HSUPA) or Enhanced Uplink. The focus of this monograph is on HSPA systems, although the operation principles of other 3.5G systems are similar. One of the main contributions of our work are performance models which allow a holistic view on the system. The models consider user traffic on flow-level, such that only on significant changes of the system state a recalculation of parameters like bandwidth is necessary. The impact of lower layers is captured by stochastic models. This approach combines accurate modeling and the ability to cope with computational complexity. Adopting this approach to HSDPA, we develop a new physical layer abstraction model that takes radio resources, scheduling discipline, radio propagation and mobile device capabilities into account. Together with models for the calculation of network-wide interference and transmit powers, a discrete-event simulation and an analytical model based on a queuing-theoretical approach are proposed. For the Enhanced Uplink, we develop analytical models considering independent and correlated other-cell interference. N2 - Die vorliegende Arbeit beschäftigt sich mit Mobilfunksystemen der Generation 3.5 im Allgemeinen, und mit den UMTS-spezifischen Ausprägungen HSDPA (High Speed Downlink Packet Access) und HSUPA (High Speed Uplink Packet Access) bzw. Enhanced Uplink im speziellen. Es werden integrierte Systeme betrachtet, d.h. 3.5G Datenkanäle koexistieren mit "klassischen" UMTS Datenkanälen wie in den Spezifikationen von UMTS Release ´99 beschrieben. T3 - Würzburger Beiträge zur Leistungsbewertung Verteilter Systeme - 02/08 KW - Mobilfunk KW - Leistungsbewertung KW - UMTS KW - HSPA KW - Funkressourcenverwaltung KW - Modellierungstechniken KW - Netzwerkplanung KW - UMTS KW - HSPA KW - radio resource management KW - modeling techniques KW - network planning Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-32525 ER - TY - THES A1 - Tischler, German T1 - Theory and Applications of Parametric Weighted Finite Automata T1 - Theorie und Anwendungen parametrisch gewichteter endlicher Automaten N2 - Parametric weighted finite automata (PWFA) are a multi-dimensional generalization of weighted finite automata. The expressiveness of PWFA contains the expressiveness of weighted finite automata as well as the expressiveness of affine iterated function system. The thesis discusses theory and applications of PWFA. The properties of PWFA definable sets are studied and it is shown that some fractal generator systems can be simulated using PWFA and that various real and complex functions can be represented by PWFA. Furthermore, the decoding of PWFA and the interpretation of PWFA definable sets is discussed. N2 - Parametrisch gewichtete endliche Automaten (PWFA) sind eine multidimensionale Verallgemeinerung gewichteter endlicher Automaten, die sowohl die funktionale Mächtigkeit gewichteter endlicher Automaten als auch die affiner iterierter Funktionensystem umschließt. Die Arbeit diskutiert die Theorie und Anwendungen von PWFA. Es werden Eigenschaften der von PWFA definierbaren Mengen untersucht, gezeigt dass verschiedene fraktale Generatorsysteme mit PWFA simuliert werden können und dass viele praxisrelevante reelle und komplexe Funktionen und Relationen mit PWFA darstellbar sind. Ferner wird die Dekodierung von PWFA und die Interpretation PWFA-darstellbarer Mengen diskutiert. KW - Automat KW - Automata Theory Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-28145 ER - TY - THES A1 - Martin, Rüdiger T1 - Resilience, Provisioning, and Control for the Network of the Future T1 - Ausfallsicherheit, Dimensionierungsansätze und Kontrollmechanismen für das Netz der Zukunft N2 - The Internet sees an ongoing transformation process from a single best-effort service network into a multi-service network. In addition to traditional applications like e-mail,WWW-traffic, or file transfer, future generation networks (FGNs) will carry services with real-time constraints and stringent availability and reliability requirements like Voice over IP (VoIP), video conferencing, virtual private networks (VPNs) for finance, other real-time business applications, tele-medicine, or tele-robotics. Hence, quality of service (QoS) guarantees and resilience to failures are crucial characteristics of an FGN architecture. At the same time, network operations must be efficient. This necessitates sophisticated mechanisms for the provisioning and the control of future communication infrastructures. In this work we investigate such echanisms for resilient FGNs. There are many aspects of the provisioning and control of resilient FGNs such as traffic matrix estimation, traffic characterization, traffic forecasting, mechanisms for QoS enforcement also during failure cases, resilient routing, or calability concerns for future routing and addressing mechanisms. In this work we focus on three important aspects for which performance analysis can deliver substantial insights: load balancing for multipath Internet routing, fast resilience concepts, and advanced dimensioning techniques for resilient networks. Routing in modern communication networks is often based on multipath structures, e.g., equal-cost multipath routing (ECMP) in IP networks, to facilitate traffic engineering and resiliency. When multipath routing is applied, load balancing algorithms distribute the traffic over available paths towards the destination according to pre-configured distribution values. State-of-the-art load balancing algorithms operate either on the packet or the flow level. Packet level mechanisms achieve highly accurate traffic distributions, but are known to have negative effects on the performance of transport protocols and should not be applied. Flow level mechanisms avoid performance degradations, but at the expense of reduced accuracy. These inaccuracies may have unpredictable effects on link capacity requirements and complicate resource management. Thus, it is important to exactly understand the accuracy and dynamics of load balancing algorithms in order to be able to exercise better network control. Knowing about their weaknesses, it is also important to look for alternatives and to assess their applicability in different networking scenarios. This is the first aspect of this work. Component failures are inevitable during the operation of communication networks and lead to routing disruptions if no special precautions are taken. In case of a failure, the robust shortest-path routing of the Internet reconverges after some time to a state where all nodes are again reachable – provided physical connectivity still exists. But stringent availability and reliability criteria of new services make a fast reaction to failures obligatory for resilient FGNs. This led to the development of fast reroute (FRR) concepts for MPLS and IP routing. The operations of MPLS-FRR have already been standardized. Still, the standards leave some degrees of freedom for the resilient path layout and it is important to understand the tradeoffs between different options for the path layout to efficiently provision resilient FGNs. In contrast, the standardization for IP-FRR is an ongoing process. The applicability and possible combinations of different concepts still are open issues. IP-FRR also facilitates a comprehensive resilience framework for IP routing covering all steps of the failure recovery cycle. These points constitute another aspect of this work. Finally, communication networks are usually over-provisioned, i.e., they have much more capacity installed than actually required during normal operation. This is a precaution for various challenges such as network element failures. An alternative to this capacity overprovisioning (CO) approach is admission control (AC). AC blocks new flows in case of imminent overload due to unanticipated events to protect the QoS for already admitted flows. On the one hand, CO is generally viewed as a simple mechanism, AC as a more complex mechanism that complicates the network control plane and raises interoperability issues. On the other hand, AC appears more cost-efficient than CO. To obtain advanced provisioning methods for resilient FGNs, it is important to find suitable models for irregular events, such as failures and different sources of overload, and to incorporate them into capacity dimensioning methods. This allows for a fair comparison between CO and AC in various situations and yields a better understanding of the strengths and weaknesses of both concepts. Such an advanced capacity dimensioning method for resilient FGNs represents the third aspect of this work. N2 - Das Internet befindet sich gegenwärtig in einem Transformationsprozess von einem Netz mit einer einzigen best-effort Dienstklasse hin zu einem Mehr-Dienste-Netz. Zusätzlich zu herkömmlichen Anwendungen wie E-Mail, WWW oder Datenübertragung werden zukünftige Netze Dienste mit Echtzeitbedürfnissen und strikten Anforderungen an Verfügbarkeit und Zuverlässigkeit wie Voice over IP (VoIP), Videokonferenzdienste, Virtual Private Networks (VPNs) für Finanzanwendungen und andere Geschäftsanwendungen mit Echtzeitanforderungen, Tele-Medizin oder Telerobotik tragen. Daher sind die Gewährleistung von Dienstgüte und Ausfallsicherheit wesentliche Merkmale zukünftiger Netzarchitekturen. Gleichzeitig muss der Netzbetrieb effizient sein. Dies zieht den Bedarf an ausgefeilten Mechanismen für die Dimensionierung und Kontrolle ausfallsicherer Kommunikationsstrukturen nach sich. In dieser Arbeit werden solche Mechanismen, nämlich Lastaufteilung, Konzepte zur schnellen Reaktion im Fehlerfall und intelligente Ansätze zur Netzdimensionierung, untersucht. T3 - Würzburger Beiträge zur Leistungsbewertung Verteilter Systeme - 03/08 KW - Backbone-Netz KW - load balancing KW - resilience KW - fast reroute KW - admission control KW - overprovisioning Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-28497 ER - TY - THES A1 - Driewer, Frauke T1 - Teleoperation Interfaces in Human-Robot Teams T1 - Benutzerschnittstellen für Teleoperation in Mensch-Roboter Teams N2 - Diese Arbeit beschäftigt sich mit der Verbesserung von Mensch-Roboter Interaktion in Mensch-Roboter Teams für Teleoperation Szenarien, wie z.B. robotergestützte Feuerwehreinsätze. Hierbei wird ein Konzept und eine Architektur für ein System zur Unterstützung von Teleoperation von Mensch-Roboter Teams vorgestellt. Die Anforderungen an Informationsaustausch und -verarbeitung, insbesondere für die Anwendung Rettungseinsatz, werden ausgearbeitet. Weiterhin wird das Design der Benutzerschnittstellen für Mensch-Roboter Teams dargestellt und Prinzipien für Teleoperation-Systeme und Benutzerschnittstellen erarbeitet. Alle Studien und Ansätze werden in einem Prototypen-System implementiert und in verschiedenen Benutzertests abgesichert. Erweiterungsmöglichkeiten zum Einbinden von 3D Sensordaten und die Darstellung auf Stereovisualisierungssystemen werden gezeigt. N2 - This work deals with teams in teleoperation scenarios, where one human team partner (supervisor) guides and controls multiple remote entities (either robotic or human) and coordinates their tasks. Such a team needs an appropriate infrastructure for sharing information and commands. The robots need to have a level of autonomy, which matches the assigned task. The humans in the team have to be provided with autonomous support, e.g. for information integration. Design and capabilities of the human-robot interfaces will strongly influence the performance of the team as well as the subjective feeling of the human team partners. Here, it is important to elaborate the information demand as well as how information is presented. Such human-robot systems need to allow the supervisor to gain an understanding of what is going on in the remote environment (situation awareness) by providing the necessary information. This includes achieving fast assessment of the robot´s or remote human´s state. Processing, integration and organization of data as well as suitable autonomous functions support decision making and task allocation and help to decrease the workload in this multi-entity teleoperation task. Interaction between humans and robots is improved by a common world model and a responsive system and robots. The remote human profits from a simplified user interface providing exactly the information needed for the actual task at hand. The topic of this thesis is the investigation of such teleoperation interfaces in human-robot teams, especially for high-risk, time-critical, and dangerous tasks. The aim is to provide a suitable human-robot team structure as well as analyze the demands on the user interfaces. On one side, it will be looked on the theoretical background (model, interactions, and information demand). On the other side, real implementations for system, robots, and user interfaces are presented and evaluated as testbeds for the claimed requirements. Rescue operations, more precisely fire-fighting, was chosen as an exemplary application scenario for this work. The challenges in such scenarios are high (highly dynamic environments, high risk, time criticality etc.) and it can be expected that results can be transferred to other applications, which have less strict requirements. The present work contributes to the introduction of human-robot teams in task-oriented scenarios, such as working in high risk domains, e.g. fire-fighting. It covers the theoretical background of the required system, the analysis of related human factors concepts, as well as discussions on implementation. An emphasis is placed on user interfaces, their design, requirements and user testing, as well as on the used techniques (three-dimensional sensor data representation, mixed reality, and user interface design guidelines). Further, the potential integration of 3D sensor data as well as the visualization on stereo visualization systems is introduced. T3 - Forschungsberichte in der Robotik = Research Notes in Robotics - 1 KW - Robotik KW - Mobiler Roboter KW - Autonomer Roboter KW - Mensch-Maschine-System KW - Mensch-Maschine-Schnittstelle KW - Mixed Reality KW - Mensch-Roboter-Interaktion KW - Situationsbewusstsein KW - Teleoperation KW - Benutzerschnittstelle KW - Rettungsroboter KW - Human-Robot-Interaction KW - Situation Awareness KW - Teleoperation KW - User Interface KW - Search-and-Rescue Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-36351 SN - 978-3-923959-57-0 N1 - Zugl. gedruckte Ausgabe: ISBN: 978-3-923959-54-9 (Paper) ER -