Kaiserslautern - Fachbereich Informatik
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In this paper we show how Metropolis Light Transport can be extended both in the underlying theoretical framework and the algorithmic implementation to incorporate volumetric scattering.
We present a generalization of the path integral formulation thathandles anisotropic scattering in non-homogeneous media. Based on this framework we introduce a new mutation strategy that is
specifically designed for participating media. It exploits the locality of light propagation by perturbing certain interaction points within the medium. To efficiently sample inhomogeneous media a new ray marching method has been developed that avoids aliasing artefacts and is significantly faster than stratified sampling. The resulting global illumination algorithm provides a physically correct simulation of light transport in the presence of participating media that includes effects such as volume caustics and multiple volume scattering. It is not restricted to certain classes of geometry and scattering models and has minimal memory requirements. Furthermore, it is unbiased and robust, in the sense that it produces satisfactory results for a wide range of input scenes and lighting situations within acceptable time bounds. In particular, we found that it is weil suited for complex scenes with many light sources.
For most applications the used transport service providers are predetermined during the development of the application. This makes it difficult to consider the application communication requirements and to exploit specific features of the network technology. Specialized protocols that are more efficient and offer a qualitative improved service are typically not supported by most applications because they are not commonly available. In this paper we propose a concept for the realization of protocol independent transport services. Only a transport service is predetermined during the development of the application and an appropriate transport service provider is dynamically selected at run time. This enables to exploit specialized protocols if possible, but standard protocols could still be used if necessary. The main focus of this paper is how a transport service could provide a new transport service provider transparently to existing applications. A prototype is presented that maps TCP/IP based applications to an ATM specific transport service provider which offers a reliable and unreliable transport service like TCP/IP.
The photon map provides a powerful tool for approximating the irradiance in global illumination computations independent from geometry. By presenting new importance sampling techniques, we dramatically improve the memory footprint of the photon map, simplify the caustic generation, and allow for a much faster sampling of direct illumination in complicated models as they arise in a production environment.
The quality of freeform surfaces is one of the major topics of CAD/CAM. Aesthetic and technical demands require the construction of high quality surfaces with strong shape conditions. Quality diminishing properties like dents or flat points have to be eliminated while approximation conditions must hold at the same time. Our approach combines quality and approximation criteria to a nonlinear multicriteria optimization problem and achieves an automatic approximation and fitting process.
Software development organizations are recognizing the increasing importance of investing in the build-up of core competencies for their competitiveness in software system development. This is supported by reuse and experience repository systems that assist in capturing and reusing all kinds of software artifacts (e. g., code, patterns, frameworks) and processes as well as experiences related to these artifacts and processes. To justify such an investment and guide its improvement, it must be evaluated according to the business case, that is, a measurement program has to be developed that is oriented towards the business goals of such a reuse and experience repository system. In this paper, we suggest an approach to iteratively build up measurement programs for gaining feedback and, thereby, controlling and improving such a reuse and experience repository system. The focus is placed on guidelines for the evolution of such measurement programs over time, rather than providing directly applicable metrics or questionnaires. In order to illustrate the feasibility of the approach, examples of running measurement programs at different stages of evolutions are given.
Comprehensive reuse and systematic evolution of reuse artifacts as proposed by the Quality Improvement Paradigm (QIP) do not only require tool support for mere storage and retrieval. Rather, an integrated management of (potentially reusable) experience data as well as project-related data is needed. This paper presents an approach exploiting object-relational database technology to implement QIP-driven reuse repositories. Requirements, concepts, and implementational aspects are discussed and illustrated through a running example, namely the reuse and continuous improvement of SDL patterns for developing distributed systems. Our system is designed to support all phases of a reuse process and the accompanying improvement cycle by providing adequate functionality. Its implementation is based on object-relational database technology along with an infrastructure well suited for these purposes.
Da gerade in der heutigen Zeit viele zusammenarbeitende Softwareentwickler benötigt werden, um immer komplexer werdende Applikationen zu entwerfen, geht der Trend mehr und mehr in die Richtung des räumlich getrennten Arbeitens. Begünstigt wird diese Entwicklung nicht zuletzt durch die Möglichkeiten der Kommunikation und des Datenaustauschs, die durch das Internet geboten werden. Auf dieser Basis sollen Werkzeuge konzipiert und entwickelt werden, die eine effiziente verteilte Softwareentwicklung ermöglichen. Die Nutzung des Internet zu diesem Zweck löst das Verbindungsproblem für sehr große Entfernungen, die Nutzung von Webservern und -browsern wird der Anforderung der Betriebssystemunabhängigkeit und der Realisierung der Verteiltheit im Sinne des Client/Server-Prinzips gerecht. Unter dem Oberbegriff "Software Configuration Management" versteht man die Menge aller Aufgaben, die bei der Produktverwaltung im Bereich der Softwareherstellung anfallen. In dieser Ausarbeitung sollen zunächst die Anforderungen an ein webbasiertes SCM-System formuliert, einige technische Möglichkeiten genannt und verschiedene existierende SCM-Produkte, die eine Web-Schnittstelle bieten auf die Anforderungen überprüft und miteinander verglichen werden.
Gerade in einer Zeit, in der das Internet in nahezu alle Bereiche des menschlichen Lebens vorgedrungen ist und sich nicht zuletzt aufgrund seiner unbegrenzt scheinenden Möglichkeiten zur Beschaffung und zum Austausch von Informationen und zur weltweiten Kommunikation eines sehr starken Zuspruchs erfreut, liegt es nicht nur im Sinne von Rechenzentren und Dienstanbietern, eine Möglichkeit zur Abrechnung der in Anspruch genommenen Ressourcen in die Hand zu bekommen. Die Erschließung neuer Regionen, sowie der Ausbau vorhandener Netze in Richtung einer Bereitstellung höherer Bandbreiten zur Verbesserung der Übertragungsgeschwindigkeiten ist mit immensen Kosten verbunden. Es ist nicht Aufgabe dieser Arbeit zu entscheiden, auf welche Art und Weise die Kosten auf die Benutzer umgelegt oder verteilt werden sollen. Wir wollen hier auch keine Vorschläge zu solchen Überlegungen einbringen, da dergleichen die Domäne anderer Disziplinen, wie beispielsweise der Betriebs- und Volkswirtschaftslehre und der Politik, darstellt. Unsere Aufgabe ist es aber, die informatikspezifischen Probleme der rechnerinternen Erfassung von Accountinginformationen zu beleuchten und so gesammelte Werte den Spezialisten anderer Fachgebiete zur weiteren Verarbeitung zu überlassen. So befasst sich diese Arbeit zunächst mit den grundlegenden Eigenschaften und Modellen des zu betrachtenden Datenverkehrs, um im folgenden Voraussetzungen und Möglichkeiten zur Realisierung einer benutzerorientierten Erfassung und Abrechung der genutzten Netzwerkressourcen aufzuzeigen und herauszuarbeiten.
In this chapter, the quantitative numerical simulation of the behavior of deformable linear objects, such as hoses, wires and leaf springs is studied. We first give a short review of the physical approach and the basic solution principle. Then, we give a more detailed description of some key aspects: We introduce a novel approach concerning dynamics based on an algorithm very similar to the one used for (quasi-) static computation. Then, we look at the plastic workpiece deformation, involving a modified computation algorithm and a special representation of the workpiece shape. Then, we give alternative solutions for two key aspects of the algorithm, and investigate the problem of performing the workpiece simulation efficiently, i.e., with desired precision in a short time. In the end, we introduce the inverse modeling problem which must be solved when the gripper trajectory for a given task shall be generated.
A new and systematic basic approach to force- and vision-based robot manipulation of deformable (non-rigid) linear objects is introduced. This approach reduces the computational needs by using a simple state-oriented model of the objects. These states describe the relation between the deformable and rigid obstacles, and are derived from the object image and its features. We give an enumeration of possible contact states and discuss the main characteristics of each state. We investigate the performance of robust transitions between the contact states and derive criteria and conditions for each of the states and for two sensor systems, i.e. a vision sensor and a force/torque sensor. This results in a new and task-independent approach in regarding the handling of deformable objects and in a sensor-based implementation of manipulation primitives for industrial robots. Thus, the usage of sensor processing is an appropriate solution for our problem. Finally, we apply the concept of contact states and state transitions to the description of a typical assembly task. Experimental results show the feasibility of our approach: A robot performs several contact state transitions which can be combined for solving a more complex task.