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Die Sichten von Projektmitgliedern auf Prozesse von Software-Entwicklungen sollen in der Prozeßmodellierungssprache MVP-L formuliert und anschließend in ein Umfassendes Prozeßmodell integriert werden. Dabei ist die Identifikation ähnlicher Informationen in verschiedenen Sichten von Bedeutung. In dieser Arbeit berichten
wir über die Adaption und Synthese verschiedener Ansätze zum Thema Ähnlichkeit aus unterschiedlichen Domänen (Schema-Integration beim Datenbank-Entwurf, Analoges und Fallbasiertes Schließen, Wiederverwendung und System-Spezifikation). Das Ergebnis, die Ähnlichkeitsfunktion vsim, wird anhand eines Referenzbeispiels illustriert. Dabei gehen wir insbesondere auf die Eigenschaft der Funktion vsim ein und berichten über Erfahrungen im Umgang mit dieser Funktion zur Berechnung der Ähnlichkeit zwischen Prozeßmodellen.
We study the global solution of Fredholm integral equations of the second kind by the help of Monte Carlo methods. Global solution means that we seek to approximate the full solution function. This is opposed to the usual applications of Monte Carlo, were one only wants to approximate a functional of the solution. In recent years several researchers developed Monte Carlo methods also for the global problem. In this paper we present a new Monte Carlo algorithm for the global solution of integral equations. We use multiwavelet expansions to approximate the solution. We study the behaviour of variance on increasing levels, and based on this, develop a new variance reduction technique. For classes of smooth kernels and right hand sides we determine the convergence rate of this algorithm and show that it is higher
than those of previously developed algorithms for the global problem. Moreover, an information-based complexity analysis shows that our algorithm is optimal among all stochastic algorithms of the same computational
cost and that no deterministic algorithm of the same cost can reach its convergence rate.
W-Lisp Sprachbeschreibung
(1993)
W-Lisp [Wippennann 91] ist eine Sprache, die im Bereich der Implementierung höherer
Programmiersprachen verwendet wird. Ihre Anwendung ist nicht auf diesen Bereich beschränkt. Gute Lesbarkeit der W-Lisp-Notation wird durch zahlreiche Anleihen aus dem Bereich der bekannten imperativen Sprachen erzielt. W-Lisp-Programme können im Rahmen eines Common Lisp-Systems ausgeführt werden. In der WLisp Notation können alle Lisp-Funktionen (inkl. MCS) verwendet werden, so daß die Mächtigkeit von Common-Lisp [Steele 90] in dieser Hinsicht auch in W-Lisp verfügbar ist.
Computer processing of free form surfaces forms the basis of a closed construction process starting with surface design and up to NC-production.
Numerical simulation and visualization allow quality analysis before manufacture. A new aspect in surface analysis is described, the stability
of surfaces versus infinitesimal bendings. The stability concept is derived
from the kinetic meaning of a special vector field which is given by the deformation. Algorithms to calculate this vector field together with an appropriate visualization method give a tool able to analyze surface stability.
In Laufe der letzten Jahrzehnte ist der Prozeß der Softwareentwicklung methodisiert und zum Teil auch formalisiert worden. I.a. unterteilt man den Vorgang in grobe Stufen, Entwicklungsphasen genannt. Jede dieser Phasen betrachtet den entstehenden Entwurf des Projekts aus verschiedenen Sichtweisen. Aus dieser Sichtweise resultieren etliche Modelle und Darstellungsformen und mit ihnen auch verschiedene rechnergestützte Entwicklungswerkzeuge. In frühen Phasen sind beispielsweise Datenflußdiagramme eine nützliche Darstellungsform, in späteren konkrete Algorithmenbeschreibungen. Entwurfsänderungen im Laufe der Entwicklungszeit müssen in allen betroffenen Ebenen neu formuliert werden, eine automatisierte phasenübergreifende Behandlung ist
daher i.a. nicht oder nur teilweise möglich. Um effizienter und weniger fehleranfällig arbeiten zu können, wurden aus diesem Grund in letzter Zeit Ansätze gemacht, den gesamten Softwareentwicklungsprozeß von der ·Anforderungsanalyse bis hin zur Wartungsphase einem einheitlichen Konzept und einer einheitlichen Darstellungsform zu unterwerfen, die sich darüberhinaus zur Realisation auf Rechnersystemen eignen. Der vorliegende Bericht entstand im Rahmen eines solchen Projekts. Es wurden eine allumfassende Systementwurfssprache und die dazugehörigen Konzepte entwickelt, die sämtliche Entwurfsphasen und die wichtigsten -prinzipien zu unterstützen vermögen. Es liegen bereits zwei Arbeiten zu diesem Projekt vor. Sie stellen im wesentlichen neben der eigentlichen Definition der Systementwurfssprache zwei Entwicklungswerkzeuge vor, die auf einer einheitlichen Datenbasis operieren [GK-91, Kel-90]. Ein Bereich innerhalb der Forschungen ist die Wiederverwendung von Softwareentwürfen. Schon existierende Lösungen sollen bei der Entwicklung eines neuen Entwurfs durch Vergleich und Bewertung des Grades der Ähnlichkeit ausgewählt und dem Entwickler nutzbar gemacht werden. Dieser Bericht beschäftigt sich mit einem Kernpunkt der Wiederverwendung, dem Vergleich zweier Softwareentwürfe. Es werden zunächst grundsätzliche Konzepte ausgearbeitet, die den Ähnlichkeitsaspekt unter verschiedenen Gesichtspunkten charakterisieren. Daraufhin werden Algorithmen konstruiert, die verschiedenartige Vergleichsfunktionen realisieren und zu einer Gesamtfunktion kombinieren. Um zu einem späteren Zeitpunkt die Leistungsfähigkeit dieser
Funktionen in der Praxis untersuchen zu können, liegt darüberhinaus ein lauffähiges
Programm vor.
A new variance reduction technique for the Monte Carlo solution of integral
equations is introduced. It is based on separation of the main part. A neighboring equation with exactly known solution is constructed by the help of a deterministic Galerkin scheme. The variance of the method is analyzed, and an application to the radiosity equation of computer graphics, together with numerical test results is given.
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.
SHIM is a concurrent deterministic programming language for embedded systems built on rendezvous communication. It abstracts away many details to give the developer a high-level view that includes virtual shared variables, threads as orthogonal statements, and deterministic concurrent exceptions.
In this paper, we present a new way to compile a SHIM-like language into a set of asynchronous guarded actions, a well-established intermediate representation for concurrent systems. By doing so, we build a bridge to many other tools, including hardware synthesis and formal verification. We present our translation in detail, illustrate it through examples, and show how the result can be used by various other tools.
UML and SDL are languages for the development of software systems that have different origins, and have evolved separately for many years. Recently, it can be observed that OMG and ITU, the standardisation bodies responsible for UML and SDL, respectively, are making efforts to harmonise these languages. So far, harmonisation takes place mainly on a conceptual level, by extending and aligning the set of language concepts. In this paper, we argue that harmonisation of languages can be approached both from a syntactic and semantic perspective. We show how a common syntactical basis can be derived from the analysis of the UML meta-model
and the SDL abstract grammar. For this purpose, conceptually sound and well-founded mappings from meta-models to abstract grammars and vice versa are defined and applied. On the semantic level, a comparison between corresponding language constructs is performed.
The Basic Reference Model of ODP introduces a number of basic concepts in order to provide a common basis for the development of a coherent set of standards. To achieve this objective, a clear understanding of the basic concepts is one prerequisite. This paper makes an effort at clarifying some of the basic concepts independently of standardized or non-standardized formal description techniques. Among the basic concepts considered here are: agent, action, interaction, interaction point, architecture, behaviour, system, composition, refinement, and abstraction. In a case study, it is then shown how these basic concepts can be represented in a formal specification written in temporal logic.
Neuronale Netze sind ein derzeit (wieder) aktuelles Thema. Trotz der oft eher schlagwortartigen
Verwendung dieses Begriffs beinhaltet er eine Vielfalt von Ideen, unterschiedlichste methodische
Ansätze und konkrete Anwendungsmöglichkeiten. Die grundlegenden Vorstellungen sind dabei nicht neu, sondern haben eine mitunter recht lange Tradition in angrenzenden Disziplinen wie Biologie, Kybernetik , Mathematik und Physik . Vielversprechende Forschungsergebnisse der letzten Zeit haben dieses Thema wieder in den Mittelpunkt des Interesses gerückt und eine Vielzahl neuer Querbezüge zur Informatik und Neurobiologie sowie zu anderen, auf den ersten Blick weit entfernten Gebieten offenbart. Gegenstand des Forschungsgebiets Neuronale Netze ist dabei die Untersuchung und Konstruktion informationsverarbeitender Systeme, die sich aus vielen mitunter nur sehr primitiven, uniformen Einheiten zusammensetzen und deren wesentliches Verarbeitungsprinzip die Kommunikation zwischen diesen Einheiten ist, d.h. die Übertragung von Nachrichten oder Signalen. Ein weiteres
Charakteristikum dieser Systeme ist die hochgradig parallele Verarbeitung von Information innerhalb
des Systems. Neben der Modellierung kognitiver Prozesse und dem Interesse, wie das menschliche Gehirn komplexe kognitive Leistungen vollbringt, ist über das rein wissenschaftliche Interesse hinaus in zunehmendem Maße auch der konkrete Einsatz neuronaler Netze in verschiedenen technischen Anwendungsgebieten zu sehen. Der vorliegende Report beinhaltet die schriftlichen Ausarbeitungen der Teilnehmerinnen des Seminars Theorie und Praxis neuronaler Netze , das von der Arbeitsgruppe Richter im Sommersemester 1993 an der Universität Kaiserslautern veranstaltet wurde. Besonderer Wert wurde darauf gelegt, nicht nur die theoretischen Grundlagen neuronaler Netze zu behandeln, sondern auch deren Einsatz in der Praxis zu diskutieren. Die Themenauswahl spiegelt einen Teil des weiten Spektrums der Arbeiten auf diesem Gebiet wider. Ein Anspruch auf Vollständigkeit kann daher nicht erhoben werden. Insbesondere sei darauf verwiesen, daß für eine intensive, vertiefende Beschäftigung mit einem Thema auf die jeweiligen Originalarbeiten zurückgegriffen werden sollte. Ohne die Mitarbeit der Teilnehmerinnen und Teilnehmer des Seminars wäre dieser Report nicht möglich gewesen. Wir bedanken uns daher bei Frank Hauptmann, Peter Conrad, Christoph Keller, Martin Buch, Philip Ziegler, Frank Leidermann, Martin Kronenburg, Michael Dieterich, Ulrike Becker, Christoph Krome, Susanne Meyfarth , Markus Schmitz, Kenan Çarki, Oliver Schweikart, Michael Schick und Ralf Comes.
The intuitionistic calculus mj for sequents, in which no other logical symbols than those for implication and universal quantification occur, is introduced and analysed. It allows a simple backward application, called mj-reduction here, for searching for derivation trees. Terms needed in mj-reduction can be found with the unification algorithm. mj-Reduction with unification can be seen as a natural extension of SLD-resolution. mj-Derivability of the sequents considered here coincides with derivability in Johansson's minimal intuitionistic calculus LHM in [6]. Intuitionistic derivability of formulae with negation and classical derivability of formulae with all usual logical symbols can be expressed with mj-derivability and hence be verified by mj-reduction. mj-Derivations can be easily translated into LJ-derivations without
"Schnitt", or into NJ-derivations in a slightly sharpened form of Prawitz' normal form. In the first three sections, the systematic use of mj-reduction for proving in predicate logic is emphasized. Although the fourth section, the last and largest, is exclusively devoted to the mathematical analysis of the calculus mj, the first three sections may be of interest to a wider readership, including readers looking for applications of symbolic logic. Unfortunately, the mathematical analysis of the calculus mj, as the study of Gentzen's calculi, demands a large amount of technical work that obscures the natural unfolding of the argumentation. To alleviate this, definitions and theorems are completely embedded in the text to provide a fluent and balanced mathematical discourse: new concepts are indicated with bold-face, proofs of assertions are outlined, or omitted when it is assumed that the reader can provide them.
Approximation properties of the underlying estimator are used to improve the efficiency of the method of dependent tests. A multilevel approximation procedure is developed such that in each level the number of samples is balanced with the level-dependent variance, resulting in a considerable reduction of the overall computational cost. The new technique is applied to the Monte Carlo estimation of integrals depending on a parameter.
Optimal degree reductions, i.e. best approximations of \(n\)-th degree Bezier curves
by Bezier curves of degree \(n\) - 1, with respect to different norms are studied. It
is shown that for any \(L_p\)-norm the euclidean degree reduction where the norm is applied to the euclidean distance function of two curves is identical to componentwise degree reduction. The Bezier points of the degree reductions are found to lie on parallel lines through the Bezier points of any Taylor expansion of degree \(n\) - 1 of the original curve. This geometric situation is shown to hold also in the case of constrained degree reduction. The Bezier points of the degree reduction are explicitly given in the unconstrained case for \(p\) = 1 and \(p\) = 2 and in the constrained case for \(p\) = 2.
Virtual Reality (VR) is to be seen as the superset of simulation and animation. Visualization is done by rendering. The fundamental model of VR accounts for all phenomenons to be modelled with help of a computer. Examples range from simple dragging actions with a mouse device to the complex simulation of physically based animation.
The calculation of form factors is an important problem in computing the global illumination in the radiosity setting. Closed form solutions often are only available for objects without obstruction and are very hard to calculate. Using Monte Carlo integration and ray tracing provides a fast and elegant tool for the estimation of the form factors. In this paper we show, that using deterministic low discrepancy sample points is superior to random sampling, resulting in an acceleration of more than half an order of magnitude.
The Analytic Blossom
(2001)
Blossoming is a powerful tool for studying and computing with Bézier and B-spline curves and surfaces - that is, for the investigation and analysis of polynomials and piecewise polynomials in geometric modeling. In this paper, we define a notion of the blossom for Poisson curves. Poisson curves are to analytic functions what Bézier curves are to polynomials - a representation adapted to geometric design. As in the polynomial setting, the blossom provides a simple, powerful, elegant and computationally meaningful way to analyze Poisson curves. Here, we
define the analytic blossom and interpret all the known algorithms for Poisson curves - subdivision, trimming, evaluation of the function and its derivatives, and conversion between the Taylor and the Poisson basis - in terms of this analytic blossom.
This document offers a concise introduction to the Goal Question Metric Paradigm (GQM Paradigm), and surveys research on applying and extending the GQM Paradigm. We describe the GQM Paradigm in terms of its basic principles, techniques for structuring GQM-related documents, and methods for performing tasks of planning and implementing a measurement program based on GQM. We also survey prototype software tools that support applying the GQM Paradigm in various ways. An annotated bibliography lists sources that document experience gained while using the GQM Paradigm and offer in-depth information about the GQM Paradigm.
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.
This paper describes some new algorithms for the accurate calculation of surface properties. In the first part an arithmetic on Bézier surfaces is introduced. Formulas are given, which determine the Bézier points and weights of the resulting surface from the points and weights of the operand surfaces. An application of the arithmetic operations to the surface interrogation methods are described in the second part. It turns out, that the quality analysis can be reduced to a few numerical stable operations. Finally the advantages and disadvantages of this method are discussed.
We introduce the concept of streamballs for fluid flow visualization. Streamballs are based upon implicit surface generation techniques adopted from the well-known metaballs. Their property to split or merge automatically in areas of significant divergence or convergence makes them an ideal tool for the visualization of arbitrary complex flow fields. Using convolution surfaces generated by continuous skeletons for streamball construction offers the possibility to visualize even tensor fields.
Many rendering problems can only be solved using Monte Carlo integration. The noise and variance inherent with the statistical method efficiently can be reduced by stratification. So far only uncorrelated stratification methods were used that in addition depend on the dimension of the integration domain. Based on rank-1-lattices we present a new stratification technique that removes this dependency on dimension, is much more efficient by correlation, is trivial to implement, and robust to use. The superiority of the new scheme is demonstrated for standard rendering algorithms.
One of the fundamental problems in computational structural biology is the prediction of RNA secondary structures from a single sequence. To solve this problem, mainly two different approaches have been used over the past decades: the free energy minimization (MFE) approach which is still considered the most popular and successful method and the competing stochastic context-free grammar (SCFG) approach. While the accuracy of the MFE based algorithms is limited by the quality of underlying thermodynamic models, the SCFG method abstracts from free energies and instead tries to learn about the structural behavior of the molecules by training the grammars on known real RNA structures, making it highly dependent on the availability of a rich high quality training set. However, due to the respective problems associated with both methods, new statistics based approaches towards RNA structure prediction have become increasingly appreciated. For instance, over the last years, several statistical sampling methods and clustering techniques have been invented that are based on the computation of partition functions (PFs) and base pair probabilities according to thermodynamic models. A corresponding SCFG based statistical sampling algorithm for RNA secondary structures has been studied just recently. Notably, this probabilistic method is capable of producing accurate (prediction) results, where its worst-case time and space requirements are equal to those of common RNA folding algorithms for single sequences.
The aim of this work is to present a comprehensive study on how enriching the underlying SCFG by additional information on the lengths of generated substructures (i.e. by incorporating length-dependencies into the SCFG based sampling algorithm, which is actually possible without significant losses in performance) affects the reliability of the induced RNA model and the accuracy of sampled secondary structures. As we will see, significant differences with respect to the overall quality of generated sample sets and the resulting predictive accuracy are typically implied. In principle, when considering the more specialized length-dependent SCFG model as basis for statistical sampling, a higher accuracy of predicted foldings can be reached at the price of a lower diversity of generated candidate structures (compared to the more general traditional SCFG variant or sampling based on PFs that rely on free energies).
Temporal stratifizierte Programme sind spezielle Logik-Programme auf der Grundlage einer linearen, temporalen Aussagenlogik, mit denen zustandsendliche reaktive Systeme spezifiziert werden können. Dabei wird die Umgebung eines zu implementierenden Steuerungsprogrammes durch eine Menge von PROLOG-ähnlichen Programmklauseln beschrieben; zusätzlich wird eine Sicherheitsbedingung angegeben, die in dem System gelten soll. Die Sprache ist so gestaltet, daß sie für resolutionsbasierte Verfahren zur Verifikation und Synthese von Steuerungsprogrammen geeignet ist. Wir zeigen, daß temporal stratifizierte Programme in ihrer Ausdrucksmächtigkeit endlichen Automaten gleichkommen.
Ownership Domains generalize ownership types. They support programming patterns like iterators that are not possible with ordinary ownership types. However, they are still too restrictive for cases in which an object X wants to access the public domains of an arbitrary number of other objects, which often happens in observer scenarios. To overcome this restriction, we developed so-called loose domains which abstract over several precise domains. That is, similar to the relation between supertypes and subtypes we have a relation between loose and precise domains. In addition, we simplified ownership domains by reducing the number of domains per object to two and hard-wiring the access permissions between domains. We formalized the resulting type system for an OO core language and proved type soundness and a fundamental accessibility property.
Shadow-Mapping
(1993)
Most radiosity techniques store radiosities in certain sample points, typically the vertices of polyhedral scenes. As diffuse radiosities are view independent they can be used for an interactive 'walk-through'. This paper presents an algorithm for storing radiosities independent of the representation of the object. A distributed rendering system, which uses this shadow-mapping technique is described. The basic thermophysical definitions, needed to derive a sum formula for a form factor calculation of polygons, are explained.
This report gives an overview of the separate translation of synchronous imperative programs to synchronous guarded actions. In particular, we consider problems to be solved for separate compilation that stem from preemption statements and local variable declarations. We explain how we solved these problems and sketch our solutions implemented in the our Averest framework to implement a compiler that allows a separate compilation of imperative synchronous programs with local variables and unrestricted preemption statements. The focus of the report is the big picture of our entire design flow.
Over a period of 30 years, ITU-T’s Specification and Description Language (SDL) has matured to a sophisticated formal modelling language for distributed systems and communication protocols. The language definition of SDL-2000, the latest version of SDL, is complex and difficult to maintain. Full tool support for SDL is costly to implement. Therefore, only subsets of SDL are currently supported by tools. These SDL subsets - called SDL profiles - already cover a wide range of systems, and are often suffcient in practice. In this report, we present our approach for extracting the formal semantics for SDL profiles from the complete SDL semantics. We then formalise the approach, present our SDL-profile tool, and report on our experiences.
We present a methodology to augment system safety step-by-step and illustrate the approach by the definition of reusable solutions for the detection of fail-silent nodes - a watchdog and a heartbeat. These solutions can be added to real-time system designs, to protect against certain types of system failures. We use SDL as a system design language for the development of distributed systems, including real-time systems.
Die dreidimensionale Darstellung hybrider Datensätze hat sich in den letzten Jahren als
ein wichtiger Teilbereich der wissenschaftlichen Visualisierung etabliert. Hybride Datensätze enthalten sowohl diskrete Volumendaten als auch durch geometrische Primitive
definierte Objekte. Bei der visuellen Verarbeitung einer gegebenen Szene spielen Schatteninformationen eine wichtige Rolle, indem sie die Beziehungen von Objekten untereinander verständlich machen. Wir beschreiben ein einfaches Verfahren zur Berechnung von Schatteninformation, das in ein bestehendes System zur Visualisierung hybrider Datensätze integriert wurde. An einem Beispiel aus der klinischen Anwendung werden die Ergebnisse illustriert.
There is a well known relationship between alternating automata on finite words and symbolically represented nondeterministic automata on finite words. This relationship is of practical relevance because it allows to combine the advantages of alternating and symbolically represented nondeterministic automata on finite words. However, for infinite words the situation is unclear. Therefore, this work investigates the relationship between alternating omega-automata and symbolically represented nondeterministic omega-automata. Thereby, we identify classes of alternating omega-automata that are as expressive as safety, liveness and deterministic prefix automata, respectively. Moreover, some very simple symbolic nondeterminisation procedures are developed for the classes corresponding to safety and liveness properties.
Katja is a tool generating order-sorted recursive data types as well as position types for Java, from specifications using an enhanced ML like notation. Katja’s main features are its conciseness of specifications, the rich interface provided by the generated code and the Java atypical immutability of types. After several stages of extending and maintaining the Katja project, it became apparent many changes had to be done. The original design of Katja wasn’t prepared for the introduction of several backends, the introduction of position sorts and constant feature enhancements and bug fixes. By supplying this report Katja reaches release status for the first time.
The simulation of random fields has many applications in computer graphics such as e.g. ocean wave or turbulent wind field modeling. We present a new and strikingly simple synthesis algorithm for random fields on rank-1 lattices that requires only one Fourier transform independent of the dimension of the support of the random field. The underlying mathematical principle of discrete Fourier transforms on rank-1 lattices breaks the curse of dimension of the standard tensor product Fourier transform, i.e. the number of function values does not exponentially depend on the dimension, but can be chosen linearly.
Quasi-Monte Carlo Radiosity
(1996)
The problem of global illumination in computer graphics is described by a second kind Fredholm integral equation. Due to the complexity of this equation, Monte Carlo methods provide an interesting tool for approximating
solutions to this transport equation. For the case of the radiosity equation, we present the deterministic method of quasi-rondom walks. This method very efficiently uses low discrepancy sequences for integrating the Neumann series and consistently outperforms stochastic techniques. The method of quasi-random walks also is applicable to transport problems in settings other
than computer graphics.
The radiance equation, which describes the global illumination problem in computer graphics, is a high dimensional integral equation. Estimates of the solution are usually computed on the basis of Monte Carlo methods. In this paper we propose and investigate quasi-Monte Carlo methods, which means that we replace (pseudo-) random samples by low discrepancy sequences, yielding deterministic algorithms. We carry out a comparative numerical study between Monte Carlo and quasi-Monte Carlo methods. Our results show that quasi-Monte Carlo converges considerably faster.
Monte Carlo integration is often used for antialiasing in rendering processes.
Due to low sampling rates only expected error estimates can be stated, and the variance can be high. In this article quasi-Monte Carlo methods are presented, achieving a guaranteed upper error bound and a convergence rate essentially as fast as usual Monte Carlo.
We study summation of sequences and integration in the quantum model of computation. We develop quantum algorithms for computing the mean of sequences which satisfy a \(p\)-summability condition and for integration of functions from Lebesgue spaces \(L_p([0,1]^d)\) and analyze their convergence rates. We also prove lower bounds which show that the proposed algorithms are, in many cases, optimal within the setting of quantum computing. This extends recent results of Brassard, Høyer, Mosca, and Tapp (2000) on computing the mean for bounded sequences and complements results of Novak (2001) on integration of functions from Hölder classes.
We study high dimensional integration in the quantum model of computation. We develop quantum algorithms for integration of functions from Sobolev classes \(W^r_p [0,1]^d\) and analyze their convergence rates. We also prove lower bounds which show that the proposed algorithms are, in many cases, optimal within the setting of quantum computing. This extends recent results of Novak on integration of functions from Hölder classes.
Software-Projekte bestehen aus einer Vielzahl von Teilaufgaben, die durch komplexe Wechselbeziehungen miteinander verknüpft sind. Systematische Unterstützung bei der Durchführung von Software-Projekten erfordert deshalb nicht nur die isolierte Unterstützung einzelner Teilaufgaben, sondern insbesondere der Wechselbeziehungen. Außerdem müssen Aktivitäten des Messens und Bewertens durchgeführt werden, um quantitative Aussagen über Produkte und Prozesse ableiten zu können. Ziel des MVP-Projekts (Multi-View Process modeling) ist es, derartige integrierte Unterstützung auf der Basis meßbarer Projektpläne zur Verfügung zu stellen. Projektpläne setzen sich dabei unter anderem aus Prozeß-, Produkt-, Ressourcen- und Qualitätsmodellen zusammen. Meßansätze werden nicht nur zur systematischen Unterstützung von Projekten, sondern auch zur Verbesserung existierender Prozeß-, Produkt-, Ressource- und Qualitätsmodelle aufgrund 'gemessener' Erfahrungswerte verwendet. Die Benutzer des MVP-Entwicklungssystems (MVP-S) werden durch ihre Rollen im Rahmen eines Projekts charakterisiert werden können. Es wird beschrieben, wie Rollen das MVP-System nutzen können. Dies geschieht entweder durch direkte Repräsentation ihrer Aufgaben als Prozesse oder indem die im Projektplan repräsentierte Information ausgewertet und präsentiert wird; entsprechend bezeichnen wir eine Rolle als "zustandsverändernd" oder als "zustandserfragend". Um diese Rollen zu unterstützen, existieren unterschiedliche Möglichkeiten abhängig vom Grad der Automatisierung. Es werden beispielhaft drei Stufen aufgezeigt. Anschließend wird die Realisierung einer prototypischen, qualitätsorientierten, prozeßsensitiven Software-Entwicklungsumgebung diskutiert. Zum Abschluß wird auf gegenwärtige und zukünftige Forschungsfragen im Rahmen des MVP-Projekts eingegangen.
The provision of quality-of-service (QoS) on the network layer is a major challenge in communication networks. This applies particularly to mobile ad-hoc networks (MANETs) in the area of Ambient Intelligence (AmI), especially with the increasing use of delay and bandwidth sensitive applications. The focus of this survey lies on the classification and analysis of selected QoS routing protocols in the domain of mobile ad-hoc networks. Each protocol is briefly described and assessed, and the results are summarized in multiple tables.
Many applications dealing with geometry acquisition and processing produce polygonal meshes that carry artifacts like discretization noise. While there are many approaches to remove the artifacts by smoothing or filtering the mesh, they are not tailored to any specific application subject to·certain restrictive objectives. We show how to incorporate smoothing schemes based on the general Laplacian approximation to satsify all those objectives at
the same time for the results of flow simulation in the application field of car manufacturing. In the presented application setting the major restrictions come from the bounding volume of the flow simulation, the so-called installation space. In particular, clean mesh regions (without noise) should not be smoothed while at the same time the installation space must not be violated by the smoothing of the noisy mesh regions. Additionally, aliasing effects at the boundary between clean and noisy mesh regions must be prevented. To address the fact that the meshes come from flow simulation, the presented method is versatile enough to preserve their exact volume and to apply anisotropic filters using the flow information.
Although the paper focuses on the results of a specific application, most of its findings can be transferred to different settings as well.
The problem of constructing a geometric model of an existing object from a set of boundary points arises in many areas of industry. In this paper we present a new solution to this problem which is an extension of Boissonnat's method [2]. Our approach uses the well known Delaunay triangulation of the data points as an intermediate step. Starting with this structure, we eliminate tetrahedra until we get an appropriate approximation of the desired shape. The method proposed in this paper is capable of reconstructing objects with arbitrary genus and can cope with different point densities in different regions of the object. The
problems which arise during the elimination process, i.e. which tetrahedra can be eliminated, which order has to be used to control the process and finally, how to stop the elimination procedure at the right time, are discussed in detail. Several examples are given to show the validity of the method.
Web-based authentication is a popular mechanism implemented by Wireless Internet Service Providers (WISPs) because it allows a simple registration and authentication of customers, while avoiding the high resource requirements of the new IEEE 802.11i security standard and the backward compatibility issues of legacy devices. In this work we demonstrate two different and novel attacks against web-based authentication. One attack exploits operational anomalies of low- and middle-priced devices in order to hijack wireless clients, while the other exploits an already known vulnerability within wired-networks, which in dynamic wireless environments turns out to be even harder to detect and protect against.
The use of non-volatile semiconductor memory within an extended storage hierarchy promises significant performance improvements for transaction processing. Although page-addressable semiconductor memories like extended memory, solid-state disks and disk caches are commercially available since several years, no detailed investigation of their use for transaction processing has been performed so far. We present a comprehensive simulation study that compares the performance of these storage types and of different usage forms. The following usage forms are considered: allocation of entire log and database files in non-volatile semiconductor memory, using a so-called write buffer to perform disk writes asynchronously, and caching of database pages at intermediate storage levels (in addition to main memory caching). Our simulations are conducted with both synthetically generated workloads and traces from real-life database applications. In particular, simulation results will be presented for the debit-credit workload frequently used in transaction processing benchmarks. As expected, the greatest performance improvements (but at the highest cost) can be achieved by storing log and database files completely in non-volatile semiconductor memory. For update-intensive
workloads, a limited amount of non-volatile memory used as a write buffer also proved to be very effective. To reduce the number of disk reads; caching of database pages in addition to main memory is best supported by an extended memory buffer. In this respect, disk caches are found to be less effective as they are designed for one-level caching. Different storage costs suggest that it may be cost-effective to use two or even three of the intermediate storage types together. The performance improvements obtainable by the use of non-volatile semiconductor memory is also found to reduce the need for sophisticated DBMS buffer management in order to achieve high transaction processing performance.
Partitioned chain grammars
(1979)
This paper introduces a new class of grammars, the partitioned chain grammars, for which efficient parsers can be automatically generated. Besides being efficiently parsable these grammars possess a number of other properties, which make them very attractive for the use in parser-generators. They for instance form a large grammarclass and describe all deterministic context-free languages. Main advantage of the partitioned chain grammars however is, that given a language it is usually easier to describe it by a partitioned chain grammar than to construct a grammar of some other type commonly used in parser-generators for it.