CSP as a Coordination Language. A CSP-based Approach to the Coordination of Concurrent Systems

Die Beherrschbarkeit komplexer nebenläufiger Systeme hängt in hohem Maße davon ab, mit welchen Methoden das System modelliert bzw. spezifiziert wird. Formale auf Nebenläufigkeit spezialisierte Methoden erlauben es, solche Systeme elegant auf einem hohen Abstraktionsniveau zu modellieren und zu analysieren. Ein Vertreter derartiger Methoden ist die in dieser Arbeit verwendete Prozess Algebra CSP. CSP ist ein weitverbreiteter, wohluntersuchter Formalismus, der es erlaubt, ein nebenläufiges System mathematisch präzise zu beschreiben und wichtige Eigenschaften, beispielsweise Verklemmungsfreiheit, zu verifizieren. Dennoch ist die Ableitung einer Systemimplementierung aus einem gegebenen CSP Modell immer noch ein aktueller Forschungsgegenstand. So ist zum Beispiel unklar, wie interne Aktionen eines Systems in einer Implementierung integriert werden können, da diese in CSP ununterscheidbar sind. Als Lösung wird in dieser Arbeit vorgeschlagen, CSP mit einer sequentiellen Zielsprache zu integrieren, so dass die Aktionen eines Systems in der sequentiellen Zielsprache implementiert werden und die Aktionen entsprechend eines CSP Prozesses koordiniert werden. Koordinationssprachen zielen ebenfalls darauf ab, Nebenläufigkeit von sequentiellen Aspekten eines Systems zu trennen, sie sind aber weniger auf automatisierte formale Verifikation ausgerichtet. In der Arbeit wird die Verwendung der Prozess Algebra CSP als formale Koordinationssprache für beliebige sequentielle Zielsprachen vorgeschlagen. Hierfür wird das formale Fundament einer Koordinationsumgebung entwickelt, die einen CSP Prozess zur Laufzeit simuliert und die Aktionen des Systems entsprechend ausführt. Besonderer Wert liegt auf der Koordination interner Aktionen und auf der Erkennung von Nebenläufigkeit zwischen extern synchronisierbaren und internen Aktionen. Durch Beweisverpflichtungen wird der Zusammenhang zwischen dem Koordinationsprozess und den Implementierungen der Aktionen hergestellt. Die Koordinationsumgebung wird konkret für die Zielsprache Java implementiert. Desweiteren wird eine Fallstudie vorgestellt, die sich mit der Entwicklung eines Workflow Servers beschäftigt, dessen interne Nebenläufigkeit einerseits selbst mittels CSP koordiniert wird und der andererseits CSP-basierte Workflows ausführen kann, die ebenfalls durch eine CSP Koordinationsumgebung gesteuert werden. Die Arbeit enthält wissenschaftliche Beiträge zur Theorie und der praktischen Verwendbarkeit von CSP, bezüglich der Konstruktion korrekter nebenläufiger Systeme, sowie zum Bereich der Modellierung und Verwaltung von Workflows.Complex concurrent systems are in general hard to understand, and equally hard to specify and to verify. The process algebra Communicating Sequential Processes (CSP) offers a way of taming the complexity of concurrent systems by focusing on the interaction behavior of systems and abstracting from synchronization mechanisms and other implementation details. CSP provides a mature intermediate level formalism that allows us to specify and model such systems in a mathematically precise way and to verify important properties, e. g., deadlock-freedom. However, the derivation of a system’s implementation from its CSP-based model is still a problem and sub ject to ongoing research. It is, for example, not obvious how to integrate CSP with internal actions of a system, because CSP abstracts from internal actions to a great extent. To overcome this problem, we propose to integrate CSP with a sequential host language such that the concurrency aspects of systems are captured on the CSP level and its actions are implemented in the sequential host language. This idea of separating concurrent and sequential aspects of a system is also known from coordination languages, but those are in general less amenable to automated verification. In this thesis, we present the use of CSP as a formal coordination language for arbitrary sequential host languages, allowing us to use CSP for the design, implementation, and verification of concurrent systems. To this end, we develop the model of a coordination environment that simulates a CSP process at runtime and performs the system’s actions accordingly. The coordination environment controls the system’s interaction with its environment as well as its internal actions. We present proof obligations to ensure that the properties proved on the CSP level also hold on the implementation level of the system. We also present an implementation of the coordination environment for the target language Java and a case study of constructing a workflow server as a coordinated concurrent Java program. This thesis contributes to the theory and practice of CSP, to the engineering of correct concurrent systems, and to the modeling and management of workflows. The main contribution of this thesis is a target language independent CSP-based framework for the construction of provably correct concurrent systems

Semantic web and formal design methods

Ph.DDOCTOR OF PHILOSOPH

UML models consistency management: guidelines for software quality manager

Unified Modeling Language (UML) has become the de-facto standard to design today’s large-size object-oriented systems. However, focusing on multiple UML diagrams is a main cause of breaching the consistency problem, which ultimately reduces the overall software model’s quality. Consistency management techniques are widely used to ensure the model consistency by correct model-to-model and model-to-code transformation. Consistency management becomes a promising area of research especially for model-driven architecture. In this paper, we extensively review UML consistency management techniques. The proposed techniques have been classified based on the parameters identified from the research literature. Moreover, we performed a qualitative comparison of consistency management techniques in order to identify current research trends, challenges and research gaps in this field of study. Based on the results, we concluded that researchers have not provided more attention on exploring inter-model and semantic consistency problems. Furthermore, state-of-the-art consistency management techniques mostly focus only on three UML diagrams (i.e., class, sequence and state chart) and the remaining UML diagrams have been overlooked. Consequently, due to this incomplete body of knowledge, researchers are unable to take full advantage of overlooked UML diagrams, which may be otherwise useful to handle the consistency management challenge in an efficient manner

Combining SOA and BPM Technologies for Cross-System Process Automation

This paper summarizes the results of an industry case study that introduced a cross-system business process automation solution based on a combination of SOA and BPM standard technologies (i.e., BPMN, BPEL, WSDL). Besides discussing major weaknesses of the existing, custom-built, solution and comparing them against experiences with the developed prototype, the paper presents a course of action for transforming the current solution into the proposed solution. This includes a general approach, consisting of four distinct steps, as well as specific action items that are to be performed for every step. The discussion also covers language and tool support and challenges arising from the transformation

Des spécifications en langage naturel aux spécifications formelles via une ontologie comme modèle pivot

Le développement d'un système a pour objectif de répondre à des exigences. Aussi, le succès de sa réalisation repose en grande partie sur la phase de spécification des exigences qui a pour vocation de décrire de manière précise et non ambiguë toutes les caractéristiques du système à développer.Les spécifications d'exigences sont le résultat d'une analyse des besoins faisant intervenir différentes parties. Elles sont généralement rédigées en langage naturel (LN) pour une plus large compréhension, ce qui peut mener à diverses interprétations, car les textes en LN peuvent contenir des ambiguïtés sémantiques ou des informations implicites. Il n'est donc pas aisé de spécifier un ensemble complet et cohérent d'exigences. D'où la nécessité d'une vérification formelle des spécifications résultats.Les spécifications LN ne sont pas considérées comme formelles et ne permettent pas l'application directe de méthodes vérification formelles.Ce constat mène à la nécessité de transformer les spécifications LN en spécifications formelles.C'est dans ce contexte que s'inscrit cette thèse.La difficulté principale d'une telle transformation réside dans l'ampleur du fossé entre spécifications LN et spécifications formelles.L'objectif de mon travail de thèse est de proposer une approche permettant de vérifier automatiquement des spécifications d'exigences utilisateur, écrites en langage naturel et décrivant le comportement d'un système.Pour cela, nous avons exploré les possibilités offertes par un modèle de représentation fondé sur un formalisme logique.Nos contributions portent essentiellement sur trois propositions :1) une ontologie en OWL-DL fondée sur les logiques de description, comme modèle de représentation pivot permettant de faire le lien entre spécifications en langage naturel et spécifications formelles; 2) une approche d'instanciation du modèle de représentation pivot, fondée sur une analyse dirigée par la sémantique de l'ontologie, permettant de passer automatiquement des spécifications en langage naturel à leur représentation conceptuelle; et 3) une approche exploitant le formalisme logique de l'ontologie, pour permettre un passage automatique du modèle de représentation pivot vers un langage de spécifications formelles nommé Maude.The main objective of system development is to address requirements. As such, success in its realisation is highly dependent on a requirement specification phase which aims to describe precisely and unambiguously all the characteristics of the system that should be developed. In order to arrive at a set of requirements, a user needs analysis is carried out which involves different parties (stakeholders). The system requirements are generally written in natural language to garantuee a wider understanding. However, since NL texts can contain semantic ambiguities, implicit information, or other inconsistenties, this can lead to diverse interpretations. Hence, it is not easy to specify a set of complete and consistent requirements, and therefore, the specified requirements must be formally checked. Specifications written in NL are not considered to be formal and do not allow for a direct application of formal methods. We must therefore transform NL requirements into formal specifications. The work presented in this thesis was carried out in this framework. The main difficulty of such transformation is the gap between NL requirements and formal specifications. The objective of this work is to propose an approach for an automatic verification of user requirements which are written in natural language and describe a system's expected behaviour. Our approach uses the potential offered by a representation model based on a logical formalism. Our contribution has three main aspects: 1) an OWL-DL ontology based on description logic, used as a pivot representation model that serves as a link between NL requirements to formal specifications; 2) an approach for the instantiation of the pivot ontology, which allows an automatic transformation of NL requirements to their conceptual representations; and 3) an approach exploiting the logical formalism of the ontology in order to automatically translate the ontology into a formal specification language called Maude.PARIS11-SCD-Bib. électronique (914719901) / SudocSudocFranceF

A Cooperative Approach for Composite Ontology Matching

Ontologies have proven to be an essential element in a range of applications in which knowl-edge plays a key role. Resolving the semantic heterogeneity problem is crucial to allow the interoperability between ontology-based systems. This makes automatic ontology matching, as an anticipated solution to semantic heterogeneity, an important, research issue. Many dif-ferent approaches to the matching problem have emerged from the literature. An important issue of ontology matching is to find effective ways of choosing among many techniques and their variations, and then combining their results. An innovative and promising option is to formalize the combination of matching techniques using agent-based approaches, such as cooperative negotiation and argumentation. In this thesis, the formalization of the on-tology matching problem following an agent-based approach is proposed. Such proposal is evaluated using state-of-the-art data sets. The results show that the consensus obtained by negotiation and argumentation represent intermediary values which are closer to the best matcher. As the best matcher may vary depending on specific differences of multiple data sets, cooperative approaches are an advantage. *** RESUMO - Ontologias são elementos essenciais em sistemas baseados em conhecimento. Resolver o problema de heterogeneidade semântica é fundamental para permitira interoperabilidade entre sistemas baseados em ontologias. Mapeamento automático de ontologias pode ser visto como uma solução para esse problema. Diferentes e complementares abordagens para o problema são propostas na literatura. Um aspecto importante em mapeamento consiste em selecionar o conjunto adequado de abordagens e suas variações, e então combinar seus resultados. Uma opção promissora envolve formalizara combinação de técnicas de ma-peamento usando abordagens baseadas em agentes cooperativos, tais como negociação e argumentação. Nesta tese, a formalização do problema de combinação de técnicas de ma-peamento usando tais abordagens é proposta e avaliada. A avaliação, que envolve conjuntos de testes sugeridos pela comunidade científica, permite concluir que o consenso obtido pela negociação e pela argumentação não é exatamente a melhoria de todos os resultados individuais, mas representa os valores intermediários que são próximo da melhor técnica. Considerando que a melhor técnica pode variar dependendo de diferencas específicas de múltiplas bases de dados, abordagens cooperativas são uma vantagem

Proceedings of the 2012 Workshop on Ambient Intelligence Infrastructures (WAmIi)

This is a technical report including the papers presented at the Workshop on Ambient Intelligence Infrastructures (WAmIi) that took place in conjunction with the International Joint Conference on Ambient Intelligence (AmI) in Pisa, Italy on November 13, 2012. The motivation for organizing the workshop was the wish to learn from past experience on Ambient Intelligence systems, and in particular, on the lessons learned on the system architecture of such systems. A significant number of European projects and other research have been performed, often with the goal of developing AmI technology to showcase AmI scenarios. We believe that for AmI to become further successfully accepted the system architecture is essential