Exploring sensor data management

The increasing availability of cheap, small, low-power sensor hardware and the ubiquity of wired and wireless networks has led to the prediction that `smart evironments' will emerge in the near future. The sensors in these environments collect detailed information about the situation people are in, which is used to enhance information-processing applications that are present on their mobile and `ambient' devices.\ud \ud Bridging the gap between sensor data and application information poses new requirements to data management. This report discusses what these requirements are and documents ongoing research that explores ways of thinking about data management suited to these new requirements: a more sophisticated control flow model, data models that incorporate time, and ways to deal with the uncertainty in sensor data

Modal tableaux for verifying stream authentication protocols

To develop theories to specify and reason about various aspects of multi-agent systems, many researchers have proposed the use of modal logics such as belief logics, logics of knowledge, and logics of norms. As multi-agent systems operate in dynamic environments, there is also a need to model the evolution of multi-agent systems through time. In order to introduce a temporal dimension to a belief logic, we combine it with a linear-time temporal logic using a powerful technique called fibring for combining logics. We describe a labelled modal tableaux system for the resulting fibred belief logic (FL) which can be used to automatically verify correctness of inter-agent stream authentication protocols. With the resulting fibred belief logic and its associated modal tableaux, one is able to build theories of trust for the description of, and reasoning about, multi-agent systems operating in dynamic environments

Spécification, validation et satisfiabilité [i.e. satisfaisabilité] de contraintes hybrides par réduction à la logique temporelle

Depuis quelques années, de nombreux champs de l'informatique ont été transformés par l'introduction d'une nouvelle vision de la conception et de l'utilisation d'un système, appelée approche déclarative. Contrairement à l'approche dite impérative, qui consiste à décrire au moyen d'un langage formelles opérations à effectuer pour obtenir un résultat, l'approche déclarative suggère plutôt de décrire le résultat désiré, sans spécifier comment ce «but» doit être atteint. L'approche déclarative peut être vue comme le prolongement d'une tendance ayant cours depuis les débuts de l'informatique et visant à résoudre des problèmes en manipulant des concepts d'un niveau d'abstraction toujours plus élevé. Le passage à un paradigme déclaratif pose cependant certains problèmes: les outils actuels sont peu appropriés à une utilisation déclarative. On identifie trois questions fondamentales qui doivent être résolues pour souscrire à ce nouveau paradigme: l'expression de contraintes dans un langage formel, la validation de ces contraintes sur une structure, et enfin la construction d'une structure satisfaisant une contrainte donnée. Cette thèse étudie ces trois problèmes selon l'angle de la logique mathématique. On verra qu'en utilisant une logique comme fondement formel d'un langage de « buts », les questions de validation et de construction d'une structure se transposent en deux questions mathématiques, le model checking et la satisfiabilité, qui sont fondamentales et largement étudiées. En utilisant comme motivation deux contextes concrets, la gestion de réseaux et les architectures orientées services, le travail montrera qu'il est possible d'utiliser la logique mathématique pour décrire, vérifier et construire des configurations de réseaux ou des compositions de services web. L'aboutissement de la recherche consiste en le développement de la logique CTLFO+, permettant d'exprimer des contraintes sur les données, sur la séquences des opérations\ud d'un système, ainsi que des contraintes dites «hybrides». Une réduction de CTL-FO+ à la logique temporelle CTL permet de réutiliser de manière efficace des outils de vérification existants. ______________________________________________________________________________ MOTS-CLÉS DE L’AUTEUR : Méthodes formelles, Services web, Réseaux

A framework for analyzing changes in health care lexicons and nomenclatures

Ontologies play a crucial role in current web-based biomedical applications for capturing contextual knowledge in the domain of life sciences. Many of the so-called bio-ontologies and controlled vocabularies are known to be seriously defective from both terminological and ontological perspectives, and do not sufficiently comply with the standards to be considered formai ontologies. Therefore, they are continuously evolving in order to fix the problems and provide valid knowledge. Moreover, many problems in ontology evolution often originate from incomplete knowledge about the given domain. As our knowledge improves, the related definitions in the ontologies will be altered. This problem is inadequately addressed by available tools and algorithms, mostly due to the lack of suitable knowledge representation formalisms to deal with temporal abstract notations, and the overreliance on human factors. Also most of the current approaches have been focused on changes within the internal structure of ontologies, and interactions with other existing ontologies have been widely neglected. In this research, alter revealing and classifying some of the common alterations in a number of popular biomedical ontologies, we present a novel agent-based framework, RLR (Represent, Legitimate, and Reproduce), to semi-automatically manage the evolution of bio-ontologies, with emphasis on the FungalWeb Ontology, with minimal human intervention. RLR assists and guides ontology engineers through the change management process in general, and aids in tracking and representing the changes, particularly through the use of category theory. Category theory has been used as a mathematical vehicle for modeling changes in ontologies and representing agents' interactions, independent of any specific choice of ontology language or particular implementation. We have also employed rule-based hierarchical graph transformation techniques to propose a more specific semantics for analyzing ontological changes and transformations between different versions of an ontology, as well as tracking the effects of a change in different levels of abstractions. Thus, the RLR framework enables one to manage changes in ontologies, not as standalone artifacts in isolation, but in contact with other ontologies in an openly distributed semantic web environment. The emphasis upon the generality and abstractness makes RLR more feasible in the multi-disciplinary domain of biomedical Ontology change management

A Living Landscape

Today, half of the Netherlands is situated below sea level. Because of this, water-management is of key importance when it comes to maintaining present-day habitation of the Dutch low-lands. In prehistory, however, large parts of the Dutch landscape were highly dynamic due to ongoing fluvial sedimentation. Vast deltaic areas with ceaseless river activity formed the backdrop against which prehistoric occupation took place. Although such landscapes may seem inhospitable, the often excellently preserved archaeological evidence indicates that people lived in these lowlands throughout prehistory. This book describes why Bronze Age farmers were keen to settle here and how these prehistoric communities structured the landscape around their house-sites at various scales. Using a vast body of evidence from several large-scale excavations in the Dutch river area, the author, reconstructs the changes in the cultural landscape over time. Starting from the Middle Neolithic, changing preferences for settlement site locations and changes in domestic architecture are traced in detail to the Iron Age. However, for proper understanding of the cultural landscape, not only settlements but also graves and patterns of object deposition - and their landscape characteristics - are discussed. By using evidence of over 50 major excavations, yielding over 300 house plans, this book contains by far the richest data-set on Dutch Bronze Age settlements. Most of these results were not before published in English, making this book of over 500 pages a true academic treasure for an international audience. The in-depth presentation of Bronze Age settlement sites, as well as the critical discussion of models and premises current in later prehistoric settlement archaeology, have an important relevance stretching beyond the Dutch lowland areas on which it is based. The wealth of high-quality Dutch data is presented as a synthesized (yet well-annotated) narrative, that rises above mere site interpretation, even more so due to its landscape-scale focus. Therefore this book is a must-have for those interested in later prehistoric cultural landscapes and settlement archaeology