[email protected] - Agent Based Support of Clinical Processes

In this paper we present a system for agent-based support of clinical processes. We describe the basic engineering concept, along with specific simulation and testing scenarios for agent-based software engineering. Another important focus is the integration of existing agent or healthcare standards like FIPA, DICOM and HL7. Objectives of our research activities in this project are: a substantial increase of the efficiency of hospital process management as well as the development of a specific goal oriented requirements engineering methodology. As most important challenges of the healthcare domain we have identified on the one hand individualized, patient oriented processes in diagnostics, therapy, nursing and administration and on the other hand extremely distributed decision processes and strong local (individual) autonomy with a high degree of situational dynamics. The example scenario on „clinical trials“ illustrates how the system shall support distributed clinical processes and how it interacts with other multiagent systems within the Agent.Hospital Framework and hospital information systems in the eHealth Lab introduced in this paper. The system development is part of the German Priority Research Program (SPP) 1083 “Intelligent Agents and their application in business scenarios”

Многоагентное моделирование распределенных атак «отказ в обслуживании» и механизмов защиты от них

Paper describes the approach for modeling of cybernetic counteraction of intelligent agents on the example of distributed denial of service attacks and defense mechanisms. The simulation software environment based on OMNeT ++ INET Framework is developed. The environment includes agency components and libraries of attacks and protection mechanisms. The fulfilled experiments are described.Рассматривается подход к моделированию кибернетического противоборства команд интеллектуальных агентов на примере распределенных атак «отказ в обслуживании» и механизмов защиты от них. Разработана программная среда моделирования на базе OMNeT++ INET Framework. Среда включает агентские компоненты и библиотеки атак и механизмов защиты. Описаны проведенные эксперименты

Interactive Multiagent Adaptation of Individual Classification Models for Decision Support

An essential prerequisite for informed decision-making of intelligent agents is direct access to empirical knowledge for situation assessment. This contribution introduces an agent-oriented knowledge management framework for learning agents facing impediments in self-contained acquisition of classification models. The framework enables the emergence of dynamic knowledge networks among benevolent agents forming a community of practice in open multiagent systems. Agents in an advisee role are enabled to pinpoint learning impediments in terms of critical training cases and to engage in a goal-directed discourse with an advisor panel to overcome identified issues. The advisors provide arguments supporting and hence explaining those critical cases. Using such input as additional background knowledge, advisees can adapt their models in iterative relearning organized as a search through model space. An extensive empirical evaluation in two real-world domains validates the presented approach

Méthodologie de développement de systèmes multi-agents adaptatifs et conception de logiciels à fonctionnalité émergente

Environments within which applications are embedded are growing in complexity and dynamicity, considering the large number and the diversity of the takeholders. Functions of such systems become more and more difficult to define, and their specifications are often incomplete, even if their components are easily identifiable and specifiable. Without new design and modeling methods, managing such project will become too constraining, long and costly to cope with.We propose to use cooperative self-organising adaptive multi-agent systems (AMAS) to tackle these design problems. The functionality of such systems emerges from coopera- tive interactions between agents. Nevertheless, developing using AMAS is still an ad-hoc process and reduced to a small group of users. Several applications have been designed by using AMAS, but it has never been executed by novices and non AMAS experts. To answer to this lack of visibility and openess, the ADELFE project – for Atelier de DEveloppement de Logiciels à Fonctionnalité Emergente or Toolkit for developing applications with emergent functionalities – proposes to develop a methodology based on these emergence oriented principles. This methodology is defined in three points : process, notations and tools. The ADELFE process is based on the Rational Unified Process and extends or adds some agent specific activities. Notations are extensions of UML and A-UML. Tools have been developed or extended in to support notations, with OpenTool, and following the process is eased by using AdelfeToolkit.The relevance of this approach has been confronted to the development of experimental applications. Some results from a dynamic timetable solver, ETTO, and from a multi-robot transportation task are presented and analysed.Les environnements des applications d’aujourd’hui sont de plus en plus complexes et dy- namiques, compte tenu du grand nombre et de la diversité des acteurs en jeu. Les fonctions de tels systèmes deviennent alors de plus en plus difficiles à définir, et leur spécification est souvent incomplète, même si les composantes restent pleinement identifiables et spécifiables. Si de nouvelles méthodes de conception et de modélisation ne sont pas mises au point, la gestion des projets deviendra de plus en plus contraignante, longue et coûteuse.Nous proposons d’utiliser les systèmes multi-agents adaptatifs par auto-organisation coopérative pour palier ces problèmes de conception. La fonctionnalité de ces systèmes est une résultante émergeant des interactions coopératives entre agents. Toutefois, le développement de tels systèmes est resté confidentiel et réduit à un groupe autour de ses créateurs directs. Certes de nombreuses applications ont été conçues grâce à ces systèmes, mais jamais par des novices, non experts du domaine. Pour répondre à ce manque de visibilité et d’ouverture, le projet ADELFE - pour Atelier de DEveloppement de Logiciels à Fonctionnalité Emergente - propose de développer une méthode de développement d’applications repo- sant sur ces principes et définie en trois points : un processus, des notations et des outils. Le processus d’ADELFE est basé sur le Rational Unified Process et y ajoute des activités spécifiques à l’ingénierie orientée agent. Les notations sont une extension des notations UML et A-UML. Des outils ont été développés ou étendus afin de prendre en charge à la fois les notations, grâce à OpenTool, et le processus, grâce à un outil d’aide au suivi appelé AdelfeToolkit.La pertinence de cette méthodologie a été mise à l’épreuve au cours de développements d’applications diverses. Nous présentons ici les résultats obtenus pour un problème de résolution dynamique d’emploi du temps, ETTO (pour Emergent Time Tabling Organisation), et pour un problème de transport multi-robot de ressources