Decentralised architecture for multi-objective autonomic management

Designing and organising large numbers of autonomic resources into a coherent system is a difficult tendeavour. It necessitates handling complex interactions among dynamic, heterogeneous components, autonomic managers and human policies. Several architectural models have been proposed for organising these interactions. This paper focuses on a decentralised approach, while also considering two other possibilities – centralised and hierarchical. An architectural model is proposed and a prototype implementation with corresponding experimental results are subsequently presented and discussed

A Self-Adaptable Approach for Easing the Development of Grid-Oriented Services

International audienceThe Service-Oriented Architecture (SOA) leverages the service abstraction to enable the development of modular, loose-coupled and distributed applications. In order to use such an architecture, service-based applications directly rely on services or compose them for conceiving new functionalities. In spite of these capabilities, they do not support the development of services which need high-performance computing. Grid computing offers an infrastructure for high-performance computing which is based on the sharing of distributed, low-cost and heterogeneous resources in large-scale. Thus, grids can be used to satisfy these high-performance service requirements. This work aims at easing the development of grid-oriented services. The iPOJO service-component model is used to propose an architecture that automatically manages job submission for services. This architecture is based on Dynaco (Adaptation for Components) and the XtreemOS grid operating system

Autonomic Pervasive Applications Driven by Abstract Specifications

Conference in conjunction with ICAC 2012 (International Conference on Autonomic Computing)International audiencePervasive application architectures present stringent requirements that make their development especially hard. In particular, they need to be flexible in order to cope with dynamism in different forms (e.g. service and data providers and consumers). The current trend to build applications out of remote services makes the availability of constituent application components inherently dynamic. Developers can no longer assume that applications are static after development or at run time. Unfortunately, developing applications that are able to cope with dynamism is very complex.Existing development approaches do not provide explicit support for managing dynamism. In this paper we describe Rondo, a tool suite for designing pervasive applications. More specifically, we present our propositions in pervasive application specification, which borrows concepts from service-oriented component assembly, model-driven engineering (MDE) and continuous deployment, resulting in a more flexible approach than traditional application definitions. Then the capabilities of our application model are demonstrated with an example application scenario designed using our approach

iPOJO flow:a declarative service workflow architecture for ubiquitous cloud applications

The growth of innovative services backed up by various sensors and devices provides an unprecedented potential for ubiquitous computing applications and systems. However, in order to benefit from the recent developments, the current service middleware technology needs a catch-up of being able to fully support interactions among the services. OSGi is considered as a viable service framework solution due to its ability to deal with the dynamism inherent with ubiquitous cloud environments. iPOJO has also emerged as a service component model that simplifies the development of OSGi applications. However, the technology runs short of providing adequate support to foster declarative service compositions of realistic interaction topologies. Noticing this deficiency, we propose an iPOJO component-based service workflow architecture, named iPOJO Flow, where component services can easily be composed together to form realistic, complicated applications. Along with the architectural design, the paper also introduces a new DSL to specify service workflow topologies in a declarative way. The effectiveness of our proposed approach is validated through a prototype demonstration, comparative design analysis, and performance experiments

Adaptable multimodal interfaces in pervasive environments

M1-4: Emerging Consumer TechnologiesInternational audienceIn the context of pervasive environments, multimodal interaction plays a pivotal role because multimodality provides flexibility and naturalness for interaction. The challenge of multimodal interfaces in pervasive environments is then to build reliable and autonomic processing systems able to analyze and understand multiple interaction modalities and reconfigure itself in real-time. Addressing this issue, we have developed an autonomic framework called DynaMo (Dynamic multiMOdality) for the development and runtime management of multimodal interaction in pervasive environments. DynaMo is composed by a specification language dedicated to the multimodality domain and a runtime machine that instantiates these specifications. In this paper, we present the overall architecture of our solution DynaMo that is based on partial interaction models, and how these models are completed at runtime to build multimodal interfaces adapted to the local execution environment

Reconfigurable SCA Applications with the FraSCAti Platform

CORE A. Acceptance rate: 18% (35/189).International audienceThe Service Component Architecture (SCA) is a technology agnostic standard for developing and deploying distributed service-oriented applications. However, SCA does not define standard means for runtime manageability (including introspection and reconfiguration) of SOA applications and of their supporting environment. This paper presents the FraSCAti platform, which brings runtime management features to SCA, and discusses key principles in its design: the adoption of an extended SCA component model for the implementation of SOA applications and of the FraSCAti platform itself; the use of component-based interception techniques for dynamically weaving non-functional services such as transaction management with components. The paper presents micro-benchmarks that show that runtime manageability in the FraSCAti platform is achieved without hindering its performance relative to the de facto reference SCA implementation, Apache's Tuscany

h-ubu: An Industrial-Strength Service-Oriented Component Framework for JavaScript Applications

Industrial track: Effective Industry Use of Software-Engineering ToolsInternational audienceIn the last years, we developed web applications requiring a large amount of JavaScript code. These web applications present adaptation requirements. In addition to platform-centric adaptation, applications have to dynamically react to external events like connectivity disruptions. Building such applications is complex and we faced sharp maintainability challenges. This paper presents h-ubu, a service-oriented component framework for JavaScript allowing building adaptive applications. h-ubu is used in industrial web applications and mobile applications. h-ubu is available in open source, as part of the OW2 Nanoko project

Ethylene : composants dynamiques pour la mise en øeuvre d'IHM plastiques en informatique ambiante

National audienceL'informatique ambiante impose de nouvelles contraintes sur la manière de construire les interfaces Homme- Machine (IHM). Traditionnellement centralisée sur un unique dispositif, l'IHM doit maintenant être distribuable de manière opportuniste sur un ensemble dynamique de dispositifs hétérogènes. Ces nouvelles IHM, dites plastiques, sont abordées dans cet article sous l'angle du génie logiciel (GL). Ce sont des logiciels répartis, dynamiquement adaptables, capables de s'affranchir de l'hétérogénéité des dispositifs et des logiciels. Les solutions actuelles de l'état de l'art en GL et systèmes répartis ne tiennent pas compte de la spécificité de l'interaction homme-machine. Nous proposons donc Ethylene, un cadre conceptuel et technique pour déve- lopper des IHM plastiques en informatique ambiante. Notre solution s'appuie sur l'intégration des approches dirigées par les modèles, d'une combinaison particulière de l'approche à composants et de l'approche à service et d'une manière originale de s'affranchir de l'hétérogénéité des modèles de communication inter- composant