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| - | ====== UbiNet Students Project : Reactive Adaptation in Middleware for Ubiquitous Computing ====== | + | |
| + | ===== UbiNet Students Project : Reactive Adaptation in Middleware for Ubiquitous Computing ===== | ||
| ===== Who? ===== | ===== Who? ===== | ||
| - | * **Jean-Yves Tigli,** enseignant chercheur à Polytech'Nice Sophia Antipolis, équipe RAINBOW en délagation dans l'équipe PULSAR | + | * Name : **Jean-Yves Tigli,** and **Stéphane Lavirotte** |
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| - | {{ logo_polytech.jpg?100|}} | + | |
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| - | * **Stéphane Lavirotte,** enseignant chercheur à l'IUFM, équipe RAINBOW | + | |
| * Mail: tigli@polytech.unice.fr, lavirott@unice.fr | * Mail: tigli@polytech.unice.fr, lavirott@unice.fr | ||
| * Telephone: +33684245567 | * Telephone: +33684245567 | ||
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| Ubiquitous Computing, introduced by Mark Weiser in 1991, raised many challenges across computer science: in systems design and engineering, in systems modeling, and in user interface design. Initially the effective integration and interaction with the physical world sufficed to promote ubiquitous computing interest due to significantly increased real world visibility as well as real world control, towards ambient intelligence. But these first ubiquitous systems were often proofs of concept with a single static configuration with a priori known devices. Today mobility of users and an increasing heterogeneity of devices introduce a new significant challenge for Middleware for ubiquitous computing. We witness to a kind of inversion in the classical software methodology where the software applications levels are much more stable and stationary than the software infrastructure level. The operational environment is then tightly connected with the real world but is also partly unknown at design time and is always changing at runtime in uncountable manner. | Ubiquitous Computing, introduced by Mark Weiser in 1991, raised many challenges across computer science: in systems design and engineering, in systems modeling, and in user interface design. Initially the effective integration and interaction with the physical world sufficed to promote ubiquitous computing interest due to significantly increased real world visibility as well as real world control, towards ambient intelligence. But these first ubiquitous systems were often proofs of concept with a single static configuration with a priori known devices. Today mobility of users and an increasing heterogeneity of devices introduce a new significant challenge for Middleware for ubiquitous computing. We witness to a kind of inversion in the classical software methodology where the software applications levels are much more stable and stationary than the software infrastructure level. The operational environment is then tightly connected with the real world but is also partly unknown at design time and is always changing at runtime in uncountable manner. | ||
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| In order to to adress ubiquitous services continuity (Cf. French national research project CONTINUUM, http://continuum.unice.fr) in spite of such constraints, recent researches are moving towards an era of emergent middleware that is middleware that emerges at run-time to match the current operational environment and application requirements. | In order to to adress ubiquitous services continuity (Cf. French national research project CONTINUUM, http://continuum.unice.fr) in spite of such constraints, recent researches are moving towards an era of emergent middleware that is middleware that emerges at run-time to match the current operational environment and application requirements. | ||
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| The research group Rainbow focus on adaptive service oriented middleware for ubiquitous computing (Cf. main recent publications). Contrary to most of the researches in this domain, Rainbow studies, proposes and validates contributions for a reactive adaptation, i.e. when the time for adaptation remain compatible with the continuous evolution of the ubiquitous environment. | The research group Rainbow focus on adaptive service oriented middleware for ubiquitous computing (Cf. main recent publications). Contrary to most of the researches in this domain, Rainbow studies, proposes and validates contributions for a reactive adaptation, i.e. when the time for adaptation remain compatible with the continuous evolution of the ubiquitous environment. | ||
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| Its main contribution bases on the theory of the aspects of assembly (AA) to adapt reactively, semantically and independently assemblies of components in Service Component Architecture (SCA) for example. | Its main contribution bases on the theory of the aspects of assembly (AA) to adapt reactively, semantically and independently assemblies of components in Service Component Architecture (SCA) for example. | ||
| After a short survey on reactivity in adaptive middlewares, the students of this project will study various algorithms in the different steps (Pointcut Matching and Weaving Mecanism) of the AA application process. They will specifically study the algorithmic costs of each of these steps and will propose a formal performance model that will allow to compare different policies in the application of AA. | After a short survey on reactivity in adaptive middlewares, the students of this project will study various algorithms in the different steps (Pointcut Matching and Weaving Mecanism) of the AA application process. They will specifically study the algorithmic costs of each of these steps and will propose a formal performance model that will allow to compare different policies in the application of AA. | ||
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| To illustrate these results, some algorithms will be able to be tested in real experiments on the CONTINUUM platform, in collaboration with the research engineer of the project. | To illustrate these results, some algorithms will be able to be tested in real experiments on the CONTINUUM platform, in collaboration with the research engineer of the project. | ||
| ==== References : ==== | ==== References : ==== | ||
| J.-Y. Tigli, S. Lavirotte, G. Rey, V. Hourdin, M. Riveill, “Lightweight Service Oriented Architecture for Pervasive Computing” IJCSI International Journal of Computer Science Issues, Vol. 4, No. 1, September 2009, ISSN (Online): 1694-0784, ISSN (Print): 1694-0814 | J.-Y. Tigli, S. Lavirotte, G. Rey, V. Hourdin, M. Riveill, “Lightweight Service Oriented Architecture for Pervasive Computing” IJCSI International Journal of Computer Science Issues, Vol. 4, No. 1, September 2009, ISSN (Online): 1694-0784, ISSN (Print): 1694-0814 | ||
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| J.-Y. Tigli, S. Lavirotte, G. Rey, V. Hourdin, M. Riveill, “Context-aware Authorization in Highly Dynamic Environments” IJCSI International Journal of Computer Science Issues, Vol. 4, No. 1, | J.-Y. Tigli, S. Lavirotte, G. Rey, V. Hourdin, M. Riveill, “Context-aware Authorization in Highly Dynamic Environments” IJCSI International Journal of Computer Science Issues, Vol. 4, No. 1, | ||
| September 2009, ISSN (Online): 1694-0784, ISSN (Print): 1694-0814 | September 2009, ISSN (Online): 1694-0784, ISSN (Print): 1694-0814 | ||
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| J.-Y. Tigli, S. Lavirotte, G. Rey, V. Hourdin, D. Cheung, E. Callegari, M. Riveill “WComp middleware for ubiquitous computing: Aspects and composite event-based Web services” dans la revue Annals of Telecommunications, éditeur Springer Paris, ISSN 0003-4347 (Print) | J.-Y. Tigli, S. Lavirotte, G. Rey, V. Hourdin, D. Cheung, E. Callegari, M. Riveill “WComp middleware for ubiquitous computing: Aspects and composite event-based Web services” dans la revue Annals of Telecommunications, éditeur Springer Paris, ISSN 0003-4347 (Print) | ||
| 1958-9395 (Online), Vol. 64, No 3-4, March-April 2009 | 1958-9395 (Online), Vol. 64, No 3-4, March-April 2009 | ||
project_tigli_ubinet_09.1256546326.txt.gz · Dernière modification: 2009/10/26 09:38 par tigli
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