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- | ===== Tutorial 1 : How to Design Components in a Middleware for Ubiquitous Computing WComp 2.0 ===== | + | ===== Part 1 : How to Design Components in a Middleware for Ubiquitous Computing WComp 2.0 ===== |
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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” in Annals of Telecommunications, éditeur Springer Paris, ISSN 0003-4347 (Print) 1958-9395 (Online), Vol. 64, No 3-4, March-April 2009, {{http://www.springerlink.com/content/x833j0143h133v67/fulltext.pdf|paper}}. | * 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” in Annals of Telecommunications, éditeur Springer Paris, ISSN 0003-4347 (Print) 1958-9395 (Online), Vol. 64, No 3-4, March-April 2009, {{http://www.springerlink.com/content/x833j0143h133v67/fulltext.pdf|paper}}. | ||
- | ===== Tutorial 2 : How to Design Proved Components in WComp Middleware ===== | + | ===== Part 2 : How to Design Proved Components in WComp Middleware ===== |
* Documentation for the tutorial 3 " Verification with Lustre and Lesar " : [[http://rainbow.i3s.unice.fr/~tigli/cours/MUC/Lecture2/Tutorial3_MUC_Ubinet_2010_Doc.pdf|Tutorial 3, Verification with Lustre and Lesar]] | * Documentation for the tutorial 3 " Verification with Lustre and Lesar " : [[http://rainbow.i3s.unice.fr/~tigli/cours/MUC/Lecture2/Tutorial3_MUC_Ubinet_2010_Doc.pdf|Tutorial 3, Verification with Lustre and Lesar]] | ||
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* Documentation for the tutorial 2 "Creating an advanced Component in WComp 2.0" : [[http://rainbow.i3s.unice.fr/~tigli/cours/MUC/Lecture2/Tutorial2_MUC_Ubinet_2010_Doc.pdf|Tutorial 2, Creating an advanced Component in WComp 2.0]] | * Documentation for the tutorial 2 "Creating an advanced Component in WComp 2.0" : [[http://rainbow.i3s.unice.fr/~tigli/cours/MUC/Lecture2/Tutorial2_MUC_Ubinet_2010_Doc.pdf|Tutorial 2, Creating an advanced Component in WComp 2.0]] | ||
+ | ===== Part 3 : Student Projects ===== | ||
+ | |||
+ | Students must provide : | ||
+ | * A Proved Bean Component (lustre checked code, corresponding C code generated, corresponding Bean code) | ||
+ | * A sample WComp assembly to illustrate how this proved component works. | ||
+ | * A document with all necessary explanations | ||
+ | |||
+ | Put all these files and documents on a web site and send them to JY Tigli before february, the 1st, 2010. | ||
+ | |||
+ | |||
+ | Deadline : february, the 1st, 2010 | ||
+ | |||
+ | ^ Student Name ^ Cursus (SI5 / Uibnet) ^ Project Number ^ Project Titlte ^ Subject ^ | ||
+ | | | | 0 | Barrier | A barrier is a type of synchronization method. A barrier for a group of event means any event must stop at this point and cannot proceed until all other events reach this barrier | | ||
+ | | | | 1 | Lock | A lock is a synchronization mechanism for enforcing limits on access to a resource in an environment where there are many threads of execution. Locks are one way of enforcing concurrency control policies. Only one event is emitted at at time | | ||
+ | | | | 2 | Arbitration | Arbitration between input events | | ||
+ | | | | 3 | Average | Average value is emitted from the values of input events | | ||
+ | | | | 4 | Moving average | Average value is emitted from the values of input events | | ||
+ | | | | 5* | Function* Allaccess | returned value of one external DLL function is emitted when all value parameters are available (triggered on all input events) | | ||
+ | | | | 6* | Function* Oneaccess | returned value of one external DLL function is emitted as soon as at least on value parameter is available (triggered on one input events) | | ||
+ | | | | 7* | Function* Thisaccess | returned value of one external DLL function is emitted as soon as one specific event arrive (triggered on one specific input events) | | ||
+ | | | | 8* | Function* AllaccessNewvalue | new returned value of one external DLL function is emitted when all value parameters are available (triggered on all input events and state change) | | ||
+ | | | | 9* | Function* OneaccessNewvalue | new returned value of one external DLL function is emitted as soon as at least on value parameter is available (triggered on one input events and state change ) | | ||
+ | | | | 10* | Function* OneaccessNewvalue | new returned value of one external DLL function is emitted as soon as one specific event arrive (triggered on one specific input events and state change) | | ||
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