2e0abee73c
First version of web site URL of on-line web site is http://heptagon.gforge.inria.fr The script rsyncweb allows to sync between the repository and the online site (by use of rsync)
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23 KiB
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422 lines
23 KiB
HTML
<h1>publis.bib</h1><a name="Gerard:2012"></a><pre>
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@inproceedings{<a href="publications.html#Gerard:2012">Gerard:2012</a>,
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author = {L{\'e}onard G{\'e}rard and Adrien Guatto and
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C{\'e}dric Pasteur and Marc Pouzet},
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title = {A Modular Memory Optimization for Synchronous
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Data-Flow Languages},
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booktitle = {Proc. of the ACM International Conference on
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Languages, Compilers, Tools and Theory for Embedded
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Systems (LCTES'12)},
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date-added = {2012-07-04 16:11:46 +0200},
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date-modified = {2012-07-04 16:15:18 +0200},
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keywords = {synchronous programming; type system},
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year = 2012,
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month = jun,
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address = {Beijing, China},
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abstract = {The generation of efficient sequential code for
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synchronous data-flow languages raises two
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intertwined issues: control and memory
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optimization. While the former has been extensively
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studied, for instance in the compilation of LUSTRE
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and SIGNAL, the latter has only been addressed in a
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restricted manner. Yet, memory optimization becomes
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a pressing issue when arrays are added to such
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languages. This article presents a two-level
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solution to the memory optimization problem. It
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combines a compile-time optimization algorithm,
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reminiscent of register allocation, paired with
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language annotations on the source given by the
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designer. Annotations express in-place modifications
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and control where allocation is performed. Moreover,
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they allow external functions performing in-place
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modifications to be safely imported. Soundness of
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annotations is guaranteed by a semilinear type
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system and additional scheduling constraints. A key
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feature is that annotations for well-typed programs
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do not change the semantics of the language:
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removing them may lead to less efficient code but
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will not alter the semantics. The method has been
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implemented in a new compiler for a LUSTRE-like
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synchronous language extended with hierarchical
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automata and arrays. Experiments show that the
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proposed approach removes most of the unnecessary
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array copies, resulting in faster code that uses
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less memory. }
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}
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</pre>
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<a name="rr-nemo"></a><pre>
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@misc{<a href="publications.html#rr-nemo">rr-nemo</a>,
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author = {Delaval, G. and Rutten, E.},
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title = {A Domain-Specific Language for Multi-task Systems,
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applying Discrete Controller Synthesis},
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howpublished = {Rapport de recherche INRIA n<>5690},
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month = sep,
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year = 2005,
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/RR-5690.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/RR-5690.pdf</a>},
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ps = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/RR-5690.ps.gz">http://pop-art.inrialpes.fr/people/delaval/pub/RR-5690.ps.gz</a>}
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}
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</pre>
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<a name="delaval06:_domain_specif_languag_multi_system"></a><pre>
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@inproceedings{<a href="publications.html#delaval06:_domain_specif_languag_multi_system">delaval06:_domain_specif_languag_multi_system</a>,
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author = {Delaval, G. and Rutten, E.},
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title = {A Domain-specific Language for Task Handlers
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Generation, Applying Discrete Controller Synthesis},
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booktitle = {SAC '06: Proceedings of the 2006 ACM Symposium on
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Applied computing},
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year = 2006,
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address = {Dijon, France},
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month = apr,
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isbn = {1-59593-108-2},
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pages = {901--905},
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doi = {10.1145/1141277.1141487},
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publisher = {ACM Press},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/article-nemo.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/article-nemo.pdf</a>},
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ps = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/article-nemo.ps.gz">http://pop-art.inrialpes.fr/people/delaval/pub/article-nemo.ps.gz</a>}
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}
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</pre>
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<a name="delaval07:_nemo_jes"></a><pre>
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@article{<a href="publications.html#delaval07:_nemo_jes">delaval07:_nemo_jes</a>,
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author = {Delaval, Gwena<6E>l and Rutten, <20>ric },
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title = {A Domain-Specific Language for Multitask Systems,
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Applying Discrete Controller Synthesis},
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journal = {EURASIP Journal on Embedded Systems},
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year = 2007,
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volume = 2007,
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pages = {Article ID 84192, 17 pages},
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doi = {10.1155/2007/84192},
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abstract = {We propose a simple programming language, called
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Nemo, specific to the domain of multi-task real-time
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control systems, such as in robotic, automotive or
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avionics systems. It can be used to specify a set of
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resources with usage constraints, a set of tasks
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that consume them according to various modes, and
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applications sequencing the tasks. We obtain
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automatically an application-specific task handler
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that correctly manages the constraints (if there
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exists one), through a compilation-like process
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including a phase of discrete controller
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synthesis. This way, this formal technique
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contributes to the safety of the designed systems,
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while being encapsulated in a tool that makes it
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useable by application experts. Our approach is
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based on the synchronous modelling techniques,
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languages and tools.},
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keywords = {real-time systems, safe design, domain-specific
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language, discrete control synthesis, synchronous
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programming},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/nemo-jes2007.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/nemo-jes2007.pdf</a>}
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}
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</pre>
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<a name="delaval10:_contracts_mod_dcs"></a><pre>
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@inproceedings{<a href="publications.html#delaval10:_contracts_mod_dcs">delaval10:_contracts_mod_dcs</a>,
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author = {Delaval, Gwena\"{e}l and Marchand, Herv\'{e} and
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Rutten, \'{E}ric},
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title = {Contracts for Modular Discrete Controller Synthesis},
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booktitle = {ACM International Conference on Languages,
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Compilers, and Tools for Embedded Systems (LCTES
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2010)},
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year = 2010,
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address = {Stockholm, Sweden},
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month = apr,
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abstract = {We describe the extension of a reactive programming
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language with a behavioral contract construct. It
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is dedicated to the programming of reactive control
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of applications in embedded systems, and involves
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principles of the supervisory control of discrete
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event systems. Our contribution is in a language
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approach where modular discrete controller synthesis
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(DCS) is integrated, and it is concretized in the
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encapsulation of DCS into a compilation process.
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From transition system specifications of possible
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behaviors, DCS automatically produces controllers
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that make the controlled system satisfy the property
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given as objective. Our language features and
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compiling technique provide
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correctness-by-construction in that sense, and
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enhance reliability and verifiability. Our
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application domain is adaptive and reconfigurable
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systems: closed-loop adaptation mechanisms enable
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flexible execution of functionalities w.r.t.
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changing resource and environment conditions. Our
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language can serve programming such adaption
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controllers. This paper particularly describes the
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compilation of the language. We present a method
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for the modular application of discrete controller
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synthesis on synchronous programs, and its
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integration in the BZR language. We consider
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structured programs, as a composition of nodes, and
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first apply DCS on particular nodes of the program,
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in order to reduce the complexity of the controller
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computation; then, we allow the abstraction of parts
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of the program for this computation; and finally, we
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show how to recompose the different controllers
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computed from different abstractions for their
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correct co-execution with the initial program. Our
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work is illustrated with examples, and we present
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quantitative results about its implementation.},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/lctes2010.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/lctes2010.pdf</a>}
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}
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</pre>
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<a name="aboubekr09:_prog_lg_adapt_ctr"></a><pre>
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@inproceedings{<a href="publications.html#aboubekr09:_prog_lg_adapt_ctr">aboubekr09:_prog_lg_adapt_ctr</a>,
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author = {Aboubekr, Soufyane and Delaval, Gwena\"{e}l and
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Rutten, \'{E}ric},
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title = {A Programming Language for Adaptation Control: Case
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Study},
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booktitle = {2nd Workshop on Adaptive and Reconfigurable Embedded
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Systems (APRES 2009). ACM SIGBED Review},
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year = 2009,
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volume = 6,
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number = 3,
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address = {Grenoble, France},
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month = oct,
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abstract = {We illustrate an approach for the safe design of
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adaptive embedded systems. It applies the BZR
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programming language, featuring a special new
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contract mechanism: its compilation involves
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automatical discrete controller synthesis. The
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contribution of this paper is to illustrate how it
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can be used to enforce the correct adaptation
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control of the application, meeting execution
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constraints, with the case study of a video module
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of a multimedia cellular phone.},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/apres09.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/apres09.pdf</a>}
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}
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</pre>
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<a name="delaval10:_warm"></a><pre>
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@inproceedings{<a href="publications.html#delaval10:_warm">delaval10:_warm</a>,
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author = {Delaval, Gwena\"{e}l and Rutten, \'{E}ric},
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title = {A Language-Based Approach to the Discrete Control of
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Adaptive Resource Management},
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booktitle = {Workshop on Adaptive Resource Management (WARM
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2010)},
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year = 2010,
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address = {Stockholm, Sweden},
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month = apr,
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abstract = {We present a novel technique for designing discrete
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control loops for adaptive systems. They
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automatically enforce safety properties on the
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interactions between tasks, concerning, e.g., mutual
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exclusions, forbidden or imposed sequences. We use
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a new reactive programming language, with a
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mechanism of behavioural contracts. Its compilation
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involves discrete controller synthesis, which
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automatically generates the correct appropriate
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adaptation controllers. We apply our approach to
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the problem of adaptive ressource management,
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illustrated by the example of a HTTP server.},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/warm10.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/warm10.pdf</a>}
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||
}
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</pre>
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<a name="delaval10:_react_model_based_contr_of"></a><pre>
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@inproceedings{<a href="publications.html#delaval10:_react_model_based_contr_of">delaval10:_react_model_based_contr_of</a>,
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author = {Delaval, Gwena\"{e}l and Rutten, \'{E}ric},
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title = {Reactive model-based control of reconfiguration in
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the Fractal component-based model},
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booktitle = {13th International Symposium on Component Based
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Software Engineering (CBSE 2010)},
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year = 2010,
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address = {Prague, Czech Republic},
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month = jun,
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abstract = {We present a technique for designing reconfiguration
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controllers in the Fractal component-based
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framework. We obtain discrete control loops that
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automatically enforce safety properties on the
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interactions between components, concerning, e.g.,
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mutual exclusions, forbidden or imposed sequences.
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We use a reactive programming language, with a new
|
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mechanism of behavioural contracts. Its compilation
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involves discrete controller synthesis, which
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automatically generates the correct adaptation
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controllers. We apply our approach to the problem
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of adaptive ressource management, illustrated by the
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example of a HTTP server.},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/delaval-cbse10.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/delaval-cbse10.pdf</a>}
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}
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</pre>
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<a name="gcm10:_qos_energ_coord_dcs"></a><pre>
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@inproceedings{<a href="publications.html#gcm10:_qos_energ_coord_dcs">gcm10:_qos_energ_coord_dcs</a>,
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author = {{De Palma}, No\"{e}l and Delaval, Gwena\"{e}l and
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||
Rutten, \'{E}ric},
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||
title = {QoS and Energy Management Coordination using
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Discrete Controller Synthesis},
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||
booktitle = {1st International Workshop on Green Computing
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||
Middleware (GCM'2010)},
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year = 2010,
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||
address = {Bangalore, India},
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month = nov,
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abstract = {Green computing is nowadays a major challenge for
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most IT organizations. Administrators have to
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manage the trade-off between system performances and
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energy saving goals. Autonomic computing is a
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promising approach to control the QoS and the energy
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consumed by a system. This paper precisely
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investigates the use of synchronous programming and
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discrete controller synthesis to automate the
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generation of a controller that enforces the
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required coordination between QoS and energy
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managers. We illustrate our approach by describing
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the coordination between a simple admission
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controller and an energy controller.},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/delaval-gcm10.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/delaval-gcm10.pdf</a>}
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||
}
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</pre>
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<a name="aboubekr11:_autom"></a><pre>
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@inproceedings{<a href="publications.html#aboubekr11:_autom">aboubekr11:_autom</a>,
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author = {S. Aboubekr and G. Delaval and R. Pissard-Gibollet
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and {\'E}. Rutten and D. Simon},
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title = {Automatic generation of discrete handlers of
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real-time continuous control tasks},
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booktitle = {Proc. 18th World Congress of the International
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||
Federation of Automatic Control (IFAC)},
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||
address = {Milano, Italy},
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month = aug,
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year = 2011,
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abstract = {We present a novel technique for designing discrete,
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logical control loops, on top of continuous control
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tasks, ensuring logical safety properties of the
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tasks sequencings and mode changes. We define this
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new handler on top of the real-time executives built
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with the Orccad design environment for control
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systems, which is applied, e.g. to robotics and
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real-time networked control. It features structures
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of control tasks, each equipped with a local
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automaton, used for the reactive, event-based
|
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management of its activity and modes. The
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additional discrete handler manages the interactions
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between tasks, concerning, e.g., mutual exclusions,
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forbidden or imposed sequences. We use a new
|
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reactive programming language, with constructs for
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finite-state machines and data-flow nodes, and a
|
||
mechanism of behavioral contracts, which involves
|
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discrete controller synthesis. The result is a
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discrete control loop, on top of the continuous
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control loops, all integrated in a coherent
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real-time architecture. Our approach is illustrated
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and validated experimentally with the case study of
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a robot arm. },
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/bzrccad.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/bzrccad.pdf</a>}
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||
}
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</pre>
|
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|
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<a name="boyer11:_discr_contr_auton_system"></a><pre>
|
||
@inproceedings{<a href="publications.html#boyer11:_discr_contr_auton_system">boyer11:_discr_contr_auton_system</a>,
|
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author = {Fabienne Boyer and No\"{e}l De Palma and Gwena\"{e}l
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Delaval and Olivier Gruber and Eric Rutten},
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title = {Case Studies in Discrete Control for Autonomic
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System Administration },
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booktitle = {Sixth International Workshop on Feedback Control
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Implementation and Design in Computing Systems and
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Networks (FeBID 2011)},
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year = 2011,
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address = {Karlsruhe, Germany},
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month = jun,
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abstract = {This paper presents examples of autonomic system
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administration issues that can be addressed and
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solved as discrete control problems. This shows
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evidence of the relevance of control techniques for
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the discrete aspects of closed-loop control of
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computing systems. The model-based control of
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adaptive and reconfigurable systems is considered via
|
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a reactive programming language, based on discrete
|
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controller synthesis (DCS) techniques. We identify
|
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control problems in autonomic systems belonging to
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the class of logical, discrete systems, and
|
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illustrate how to solve them using DCS.},
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pdf = {<a href="http://pop-art.inrialpes.fr/people/delaval/pub/febid2011.pdf">http://pop-art.inrialpes.fr/people/delaval/pub/febid2011.pdf</a>}
|
||
}
|
||
</pre>
|
||
|
||
<a name="bouhadiba11:_sdc_fract"></a><pre>
|
||
@techreport{<a href="publications.html#bouhadiba11:_sdc_fract">bouhadiba11:_sdc_fract</a>,
|
||
hal_id = {inria-00596883},
|
||
url = {<a href="http://hal.inria.fr/inria-00596883/en/">http://hal.inria.fr/inria-00596883/en/</a>},
|
||
title = {Synchronous Control of Reconfiguration in Fractal
|
||
Component-based Systems -- a Case Study},
|
||
author = {Bouhadiba, Tayeb and Sabah, Quentin and Delaval,
|
||
Gwena{\"e}l and Rutten, \'Eric},
|
||
abstract = {{In the context of component-based embedded systems,
|
||
the management of dynamic reconfiguration in
|
||
adaptive systems is an increasingly important
|
||
feature. The Fractal component-based framework, and
|
||
its industrial instantiation MIND, provide for
|
||
support for control operations in the lifecycle of
|
||
components. Nevertheless, the use of complex and
|
||
integrated architectures make the management of this
|
||
reconfiguration operations difficult to handle by
|
||
programmers. To address this issue, we propose to
|
||
use Synchronous languages, which are a complete
|
||
approach to the design of reactive systems, based on
|
||
behavior models in the form of transition
|
||
systems. Furthermore, the design of closed-loop
|
||
reactive managers of reconfigurations can benefit
|
||
from formal tools like Discrete Controller
|
||
Synthesis. In this paper we describe an approach to
|
||
concretely integrate synchronous reconfiguration
|
||
managers in Fractal component-based systems. We
|
||
describe how to model the state space of the control
|
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problem, and how to specify the control
|
||
objectives. We describe the implementation of the
|
||
resulting manager with the Fractal/Cecilia
|
||
programming environment, taking advantage of the
|
||
Comete distributed middleware. We illustrate and
|
||
validate it with the case study of the Comanche HTTP
|
||
server on a multi-core execution platform.}},
|
||
keywords = {Component-based systems, synchronous programming,
|
||
reconfigurable systems, discrete controller
|
||
synthesis.},
|
||
language = {Anglais},
|
||
affiliation = {SARDES - INRIA Grenoble Rh{\^o}ne-Alpes / LIG
|
||
Laboratoire d'Informatique de Grenoble - INRIA -
|
||
Institut National Polytechnique de Grenoble - INPG -
|
||
Universit\'e Joseph Fourier - Grenoble I -
|
||
Universit\'e Pierre Mend\`es-France - Grenoble II -
|
||
CNRS : UMR5217},
|
||
pages = 31,
|
||
type = {Rapport de recherche},
|
||
institution = {INRIA},
|
||
number = {RR-7631},
|
||
year = 2011,
|
||
month = may,
|
||
pdf = {<a href="http://hal.inria.fr/inria-00596883/PDF/RR-7631.pdf">http://hal.inria.fr/inria-00596883/PDF/RR-7631.pdf</a>}
|
||
}
|
||
</pre>
|
||
|
||
<a name="gamatie09:_case_study_contr_synth_for"></a><pre>
|
||
@inproceedings{<a href="publications.html#gamatie09:_case_study_contr_synth_for">gamatie09:_case_study_contr_synth_for</a>,
|
||
author = {Gamati\'e, Abdoulaye and Yu, Huafeng and Delaval,
|
||
Gwena\"el and Rutten, \'Eric},
|
||
title = {A Case Study on Controller Synthesis for
|
||
Data-Intensive Embedded Systems},
|
||
booktitle = {Proceedings of the 6th IEEE International Conference
|
||
on Embedded Software and Systems (ICESS'2009)},
|
||
year = 2009,
|
||
address = {HangZhou, Zhejiang, China},
|
||
month = may,
|
||
abstract = {This paper presents an approach for the safe design
|
||
of data-intensive embedded systems. A multimedia
|
||
application module of last generation cellular
|
||
phones is considered as a case study. The OMG
|
||
standard profile MARTE is used to adequately model
|
||
the application. The resulting model is then
|
||
transformed into a synchronous program from which a
|
||
controller is synthesized by using a formal
|
||
technique, in order to enforce the safe behavior of
|
||
the modeled application while meeting quality of
|
||
service requirements. The whole study is carried out
|
||
in a design framework, GASPARD, dedicated to
|
||
high-performance embedded systems.}
|
||
}
|
||
</pre>
|
||
|
||
<hr><p><em>This file was generated by
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<a href="http://www.lri.fr/~filliatr/bibtex2html/">bibtex2html</a> 1.95.</em></p>
|