Plsek08-ISOR

Summary

A Real-Time Java Component Model. Ales Plsek, Philippe Merle and Lionel Seinturier. In Proceedings of the 11th International Symposium on Object/Component/Service-oriented Real-Time Distributed Computing (ISORC'08), pages 281-288, Orlando, Florida, USA, May 2008. (Acceptance rate : 33\%, 29/85).

Abstract

Real-Time Specification for Java (RTSJ) is becoming a popular choice in the world of real-time programming. However, the complexities introduced by RTSJ bring needs for an extensive framework comprising all the aspects of RTSJ development. As the first contribution of this paper we present a real-time component model directly fitting the needs of RTSJ. Our motivation is to clearly separate real-time and business concerns of applications. We further argue that RTSJ concerns need to be considered at early stages of architecture design in order to mitigate the complexities of the implementation phase. Therefore, as our second contribution, we propose a design process introducing gradually RTSJ concepts into the architecture. We are thus able to alleviate the development of real-time systems and to tailor them for different real-time conditions. Finally, we demonstrate the feasibility of our solution on an example scenario.

Bibtex entry

@INPROCEEDINGS { Plsek08-ISOR,
    AUTHOR = { Ales Plsek and Philippe Merle and Lionel Seinturier },
    TITLE = { {A Real-Time Java Component Model} },
    BOOKTITLE = { Proceedings of the 11th International Symposium on Object/Component/Service-oriented Real-Time Distributed Computing (ISORC'08) },
    PAGES = { 281--288 },
    YEAR = { 2008 },
    ADDRESS = { Orlando, Florida, USA },
    MONTH = { may },
    PUBLISHER = { IEEE CS Press },
    ABSTRACT = { Real-Time Specification for Java (RTSJ) is becoming a popular choice in the world of real-time programming. However, the complexities introduced by RTSJ bring needs for an extensive framework comprising all the aspects of RTSJ development. As the first contribution of this paper we present a real-time component model directly fitting the needs of RTSJ. Our motivation is to clearly separate real-time and business concerns of applications. We further argue that RTSJ concerns need to be considered at early stages of architecture design in order to mitigate the complexities of the implementation phase. Therefore, as our second contribution, we propose a design process introducing gradually RTSJ concepts into the architecture. We are thus able to alleviate the development of real-time systems and to tailor them for different real-time conditions. Finally, we demonstrate the feasibility of our solution on an example scenario. },
    READ = { notread },
    OWN = { notown },
    LASTNAME = { Plsek },
    LASTDATEMODIFIED = { 2008-02-04 },
    LABO = { dans },
    INRIA = { ADAM },
    AERES = { ACT },
    RATE = { 33\% },
    NOTE = { Acceptance rate : 33\%, 29/85 },
    BOARD = { yes },
    PROCEEDINGS = { yes },
    AUDIENCE = { yes },
    URL = { http://hal.inria.fr/inria-00222039 },
}