“Generic-Events Architecture: Integrating real-world aspects in event-based systems”

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{{Publication
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|type=incollection
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|title=Generic-Events Architecture: Integrating real-world aspects in event-based systems
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|author=António Casimiro, Jörg Kaiser, Paulo Veríssimo
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|Project=Project:HIDENETS
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|ResearchLine=Timeliness and Adaptation in Dependable Systems (TADS)
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|month=jun
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        Generic-Events Architecture: Integrating real-world aspects in event-based systems
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|year=2007
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|author=
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|abstract=In a future networked physical world, a myriad of smart sensors and actuators assess and control aspects of their environments and autonomously act in response to it. To a large extent, such systems operate proactively and independently of direct human control. They include computer hardware and software parts mixed with mechanical devices. Besides the regular computer communication channels, they also establish interaction channels among them directly through the environment. These characteristics pose a number of fundamentally new consistency and correctness challenges which, if not met, may hinder the dependability of such systems, and ultimately lead to unexpected failures.
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        António Casimiro, Jörg Kaiser, Paulo Veríssimo
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        http://www.navigators.di.fc.ul.pt/archive/papers/ads4book.pdf
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|abstract=
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        In a future networked physical world, a myriad of smart sensors and actuators assess and control aspects of their environments and autonomously act in response to it. To a large extent, such systems operate proactively and independently of direct human control. They include computer hardware and software parts mixed with mechanical devices. Besides the regular computer communication channels, they also establish interaction channels among them directly through the environment. These characteristics pose a number of fundamentally new consistency and correctness challenges which, if not met, may hinder the dependability of such systems, and ultimately lead to unexpected failures.
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This paper describes an architectural framework and eventmodel capable of solving these pressing problems. Firstly, we offer an innovative composable object model representing software/hardware entities capable of interacting with the environment. Secondly, we provide event-based communication seamlessly integrating real-world events and events generated in the system. The crucial parts of our work are the generic-events architecture GEAR, hosting the COSMIC middleware supporting the events model, with attributes to express spatial and temporal properties.
This paper describes an architectural framework and eventmodel capable of solving these pressing problems. Firstly, we offer an innovative composable object model representing software/hardware entities capable of interacting with the environment. Secondly, we provide event-based communication seamlessly integrating real-world events and events generated in the system. The crucial parts of our work are the generic-events architecture GEAR, hosting the COSMIC middleware supporting the events model, with attributes to express spatial and temporal properties.
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|type=
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|booktitle=Architecting Dependable Systems IV
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        incollection
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|editor=Rogério de Lemos, Cristina Gacek, Alexander Romanovsky
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|booktitle=
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|volume=4615
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        Architecting Dependable Systems IV, LNCS 4615, Rogério de Lemos, Cristina Gacek and Alexander Romanovsky (Eds.), 2007
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|publisher=Springer
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|month=
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|series=LNCS
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        jun
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|url=http://www.navigators.di.fc.ul.pt/archive/papers/ads4book.pdf
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|year=
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        2007
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|Project=
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        Project:HIDENETS
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|ResearchLine=
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        Timeliness and Adaptation in Dependable Systems (TADS)
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}}
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Latest revision as of 17:06, 14 January 2013

António Casimiro, Jörg Kaiser, Paulo Veríssimo

in Architecting Dependable Systems IV, Rogério de Lemos, Cristina Gacek, Alexander Romanovsky, Eds., ser. LNCS

Springer, Jun. 2007, vol. 4615.

Abstract: In a future networked physical world, a myriad of smart sensors and actuators assess and control aspects of their environments and autonomously act in response to it. To a large extent, such systems operate proactively and independently of direct human control. They include computer hardware and software parts mixed with mechanical devices. Besides the regular computer communication channels, they also establish interaction channels among them directly through the environment. These characteristics pose a number of fundamentally new consistency and correctness challenges which, if not met, may hinder the dependability of such systems, and ultimately lead to unexpected failures. This paper describes an architectural framework and eventmodel capable of solving these pressing problems. Firstly, we offer an innovative composable object model representing software/hardware entities capable of interacting with the environment. Secondly, we provide event-based communication seamlessly integrating real-world events and events generated in the system. The crucial parts of our work are the generic-events architecture GEAR, hosting the COSMIC middleware supporting the events model, with attributes to express spatial and temporal properties.

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Project(s): Project:HIDENETS

Research line(s): Timeliness and Adaptation in Dependable Systems (TADS)

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