Brade, Tino; Schulze, Michael; Zug, Sebastian; Kaiser, Jörg
Model-Driven Development of Embedded Systems (Inproceeding)
12th Brazilian Workshop on Real-Time and Embedded Systems (WTR), Brazilian Computer Society, Gramado, Brazil, 2010.
(Abstract | BibTeX | Tags: Embedded Systems, Model Driven Development)
@inproceedings{EOS-2010.000-BSZK,
title = {Model-Driven Development of Embedded Systems},
author = {Tino Brade and Michael Schulze and Sebastian Zug and Jörg Kaiser},
year = {2010},
date = {2010-05-24},
booktitle = {12th Brazilian Workshop on Real-Time and Embedded Systems (WTR)},
publisher = {Brazilian Computer Society},
address = {Gramado, Brazil},
abstract = {Distributed mechatronic applications integrate sensors, processing units, communication, and actuators. In order to achieve a rapid development process and an improved maintainability it is necessary to combine and replace such modular components flexibly. For seamless composability we developed a communication middleware and a common programming abstraction for distributed nodes. In this paper we combine the abstractions with an electronic description of sensors and platforms and present a comprehensive development toolchain for smart embedded devices based on the common Matlab/Simulink package. Following this approach, the user defines the capabilities of a device within an electronic data sheet, integrates the functionality using a domain-specific tool box, and generates the code for an embedded system.},
keywords = {Embedded Systems, Model Driven Development}
}
Distributed mechatronic applications integrate sensors, processing units, communication, and actuators. In order to achieve a rapid development process and an improved maintainability it is necessary to combine and replace such modular components flexibly. For seamless composability we developed a communication middleware and a common programming abstraction for distributed nodes. In this paper we combine the abstractions with an electronic description of sensors and platforms and present a comprehensive development toolchain for smart embedded devices based on the common Matlab/Simulink package. Following this approach, the user defines the capabilities of a device within an electronic data sheet, integrates the functionality using a domain-specific tool box, and generates the code for an embedded system.
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