Model Driven Design of Reliable Robot Control Programs Using the jABC

Fourth IEEE International Workshop on Engineering of Autonomic and Autonomous Systems (EASe'07) Pub Date : 2007-03-26 DOI:10.1109/EASE.2007.17

S. Jorges, C. Kubczak, F. Pageau, T. Margaria

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引用次数: 21

Abstract

Developing robot control applications is a software engineering domain that still relies on low-level development tools with limited testing capabilities. The Java application building center (jABC), a framework for model-based application development that supports the modelling process of service-oriented software applications, on the contrary offers a number of early error detection mechanisms like animation, analysis, simulation, and formal verification. We investigate the adequacy of jABC to model, verify and implement robot control applications in a model driven paradigm, and aim at addressing the design of software for autonomous robots for space missions later on. Being able to model and verify their reconfiguration behaviour before launching them is of central importance there. We developed a proof-of-concept application that controls a Legoreg Mindstormstrade robot which finds its way through a maze. As this maze may change dynamically, the robot must be capable of reacting and adjusting its behaviour. This application was completely modelled, verified, and generated with the jABC

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基于jABC的可靠机器人控制程序的模型驱动设计

开发机器人控制应用程序是一个软件工程领域，仍然依赖于测试能力有限的低级开发工具。Java应用程序构建中心(jABC)是一个用于基于模型的应用程序开发的框架，它支持面向服务的软件应用程序的建模过程，相反，它提供了许多早期错误检测机制，如动画、分析、模拟和形式化验证。我们研究了jABC在模型驱动范例中建模、验证和实现机器人控制应用的充分性，并旨在解决以后用于空间任务的自主机器人的软件设计问题。在启动它们之前，能够对它们的重新配置行为进行建模和验证是至关重要的。我们开发了一个概念验证应用程序，可以控制一个乐高Mindstormstrade机器人，让它在迷宫中找到自己的路。由于这个迷宫可能会动态变化，机器人必须能够做出反应并调整自己的行为。这个应用程序是用jABC完全建模、验证和生成的

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Fourth IEEE International Workshop on Engineering of Autonomic and Autonomous Systems (EASe'07)

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