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引用次数: 4
摘要
无人驾驶车辆系统在军事和民用应用中变得越来越普遍,这些任务的繁琐重复和危险性质使它们不可或缺。自然的发展是赋予这些交通工具自主权。在这种情况下,最终的机器人必须能够自己处理意外情况,更重要的是,实时处理。作为一个案例研究,我们关注的是机器人群,我们将其定义为机器人在信息中保持彼此接近,而不会与邻居和障碍物发生碰撞的能力。我们首先在MathWorks Matlab™中建模和模拟可能的群解决方案,然后继续更改算法,以便可以导出作为有限状态机(FSM)编写的控制器。然后,我们使用IBM Rational Rose Real-Time™(RoseRT)按照模型驱动开发(MDD)的形式化来模拟实现这样一个控制器。
Control of swarms of autonomous robots using Model Driven Development - A state-based approach
Unmanned vehicular systems are becoming increasingly pervasive in military and civilian applications where the tedious repetitive and hazardous nature of the tasks make them indispensable. A natural progression is to bestow autonomy upon these vehicles. In this case, the resultant robots must be able to deal with unexpected circumstances on their own and, more importantly, in real-time. As a case study we focus on swarms of robots, we define as the capability of robots to keep close to each other in formation, without colliding with neighbors and obstacles. We start by modeling and simulating a possible swarm solution in MathWorks Matlab™ and, then, moving on to change the algorithm in such a way that a controller written as a Finite State Machine (FSM) may be derived. We then use IBM Rational Rose Real-Time™ (RoseRT) to implement such a controller in emulation following the formalism of Model-Driven Development (MDD).
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