This paper addresses the problem of mission control of unmanned underwater vehicles (UUVs) through the Internet. Its main focus is on the integration of a Petri Net based mission control system developed by the Istituto Superior Tecnico using the CORAL environment, with the control system of ROMEO, a prototype ROV developed by the Robotics Department of CNR-IAN. The system has been evaluated when controlling ROMEO's missions directly from Lisbon in the underwater virtual world (UVW) in the IAN lab and in a pool in Genoa. In particular, the reliability of the Internet connection has been verified and the constraints introduced by communication delays have been examined. This research and development effort aims at contributing to the development of reliable mission control systems for the operation of robotic ocean vehicles at a distance, over communication channels that may experience considerable delays. This is a subject of great relevance, in view of the widespread interest in the development of systems to allow a scientific end-user to program, execute, and follow the state of progress of robotic vehicle missions at sea from the comfort of his/her laboratory.
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机译:本文通过互联网解决了无人水下航行器(UUV)的任务控制问题。它的主要重点是将由Istituto Superior Tecnico使用CORAL环境开发的基于Petri Net的任务控制系统与由CNR-IAN机器人部门开发的原型ROV ROMEO的控制系统进行集成。在IAN实验室和热那亚的一个游泳池中直接从里斯本控制水下虚拟世界(UVW)中的ROMEO的任务时,已经对该系统进行了评估。特别是,已经验证了Internet连接的可靠性,并检查了由通信延迟引起的约束。这项研究和开发工作旨在为可靠的任务控制系统的开发做出贡献,该系统通过可能经历相当长的延迟的通信通道远距离操作海洋机器人。鉴于人们对系统的开发具有广泛兴趣,以使科学的最终用户能够舒适地编程,执行和跟踪海上机器人飞行任务的进展状况,因此这是一个非常相关的主题实验室。
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