WARA-PS: a research arena for public safety demonstrations and autonomous collaborative rescue robotics experimentation

Olov Andersson, Patrick Doherty, Mårten Lager, Jens-Olof Lindh, Linnea Persson, Elin A. Topp, Jesper Tordenlid, Bo Wahlberg
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Abstract

A research arena (WARA-PS) for sensing, data fusion, user interaction, planning and control of collaborative autonomous aerial and surface vehicles in public safety applications is presented. The objective is to demonstrate scientific discoveries and to generate new directions for future research on autonomous systems for societal challenges. The enabler is a computational infrastructure with a core system architecture for industrial and academic collaboration. This includes a control and command system together with a framework for planning and executing tasks for unmanned surface vehicles and aerial vehicles. The motivating application for the demonstration is marine search and rescue operations. A state-of-art delegation framework for the mission planning together with three specific applications is also presented. The first one concerns model predictive control for cooperative rendezvous of autonomous unmanned aerial and surface vehicles. The second project is about learning to make safe real-time decisions under uncertainty for autonomous vehicles, and the third one is on robust terrain-aided navigation through sensor fusion and virtual reality tele-operation to support a GPS-free positioning system in marine environments. The research results have been experimentally evaluated and demonstrated to industry and public sector audiences at a marine test facility. It would be most difficult to do experiments on this large scale without the WARA-PS research arena. Furthermore, these demonstrator activities have resulted in effective research dissemination with high public visibility, business impact and new research collaborations between academia and industry.

WARA-PS:公共安全演示和自主协作救援机器人实验的研究场所
介绍了公共安全应用中协同自主空中和地面飞行器的传感、数据融合、用户交互、规划和控制的研究领域(WARA-PS)。其目的是展示科学发现,并为未来研究自主系统应对社会挑战提供新方向。其推动因素是一个具有核心系统架构的计算基础设施,用于工业和学术合作。这包括一个控制和指挥系统,以及一个用于规划和执行无人水面飞行器和空中飞行器任务的框架。演示的激励应用是海上搜救行动。此外,还介绍了任务规划的最新授权框架以及三个具体应用。第一个项目涉及自主无人驾驶飞行器和水面飞行器合作会合的模型预测控制。第二个项目是学习在不确定情况下为自主飞行器做出安全的实时决策,第三个项目是通过传感器融合和虚拟现实远程操作实现稳健的地形辅助导航,以支持海洋环境中的无 GPS 定位系统。研究成果已经过实验评估,并在海洋测试设施中向工业界和公共部门的受众进行了展示。如果没有 WARA-PS 研究平台,很难进行如此大规模的实验。此外,这些示范活动还有效地传播了研究成果,提高了公众知名度,产生了商业影响,并在学术界和产业界之间建立了新的研究合作关系。
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