Robotic lake lander test bed for autonomous surface and subsurface exploration of Titan lakes

Wolfgang Fink, Markus Tuller, Alexander D. Jacobs, Ramaprasad Kulkarni, M. Tarbell, R. Furfaro, Victor R. Baker
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引用次数: 7

Abstract

We introduce a robotic lake lander test bed that can be operated either stand-alone or as part of a Tier-Scalable Reconnaissance mission architecture to study and field test an integrated hardware and software framework for fully autonomous surface and subsurface exploration and navigation of liquid bodies. The lake lander is equipped with both surface and subsurface sensor technologies. Our particular focus is on Saturn's moon Titan with its hydrocarbon lakes with respect to future missions involving lake landers (e.g., Titan Mare Explorer (TiME) mission), potentially in conjunction with balloons/airships and orbiter-support overhead. This test bed serves as an analog to a Titan unpiloted surface vessel equipped with its own onboard realtime navigation and hazard avoidance system, surface and subsurface exploration sensor suite, and autonomous science investigation software system. As such the test bed helps map out a technical path toward true autonomy for the robotic exploration of the Solar System.
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土卫六湖泊自主地表和地下探测的机器人湖泊着陆器试验台
我们推出了一个机器人湖泊着陆器测试平台,可以独立运行,也可以作为分层可扩展侦察任务架构的一部分,用于研究和现场测试一个集成的硬件和软件框架,用于完全自主的地表和地下探测和液体体导航。湖泊着陆器配备了表面和地下传感器技术。我们特别关注的是土星的卫星土卫六及其碳氢化合物湖泊,以及未来涉及湖泊着陆器的任务(例如,土卫六海洋探索者(TiME)任务),可能与气球/飞艇和轨道器支持一起使用。该试验台可模拟Titan无人驾驶水面舰艇,配备自带的实时导航和危险规避系统、地面和地下探测传感器套件以及自主科学调查软件系统。因此,这个试验台有助于为机器人探索太阳系指明一条通往真正自主的技术道路。
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