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首页> 外文会议>International Astronautical Congress >HUMAN EXPLORATION OF THE SOLAR SYSTEM SYMPOSIUM (A5) Joint session on Human and Robotic Partnerships to Realize Human Spaceflight Goals (3-B3.6):OPTIMIZING SCIENTIFIC RETURN FOR ROBOTIC-HUMAN LUNAR EXPLORATION: CASE STUDY IMPACTS LUNAR SAMPLE RETURN (ILSR) ANALOGUE MISSION PROGRAM
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HUMAN EXPLORATION OF THE SOLAR SYSTEM SYMPOSIUM (A5) Joint session on Human and Robotic Partnerships to Realize Human Spaceflight Goals (3-B3.6):OPTIMIZING SCIENTIFIC RETURN FOR ROBOTIC-HUMAN LUNAR EXPLORATION: CASE STUDY IMPACTS LUNAR SAMPLE RETURN (ILSR) ANALOGUE MISSION PROGRAM

机译:人力系统研讨会(A5)联合会议关于人类和机器人伙伴关系,实现人类航天目标(3-B3.6):优化科学返回机器人的月球探测:案例研究会影响月球样本返回(ILSR)模拟任务计划

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Geological exploration of Earth's moon is a key priority as outlined in the Global Exploration Roadmap created by 12 space agencies. Robotic missions followed by human exploration missions have been proposed as an effective strategy for lunar surface exploration. Successive Apollo missions demonstrated that the only constant factor is change. There is a need to design-in the expectation and ability for constant capability upgrades during and between missions; a long sequence of steps involving hardware, procedure,and operational testing and verification is needed before "normal operations" is obtained. Analogue mission simulations provide testing grounds on Earth and provide a means to safely prepare and advance lunar scientific instruments, enabling technologies, exploration strategies, system designs, and mission concepts. To prepare and test protocols for future lunar sample return missions, our team carried out two analogue missions at the Mistastin Lake impact structure, Canada, as part of a campaign entitled Impacts: Lunar Sample Return (ILSR) funded by the Canadian Space Agency - Mistastin is an exceptional geological lunar analogue with anorthosite and preserved impact ejecta deposits. The first analogue mission involved a simulated robotic surveying of selected "landing sites" at the Mistastin Lake impact structure. A second included simulated astronaut surface operations. A mission control team, based at the University of Western Ontario, 1900 km from the field site, oversaw operations. Our study focuses on two broad technical and operational objectives that are expected to affect scientific return, based on best practices from terrestrial geological fieldwork, including: ? to develop mapping, sampling, and analytical protocols for human lunar exploration; ? to develop geological prospecting tools and data management considerations for future human lunar missions. A comprehensive evaluation plan was developed that linked activities with necessary observations to be made which would address these objectives. Analogue mission data products that were collected and reviewed included, daily reports by analogue mission leads, feedback from team meetings, and notes collected by embedded observers, referred to as Documentarians. The Documentarians did not participate in other aspects of the mission. By implementing a rigorous evaluation plan, lessons learned could be supported from multiple perspectives.
机译:地球月亮的地质勘探是由12个太空机构创建的全球勘探路线图中概述的关键优先事项。已经提出了人为勘探任务的机器人任务作为月球表面勘探的有效策略。连续的阿波罗任务表明唯一的恒定因素是改变的。需要设计 - 在任务期间和之间的恒定能力升级的期望和能力;在获得“正常操作”之前需要涉及硬件,程序和操作测试和验证的长期步骤。模拟使命仿真在地球上提供测试场所,并提供安全地准备和推进农历仪器的手段,实现技术,探索策略,系统设计和使命概念。为了为未来的月球样本返回任务做好准备和测试协议,我们的团队在加拿大Mistastin Lake Impact Surruction的两种模拟任务中,作为题为影响的活动:由加拿大空间局 - Mistastin资助的Lunar样本返回(ILSR)是一种特殊的地质月球性血清模拟,具有稳健性和保存的冲击喷射物沉积物。第一个模拟任务涉及在Mistastin Lake Impact Comput结构中对所选“着陆部位”的模拟机器人测量。第二个包括模拟宇航员表面操作。基于Antario大学的任务控制团队,距离现场有1900公里,监督业务。我们的研究侧重于两种广泛的技术和运营目标,这些目标预计将根据陆地地质实地工作的最佳实践,包括:?为人类月球探索开发映射,抽样和分析协议;还是为未来的人类月球任务制定地质勘探工具和数据管理考虑因素。制定了一个综合评估计划,即将有限的活动与必要的意见进行了联系,这些活动将解决这些目标。模拟使命数据产品被收集和审查,通过模拟使命导致的日常报告,团队会议的反馈以及由嵌入式观察员收集的笔记,称为纪录片。纪录片没有参加特派团的其他方面。通过实施严格的评估计划,可以从多个角度支持学习的经验教训。

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