自主探测行星体的分层可扩展侦察任务

Wolfgang Fink, J. Dohm, M. Tarbell, T. Hare, V. Baker, D. Schulze‐Makuch, R. Furfaro, A. Fairén, T. Ferré, H. Miyamoto, G. Komatsu, W. Mahaney
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引用次数: 41

摘要

一种全新的(科学的)侦察任务概念,称为分层可扩展侦察,用于远程行星(包括地球)的大气、地表和地下探测,最近已经被设计出来,很快将取代过去的工程和安全限制任务设计,允许最佳地获取金星、火星、木卫二、木卫三、土卫六、土卫二、海卫一的地质、古水文、古气候和可能的天体生物学信息。以及其他外星目标。这种模式同样适用于地球上具有潜在危险或无法进入的作战区域,例如与军事或恐怖主义活动有关的区域,或暴露于生化剂、辐射或自然灾害的区域。传统的任务是通过漫游者和固定着陆器进行局部地面侦察,或者由轨道飞行器进行全球测绘。前者受到安全和工程方面的限制,以牺牲对区域的了解为代价,只能对单个地点进行有限的详细侦察,而后者返回的是大量数据集,往往忽略了具有当地和区域意义的详细信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tier-Scalable Reconnaissance Missions For The Autonomous Exploration Of Planetary Bodies
A fundamentally new (scientific) reconnaissance mission concept, termed tier-scalable reconnaissance, for remote planetary (including Earth) atmospheric, surface and subsurface exploration recently has been devised that soon will replace the engineering and safety constrained mission designs of the past, allowing for optimal acquisition of geologic, paleohydrologic, paleoclimatic, and possible astrobiologic information of Venus, Mars, Europa, Ganymede, Titan, Enceladus, Triton, and other extraterrestrial targets. This paradigm is equally applicable to potentially hazardous or inaccessible operational areas on Earth such as those related to military or terrorist activities, or areas that have been exposed to biochemical agents, radiation, or natural disasters. Traditional missions have performed local, ground-level reconnaissance through rovers and immobile landers, or global mapping performed by an orbiter. The former is safety and engineering constrained, affording limited detailed reconnaissance of a single site at the expense of a regional understanding, while the latter returns immense datasets, often overlooking detailed information of local and regional significance.
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