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The current debate in the U.S. Human Spaceflight Program focuses on the development of the next generation of man-rated heavy lift launch vehicles. While launch vehicle systems are of critical importance for future exploration, a comprehensive analysis of the entire exploration infrastructure is required to avoid costly pitfalls at early stages of the design process. This paper addresses this need by presenting a Delphi-Based Systems Architecting Framework for integrated architectural analysis of future in-orbit infrastructure for human space exploration beyond Low Earth Orbit. The paper is structured in two parts. 相似文献
343.
火星精确着陆制导问题分析与展望 总被引:6,自引:0,他引:6
美国火星科学实验室(MSL)任务成功将“好奇”号火星车着陆到火星表面,开创了火星精确着陆探测的新局面。以MSL着陆任务为典型代表,分析了目前火星着陆探测进入、下降和着陆(Entry, Descent and Landing, EDL)过程的制导方案及制导系统的发展趋势。以在火星高海拔、复杂地形区域定点着陆为潜在工程目标,归纳了火星EDL过程面临的制导主要问题。根据未来制导系统自主性和自适应性的技术需求及潜在工程任务制导面临的问题,提出了火星EDL制导方面需要解决的关键技术,并对其在未来工程中的应用潜力进行了展望。 相似文献
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Deen Bai Qiquan Quan Yinchao Wang Dewei Tang Zongquan Deng 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2019,63(2):1065-1072
Ultrasonic drills, which can sample rocks using a lower weight on bit and lower power, are more suitable for sampling on a minor planet than conventional drills. To remove cutting chips and improve drilling efficiency, rotary-percussive ultrasonic drills (RPUD) drive drill tools for rotary-percussive motion. This paper proposes a novel longitudinal & longitudinal-torsional (L-LT) actuator, which is composed of a stepped horn, a piezoelectric stack, and a longitudinal-torsional (LT) coupler, for the RPUD. The horn magnifies the longitudinal vibration on the front surface of the piezoelectric stack, which is clamped between the horn and the LT coupler, and impacts the drill tool. The LT coupler transforms the longitudinal vibration on the back surface into longitudinal-torsional vibration, which generates elliptical movements that drive the rotor to rotate. Then, the rotor drives the drill tool to rotate. A method of adjusting the displacement amplitudes of the horn and the driving tips is discussed. The prototype achieved a maximum speed and torque of 193?r/min and 0.065?Nm, respectively. The maximum drilling speed through sandstone under a weight on bit of 5?N was 13?mm/min. 相似文献
347.
Elyse J. Allender Csilla Orgel Natasha V. Almeida John Cook Jessica J. Ende Oscar Kamps Sara Mazrouei Thomas J. Slezak Assi-Johanna Soini David A. Kring 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2019,63(1):692-727
This study explores the Design Reference Mission (DRM) architecture developed by Hufenbach et al. (2015) as a prelude to the release of the 2018 Global Exploration Roadmap (GER) developed by the International Space Exploration Coordination Group (ISECG). The focus of this study is the exploration of the south polar region of the Moon, a region that has not been visited by any human missions, yet exhibits a multitude of scientifically important locations – the investigation of which will address long standing questions in lunar research. This DRM architecture involves five landing sites (Malapert massif, South Pole/Shackleton crater, Schrödinger basin, Antoniadi crater, and the South Pole-Aitken basin center), to be visited in sequential years by crew, beginning in 2028. Two Lunar Electric Rovers (LER) are proposed to be tele-robotically operated between sites to rendez-vous with crew at the time of the next landing. With engineering parameters in mind we explore the feasibility of tele-robotic operation of these LERs between lunar landing sites, and identify potential high interest sampling locations en-route. Additionally, in-depth sample collection and return traverses are identified for each individual landing site across key geologic terrains that also detail crew Extra-Vehicular Activity (EVA). Exploration at and between landing sites is designed to address a suite of National Research Council (2007) scientific concepts. 相似文献
348.
针对深空探测器相对位置精确测量需求,建立了空间三维相对位置测量模型,研究了基于单基线同波束干涉测量(Same-beam VLBI,SBI)的空间三维位置最小二乘解算方法。利用"嫦娥3号"着陆器的测控天线与定向天线的SBI实测数据,验证了测量模型与解算方法的有效性。结果显示:SBI干涉时延随机误差约0.225 ps(0.07 mm);测控天线与定向天线之间距离误差约0.216 m,方向误差约30.4°。该研究结果有望应用于后续深空探测任务譬如"嫦娥5号"器间高精度相对测量中。 相似文献
349.
空间核动力源的安全性研究进展 总被引:3,自引:2,他引:1
同位素热/电源以及空间核反应堆在深空探测任务中有重要应用。通过调研其技术特点以及国际上针对核能空间应用安全性的相关规范,研究了其空间安全性规范的法律法规。以ALRH(Apollo Lunar Radiosotope Heater,阿波罗月球任务同位素热源)、GPHS(General Purpose Heater Source,通用型热源)、LWRHU(Lighted Weighted Radiosotope Heater Unit,轻量放射性同位素热源)、MMRTG(Multi-Mission Radioisotope Thermoelectric Generator,多任务型放射性同位素电源)等同位素热/电源及俄罗斯热离子空间反应堆电源(TOPAZ-II型号)为例,结合美俄开展的同位素热/电源的系列安全性试验,重点关注了不同型号的试验及分析技术细节,并分析了同位素热/电源的空间应用安全评价方法,可为开展相关研发提供技术参考。 相似文献
350.
简要介绍了基于冷原子干涉技术的陀螺仪与重力仪的特点以及国内外研究现状,重点介绍冷原子制备、冷原子分束、反射以及原子内态探测等冷原子干涉关键技术的基本原理及其实现方法。结合深空探测特点,冷原子干涉技术在深空探测领域潜在的应用有两个方面:一方面可应用于深空探测器在飞行、交互、对接以及着陆过程中的自主导航;另一方面可应用于深空探测器引力助推过程中的重力以及加速度的精密测量。 相似文献