共查询到19条相似文献,搜索用时 140 毫秒
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“天问一号”任务是我国行星探测的首次任务,在国际上首次通过一次任务实现了火星“环绕、着陆、巡视”的三步跨越.“天问一号”探测器由中国空间技术研究院负责抓总研制,包括环绕器和着陆巡视器两个组成部分.对“天问一号”探测器的任务特点和概貌进行了介绍,对包括飞行过程、远距离深空通信、火星捕获过程、火星进入下降及着陆过程、火星车解锁驶离和火面工作等关键环节的设计方案进行了描述,对“天问一号”所取得的技术成果与创新进行了总结. 相似文献
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天问一号火星探测器成功实现了我国首次火星表面软着陆,进入舱制导导航与控制系统(GNC系统)负责在火星进入下降着陆过程实施进入舱的姿态与轨道控制,确保进入舱安全着陆火星表面.介绍了执行天问一号火星EDL任务的GNC系统飞行阶段划分、系统组成、方案架构,以及针对火星EDL任务的特色设计,最后介绍了GNC系统在轨飞行结果. 相似文献
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探测器安全着陆是行星探测的关键环节,而目前着陆成功率偏低,进行安全着陆风险研究有着非常现实的工程需求.为此,首先分析探测器结构与着陆方式,梳理行星表面影响安全着陆的主要因素,明确着陆安全判据,然后基于蒙特卡罗思想,模拟行星表面地貌和探测器着陆方式,给出了探测器在盲降下安全着陆概率估计的仿真方法.在此基础上,考虑探测器尺寸和着陆区域面积,对探测器安全着陆概率进行敏感性分析,结果表明探测器的尺寸对安全着陆概率有显著影响. 相似文献
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火星着陆区选择是火星着陆及巡视任务的重要工作之一,着陆区选择需要兼顾科学目标和工程约束,考虑高风险的任务特点,火星着陆任务的工程约束更为重要。工程约束涉及着陆区表面特征、任务轨道、大气等。表面特征包括地理高程、斜坡及地形起伏、岩石分布、尘土厚度、光照、热约束情况。这些因素将影响探测器进入、下降和着陆(EDL)过程的安全性和火星车移动能力。首先针对这些工程约束进行了排序与筛选;然后建立了基于模糊算法的分析模型,通过模糊推理得到各着陆区域的评价指标,从而进行着陆区选择;最后基于ExoMars2020任务的备选着陆区进行了方法验证。 相似文献
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火星着陆自主导航方案研究进展 总被引:2,自引:6,他引:2
火星着陆导航技术是火星着陆过程的核心技术之一。围绕火星着陆环境特点与导航技术遇到的挑战,分析了目前火星着陆过程的导航能力和自主导航的发展趋势,并针对火星着陆过程的特殊性和导航需求,概述了火星着陆过程各阶段自主导航方案的研究现状与进展。进而从导航方案设计与配置、导航模型建立与仿真、导航方案性能分析等方面,对自主导航方案的最新研究进展进行了分析,并在火星着陆全过程自主导航方案综合仿真的基础上,获得了满足火星定点着陆要求的各阶段交接点应满足的导航精度。最后,基于目前技术现状和发展趋势,提出了构建"递进式三阶段"火星着陆自主导航方案的设想,可为未来火星着陆自主导航方案的设计与论证提供参考。 相似文献
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火星表面极端缺氧条件及广泛分布的高氯酸盐所形成的强氧化环境,对人类登陆探测及后续宜居环境建设构成直接威胁.根据对火星表面高氯酸盐分布的探测成果,地球上高氯酸盐生物降解研究进展,以及人类登陆火星对资源和环境的需求,提出了利用生物方法转化火星表面高氯酸盐进行原位制氧的设想与工艺,对其工艺过程、影响因素、关键技术与难点、行星保护与副产物资源化、后续火星环境改造等进行了前瞻性分析,有望在火星上同时实现高氯酸盐无害化处理与氧气原位制备,化害为益,为火星探测提供新思路与新方法. 相似文献
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Shuang Li Yuming Peng Yuping Lu Liu Zhang Yufei Liu 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
Pin-point landing is considered as a key technology for future manned Mars landing and Mars base missions. The traditional inertial navigation system (INS) based guidance, navigation and control (GNC) mode used in the Mars entry, descent and landing (EDL) phase has no ability to achieve the precise and safe Mars landing, so novel EDL GNC methodologies should be investigated to meet this goal. This paper proposes the MCAV/IMU integrated navigation scheme for the powered descent phase of Mars EDL. The Miniature Coherent Altimeter and Velocimeter (MCAV) is adopted to correct the inertial bias and drift and improve the performance of integrated navigation. Altitude and velocity information derived from MCAV and the lander’s state information sensed by inertial measurement unit (IMU) are integrated in extended Kalman filter algorithm. The validity of the proposed navigation scheme is confirmed by computer simulation. 相似文献
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针对火星定点采样、载人登陆和基地构建等任务的需求,提出了一种火星精确定点着陆多信息融合自主导航与控制(Guidance Navigation and Control,GNC)方案。针对大气进入前的高精度导航需求,提出了基于X射线脉冲星和火星表面陆标图像的融合自主导航方法;针对火星着陆探测进入、下降和着陆(Entry,Descent and Landing,EDL)过程的高精度绝对和相对导航需求,提出了基于陆标图像、IMU(Inertial Measurement Unit)和测距测速信息的多信息融合自主导航方法;针对精确定点着陆要求,设计了大气进入和动力下降过程的制导与控制算法。数学仿真结果表明,提出的方案能够实现高精度的定点着陆(精度100 m)和相对避障(精度为0.5 m),可满足任务需求。 相似文献
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Tong Qin Shengying Zhu Pingyuan Cui Ai Gao 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2014
Pinpoint landing (within 100 m from the target) is essential for future Mars exploration missions. This paper deals with one aspect of the pinpoint landing architecture—the navigation performance improvement during the powered descent phase, and proposes an innovative navigation scheme to obtain the vehicle complete and accurate states. On the basis of dead reckoning relying on the Inertial Measurement Unit, measurements of the Integrated Doppler Radar are adopted to correct the vehicle velocity and altitude. Distance between the vehicle and one Mars Orbiter as well as their line-of-sight relative velocity is measured by a radio sensor, and integrated in the filter to correct the vehicle horizontal position. The innovative navigation system is based on an Extend Kalman Filter. Two observation schemes are developed. One considers measurements of the Integrated Doppler Radar and radio range measurement. Another further considers radio velocity measurement. The performance of the innovative navigation scheme is greatly influenced by the position of the Mars Orbiter with respect to the target. Stochastic analyses are performed to obtain optimal locations of Mars Orbiter. Finally, the innovative navigation scheme performances are assessed through stochastic simulations. Its performance improvements are demonstrated by comparison with the Integrated Doppler Radar only navigation scheme. 相似文献
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Xiuqiang Jiang Shuang Li Xiangyu Huang 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(5):1342-1358
Supposing future orbiting and landing collaborative exploration mission as the potential project background, this paper addresses the issue of Mars entry integrated navigation using radio beacon, flush air data sensing system (FADS), and inertial measurement unit (IMU). The range and Doppler information sensed from an orbiting radio beacon, the dynamic pressure and heating data sensed from flush air data sensing system, and acceleration and attitude angular rate outputs from an inertial measurement unit are integrated in an unscented Kalman filter to perform state estimation and suppress the system and measurement noise. Computer simulations show that the proposed integrated navigation scheme can enhance the navigation accuracy, which enables precise entry guidance for the given Mars orbiting and landing collaborative exploration mission. 相似文献