Optimal orbits for Mars atmosphere remote sensing

Michel Capderou; Francois Forget

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Optimal orbits for Mars atmosphere remote sensing

机译：火星大气遥感的最佳轨道

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摘要

Most of the spacecrafts currently around Mars (or planned to reach Mars in the near future) use Sun-synchronous or near-polar orbits. Such orbits offer a very poor sampling of the diurnal cycle. Yet, sampling the diurnal cycle is of key importance to study Mars meteorology and climate. A comprehensive remote sensing data set should have been obtained by the end of the MRO mission, launched in 2005. For later windows, time-varying phenomena should be given the highest priority for remote sensing investigations. We present possible orbits for such missions which provide a rich spatial and temporal sampling with a relatively short repeat cycle (50 sols). After computation and determination of these orbits, said "optimal orbits", we illustrate our results by tables of sampling and comparison with other orbits.

机译：目前在火星附近（或计划在不久的将来到达火星）的大多数航天器都使用太阳同步或近极轨道。这样的轨道提供了非常差的昼夜周期采样。然而，对昼夜周期进行采样对研究火星的气象和气候至关重要。在2005年启动的MRO任务结束之前，应该已经获得了一个全面的遥感数据集。对于以后的窗口，应将时变现象作为遥感研究的重中之重。我们介绍了此类任务的可能轨道，这些任务以相对较短的重复周期（50个溶胶）提供了丰富的空间和时间采样。在计算并确定了这些轨道（称为“最佳轨道”）之后，我们通过采样表以及与其他轨道的比较来说明我们的结果。

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来源
《Planetary and space science》 |2004年第9期|p.789-798|共10页
作者
Michel Capderou; Francois Forget;
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作者单位

Laboratoire de Meteorologie Dynamique (IPSL), Ecole Polytechnique, F-91128 Palaiseau France;

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原文格式 PDF
正文语种 eng
中图分类天文学、地球科学;
关键词
satellite around mars; mars atmosphere; orbitography; remote sensing;

机译：火星周围的卫星;火星大气;轨道成像;遥感;

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1. An orbit-based remote sensing geological assessment of the CanMars Mars Sample Return Analogue Deployment (MSRAD) landing site situated in the Henry Mountains Basin, near Hanksville, Utah [J] . Tornabene Livio L., Battler Melissa, Choe Byung-Hun, Planetary and space science . 2019,第SEPa期

机译：位于犹他州汉克斯维尔附近的亨利山脉盆地的CanMars Mars样本返回模拟部署（MSRAD）着陆点的基于轨道的遥感地质评估
2. An orbit-based remote sensing geological assessment of the CanMars Mars Sample Return Analogue Deployment (MSRAD) landing site situated in the Henry Mountains Basin, near Hanksville, Utah [J] . Tornabene Livio L., Battler Melissa, Choe Byung-Hun, Planetary and space science . 2019,第Sepa期

机译：基于轨道的轨道遥感地质评估帆布MARS样本返回模拟部署（MSRAD）着陆位于犹他州汉克维尔附近的Henry Mountains Basin
3. The Atmosphere of Mars as Constrained by Remote Sensing [J] . Therese Encrenaz Space Science Reviews . 2001,第1a4期

机译：遥感制约的火星大气
4. Atmosphere Variability at Mars Reconnaissance Orbiter Science Orbit Altitudes Based on Mars Express Reconstructions [C] . Dolan Highsmith, Tung-Han You, Allen Halsell, AAS/AIAA Space Flight Mechanics Meeting; 20050123-27; Copper Mountain,CO(US) . 2005

机译：基于火星快速重构的火星侦察轨道科学轨道高度的大气变率
5. Remote sensing and terramechanics study of Mars using orbital and rover data sets. [D] . Lichtenberg, Kimberly Ann. 2010

机译：使用轨道和漫游者数据集进行火星的遥感和地力学研究。
6. Utility of Satellite Remote Sensing for Land-Atmosphere Coupling and Drought Metrics [O] . Joshua K. Roundy, Joseph A. Santanello -1

机译：卫星遥感在陆地-大气耦合和干旱度量中的应用
7. A study on the Martian atmospheric environment using remote sensing data obtained by Mars orbiter missions [O] . NOGUCHI Katsuyuki, IRIE Hitoshi, HAYASHI Hiroo, 2015

机译：火星轨道飞行器获得的遥感数据对火星大气环境的研究
8. APPLICATION OF REMOTELY SENSED MULTI SPECTRAL DATA TO AUTOMATED ANALYSIS OF MARSHLAND VEGETATION INFERENCE TO THE LOCATION OF BREEDING HABITATS OF THE SALT MARSH MOSQUITO (AEDES SOLLICITANS) [R] . William G. Cibula 1976

机译：遥感多光谱数据在沼泽湿地自然分析中的应用推断盐沼河谷（aEDEs sOLLICITaNs）繁殖生境的位置

Optimal orbits for Mars atmosphere remote sensing

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