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Maria Daniela Graziano Marco D’Errico Elena Razzano 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2012
A future system integrating data from remote sensing and upcoming AIS satellites is analyzed through the development of a novel design method for global, discontinuous coverage constellations. It is shown that 8 AIS satellites suffice to guarantee global coverage and a ship location update of 50 min if the spaceborne AIS receiver has a swath of 2800 nm. Furthermore, synergic utilization of COSMO/SkyMed and Radarsat-C data would provide a mean revisit time of 7 h, with AIS information available within 25 min from SAR data acquisition. 相似文献
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玫瑰星座的优化设计方法 总被引:1,自引:0,他引:1
玫瑰星座是一种均匀分布的星座,常用于全球连续覆盖。本文对玫瑰星座的基本理论进行了论述,提出了玫瑰星座用于实现全球一重连续覆盖时的优化方法。用本文提出的方法对卫星总数多达300的玫瑰星座进行了优化计算并给出了计算结果。 相似文献
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Analysis and implementation of in-plane stationkeeping of continuously perturbed Walker constellations 总被引:1,自引:0,他引:1
Jean A. Kchichian 《Acta Astronautica》2009,65(11-12):1650-1667
The stationkeeping of symmetric Walker constellations is analyzed by considering the perturbations arising from a high order and degree Earth gravity field and the solar radiation pressure. These perturbations act differently on each group of spacecraft flying in a given orbital plane, causing a differential drift effect that would disrupt the initial symmetry of the constellation. The analysis is based on the consideration of a fictitious set of rotating reference frames that move with the spacecraft in the mean sense, but drift at a rate equal to the average drift rate experienced by all the vehicles over an extended period. The frames are also allowed to experience the J2-precession such that each vehicle is allowed to drift in 3D relative to its frame. A two-impulse rendezvous maneuver is then constructed to bring each vehicle to the center of its frame as soon as a given tolerance deadband is about to be violated. This paper illustrates the computations associated with the stationkeeping of a generic Walker constellation by maneuvering each leading spacecraft within an orbit plane and calculating the associated velocity changes required for controlling the in-plane motions in an exacting sense, at least for the first series of maneuvers. The analysis can be easily extended to lower flying constellations, which experience additional perturbations due to drag. 相似文献
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