AWARDS: Advanced microwave radiometers for deep space stations

P. Tortora, S. Crewell, G. Elgered, A. Graziani, P. Jarlemark, U. Löhnert, A. Martellucci, M. Mercolino, T. Rose, J. Schween
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引用次数: 5

Abstract

The objective of this study, named AWARDS Advanced microWAve Radiometers in Deep space Stations, is the preliminary design of a transmission Media Calibration System MCS to be located at an ESA Deep Space Antenna DSA site. The crucial aspect is the capability to accurately retrieve the tropospheric path delay along the line-of-sight of the deep space probe in order to allow precise tropospheric calibration of deep space observables range and range-rate with particular reference to the BepiColombo spacecraft and its primary DSA at Cebreros ES. The study focuses on two main aspects which lead to the preliminary design of the Mercury Orbiter Radioscience Experiment MORE MCS: the characterization of current microwave radiometers MWRs available at ESA/ESTEC and the atmospheric fluctuation effects on the MCS error budget, in terms of the Allan standard deviation ASD. In the course of the study, further critical aspects have been identified effects of Sun contamination, effects of ground noise emission, and mitigation strategies have been proposed. The final outcome is a preliminary design of the MWR and the entire MCS to be deployed at the ESA/ESTRACK ESA Tracking station network sites and being compliant with MORE requirements.
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获奖:用于深空空间站的先进微波辐射计
这项名为“深空先进微波辐射计”的研究的目的是初步设计一个传输介质校准系统MCS,该系统将位于欧空局深空天线DSA站点。关键的方面是能够沿着深空探测器的视线精确地检索对流层路径延迟,以便对深空可观测距离和距离速率进行精确的对流层校准,特别是参考BepiColombo航天器及其在Cebreros ES上的主DSA。研究了两个主要方面,导致初步设计的水星轨道器放射性科学实验MORE MCS:目前的微波辐射计MWRs在欧空局/ESTEC的特性和大气波动对MCS误差预算的影响,在Allan标准偏差ASD。在研究过程中,进一步确定了太阳污染的影响、地面噪声排放的影响等关键方面,并提出了缓解战略。最终的结果是MWR和整个MCS的初步设计,将部署在ESA/ESTRACK ESA跟踪站网络站点,并符合更多要求。
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Space Communications
Space Communications 工程技术-电信学
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