C. Capsoni, L. Castanet, P. Gabellini, A. Martellucci, G. Carrie, G. Gallinaro, N. Gatti, N. Jeannin, M. Luccini, L. Luini, R. Nebuloni, A. Paraboni, L. Resteghini, C. Riva
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引用次数: 0
Abstract
The main objective of the ESA ARTES 5.1 Contract 20887/07/NL/LvH “Verification of Propagation Impairment Mitigation Techniques” with Politecnico di Milano as Prime, ONERA and Space Engineering as subcontractors, was to validate the channel models and related input data appropriate for the design, analysis and/or control phase of Propagation Impairments Mitigation Techniques PIMTs, both for the Broadcasting Satellite Service BSS and the Interactive Multimedia Broadband Service IMMBS. For the BSS scenario, which is the focus of this paper, the On Board Antenna Pattern Reconfiguration OBAPR PIMT is investigated, using as channel models the rain field generators able to provide the spatial distribution of rain across the service area on the basis of large-scale meteorological forecasts. Their performance were tested using either radar data or a large dataset of beacon measurements collected in Europe during the OLYMPUS experiment.
ESA ARTES 5.1合同20887/07/NL/LvH "传播损害缓解技术验证"的主要目标是验证适用于广播卫星业务BSS和交互式多媒体宽带业务imbs的传播损害缓解技术PIMTs的设计、分析和/或控制阶段的信道模型和相关输入数据。该合同由米兰理工大学牵头,ONERA和空间工程公司作为分包商。针对本文重点研究的BSS场景,以能够在大尺度气象预报的基础上提供整个服务区降雨空间分布的雨场发生器为通道模型,研究了机载天线方向图重构OBAPR PIMT。在OLYMPUS实验期间,使用雷达数据或在欧洲收集的大型信标测量数据集对它们的性能进行了测试。
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