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Ultra scanning geostationary orbiting radar: an array compensated spherical reflector antenna

机译：超扫描对地静止轨道雷达：阵列补偿球面反射器天线

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Current advances in monitoring hurricanes and convective storms throughout their life cycles necessitate the development of technologies for high resolution spacecraft antennas with an ultra-scanning capability. Therefore for the first generation of geostationary orbiting radars, an antenna system is to be designed at 35 GHz. The feasibility of correcting phase aberration of spherical reflector antennas with planar array feeds is investigated. A synthesis procedure for the array excitation is developed which invokes the reciprocity theorem and phase conjugate matching. Using the synthesized compensating array-feed, the radiation characteristics of a compensated spherical reflector is simulated for both focus and 4/spl deg/ scan cases and results are compared with the uncompensated case to show performance improvement.

机译：在监视飓风和对流风暴整个生命周期中的最新进展，需要开发具有超扫描能力的高分辨率航天器天线的技术。因此，对于第一代地球静止轨道雷达，天线系统将设计为35 GHz。研究了用平面阵列馈源校正球面反射器天线相位象差的可行性。开发了用于阵列激励的合成程序，该程序调用了互易定理和相位共轭匹配。使用合成的补偿阵列馈电，针对聚焦和4 / spl度/扫描情况模拟了补偿球面反射器的辐射特性，并将结果与未补偿情况进行了比较，以显示性能的提高。

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《》|2004年|p.3003-3006|共4页
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Bahadori; K.; Rahmat-Samii; Y.;
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中图分类无线电电子学、电信技术;
关键词
scanning antennas; millimetre wave antenna arrays; meteorological instruments; storms; reflector antenna feeds; planar antenna arrays; antenna radiation patterns; radar antennas; ultra scanning radar; phase aberration correction; spherical reflector antennas; planar array feeds; array excitation synthesis; reciprocity theorem; phase conjugate matching; radiation characteristics; array compensated antenna; hurricanes; convective storms; high resolution spacecraft antennas; geostationary orbiting radar; 35 GHz;

机译：扫描天线;毫米波天线阵列;气象仪器;暴风雨;反射器天线馈源;平面天线阵列;天线辐射方向图;雷达天线;超扫描雷达;相差校正;球形反射器天线;平面阵列馈源;阵列激发合成;互易性定理相位共轭匹配辐射特性阵列补偿天线飓风对流风暴高分辨率航天器天线对地静止轨道雷达35 GHz;

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专利

1. An Array-Compensated Spherical Reflector Antenna for a Very Large Number of Scanned Beams [J] . Keyvan Bahadori, Yahya Rahmat-Samii IEEE Transactions on Antennas and Propagation . 2005,第11期

机译：用于大量扫描光束的阵列补偿球面反射天线
2. Large aperture scanning membrane phased array antenna for geosynchronous Earth orbit synthetic aperture radar applications [J] . Xu Mingming, Zhang Qingjun, Zhu Yu, . 2019,第20期

机译：用于地球同步轨道轨道合成孔径雷达应用的大孔径扫描膜相控阵天线
3. Ultra-Wideband Array Antenna Utilizing Novel Scanning System with Tapped Delay Lines for Short Range Radar [J] . Fuminori SAKAI, Kazuo OHTA, Kunio SAWAYA IEICE Transactions on Communications . 2011,第5期

机译：超宽带阵列天线，利用新型带短延时线的扫描系统扫描雷达
4. Ultra Scanning Geostationary Orbiting Radar: An Array Compensated Spherical Reflector Antenna [C] . Keyvan Bahadori, Yahya Rahmat-Samii IEEE Antennas and Propagation Society International Symposium . 2004

机译：超扫描地静止轨道雷达：阵列补偿球形反射器天线
5. Analysis of reflector antenna systems for wide-angle scanning. [D] . Houshmand, Bijan. 1990

机译：反射镜天线系统的广角扫描分析。
6. Bandwidth Enhancement and Frequency Scanning Array Antenna Using Novel UWB Filter Integration Technique for OFDM UWB Radar Applications in Wireless Vital Signs Monitoring [O] . MuhibUr Rahman, Mahdi NaghshvarianJahromi, Seyed Sajad Mirjavadi, 2018

机译：使用新型UWB滤波器集成技术的带宽增强和频率扫描阵列天线用于OFDM UWB雷达在无线生命体征监测中的应用
7. Double phi-Step theta-Scanning Technique for Spherical Near-Field Antenna Measurements:Double ϕ-Step θ-Scanning Technique for Spherical Near-Field Antenna Measurements [O] . Laitinen Tommi 2008

机译：用于球面近场天线测量的双phi-stepθ扫描技术：用于球面近场天线测量的双φ步进θ扫描技术

Ultra scanning geostationary orbiting radar: an array compensated spherical reflector antenna

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