综合射频系统技术研究进展及发展前景
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摘要
为了解决机载、舰载等受限平台因增加多种射频功能而导致天线日益增多等难题,综合射频系统技术成为了目前的研究热点问题。分别从综合孔径技术、综合射频技术和多功能软件技术三方面介绍了美军综合射频系统的研究进展,探讨了多功能综合射频系统的发展前景,对于我国的综合射频系统技术和雷达、通信、电子战一体化系统的发展具有重要指导和借鉴意义。
In order to solve the problems such as the increase of antenna number,which caused by increasing more radio frequency(RF)functions on the restricted airborne and shipborne platforms,the integrated RF system technology becomes the hot issue in research.This paper introduces the research progress of integrated RF system in the US military from three aspects,which includes the synthetic aperture technology,integrated RF technology and multi-function software technology,discusses the development prospect of multi-function integrated RF system,which is of important guidance and reference meaning for the development of Chinas integrated RF system technology and the integration system of radar,communication and electronic warfare.
In order to solve the problems such as the increase of antenna number,which caused by increasing more radio frequency(RF)functions on the restricted airborne and shipborne platforms,the integrated RF system technology becomes the hot issue in research.This paper introduces the research progress of integrated RF system in the US military from three aspects,which includes the synthetic aperture technology,integrated RF technology and multi-function software technology,discusses the development prospect of multi-function integrated RF system,which is of important guidance and reference meaning for the development of Chinas integrated RF system technology and the integration system of radar,communication and electronic warfare.
引文
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[23]梁溪.基于宽带高线性调制的射频前端技术研究[D].北京:北京邮电大学,2015.
[24]LI J,HU F,HE F.An imaging method with array factor synthesis in synthetic aperture interferometric radiometer[J].IEEE Transactions on Geoscience&Remote Sensing.Lett,2016,13(1):87-91.
[25]PARK H,CAMPES A,GONZALEZ-GAMBAU V.Improved MUSIC-based SM4SRFI source detection and geolocation algorithm[J].IEEE Transactions on Geoscience&Remote Sensing,2016,54(3):1311-1322.
[26]SHENG Z,WANG H,Yin C C.Light weight management of resource constrained sensor devices in internet-of-things[J].IEEE Internet of Things Joumal,2015,2(5):64-67.
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[28]HAYSTEAD J,KNOWLES J.Close-in jamming takes-off[J].The Journal of Electronic Defense,2013,36(7):26-33.
[29]JIN R,LI Q X,CHEN K.An on-board external calibration method for aperture synthesis radiometer by rotation[J].IEEE Transaction on Geoscience&Remote Sensing Letters,2012,9(5):901-905.
[30]STREETLY M.EW and SIGINT for payloads for UAVs[J].The Journal of Electronic Defense,2012,35(8):28-35.
[31]马可,王仁涛,李慧敏.综合射频系统在新型装甲平台中的应用[J].火力与指挥控制,2017,42(6):124-127.
[32]蒋一峰,郭三学,戎宜生.射频非致命武器综合效能评估研究[J].军械工程学院学报,2016,28(4):8-10.
[33]葛悦涛,李晓涵,蒋琪.美国正在建立综合射频系统国防工业标准[J].飞航导弹,2015(10):43-45.
[2]高燕,马可.舰载综合射频系统关键技术分析[J].信息技术,2017(5):89-97.
[3]曹峻瑀.射频技术的应用与发展[J].科技风,2016(20):45-45.
[4]薛慧,王虎.舰载多功能综合射频一体化研究发展现状[J].飞航导弹,2016(8):46-50.
[5]毕胜,郭林,张德智.面向多功能射频的综合射频前端技术研究[J].雷达科学与技术,2016,14(6):625-629.
[6]刘民.机载任务系统通道化宽带可重构综合射频设计方法研究[J].中国电子科学研究院学报,2017,13(1):1-6.
[7]王伟光.适于共用孔径的可重构天线技术[J].微波学报,2015,31(5):89-96.
[8]石长安,刘一民,王希勤.基于帕累托最优的雷达-通信共享孔径研究[J].电子与信息学报,2016,38(9):2351-2357.
[9]杨云飞,马晓岩,杨瑞娟.CPM-LFM雷达通信一体化共享信号探测性能研究[J].空军预警学院学报,2017,31(3):157-161.
[10]刘小雨.一种便携设备的综合射频方案设计[J].信息通信,2016(7):59-61.
[11]DONG J,SHI R H,CHEN K,et al.Compensating for the external calibration method for the mutual coupling effect in large interferometric aperture synthesis radiometers[J].International Journal of Antennas and Propagation,2011(2):1-8.
[12]CHEN L,LI Q,YI C.One-dimensional mirrored interferometric aperture synthesis:performances,simulation and experiments[J].IEEE Transactions on Geoscience&Remote Sensing,2013,51(5):2960-2968.
[13]薛慧,张昊.舰载多功能综合射频一体化发展研究[J].中国电子科学研究院学报,2016(5):34-38.
[14]华健江,杨志邦.舰载综合射频设计技术分析[J].通信对抗,2015,34(2):41-45.
[15]张强.射频综合系统电磁兼容仿真与设计技术[D].成都:电子科技大学,2016.
[16]VINE D M,MATTHAEIS P D,RUF C S,et al.Aquarius RFI detection and mitigation algorithm:assessment and examples[J].IEEE Transactions on Geoscience&Remote Sensing,2014,52(8):4574-4584.
[17]PARK H,GONZALEZ-GAMBAU V,CAMPS A.High angular resolution RFI detection in synthetic aperture interferometricradiometersestimation[J].IEEE Transactions on Geoscience&Remote Sensing,2015,12(1):102-106.
[18]刘文学,韩斌,冯伟.基于软件无线电的机载射频信号综合处理技术[J].电子测试,2017(4):62-64.
[19]倪虹,路军杰.认知电子战技术在战术导弹上的应用研究[J].战术导弹技术,2015,36(6):48-52.
[20]任志明,戴振民.综合射频系统显控的可重构软件架构设计[J].舰船电子对抗,2017,40(3):73-75.
[21]曲明,翟越,王楠.基于射频收发应用的低噪声频率综合器设计[J].无线电通信技术,2017,43(3):76-80.
[22]赵鸿森,韩璐,梁敏.综合射频传感器它机试飞等效评估方法研究[J].信息与电脑,2017(10):213-217.
[23]梁溪.基于宽带高线性调制的射频前端技术研究[D].北京:北京邮电大学,2015.
[24]LI J,HU F,HE F.An imaging method with array factor synthesis in synthetic aperture interferometric radiometer[J].IEEE Transactions on Geoscience&Remote Sensing.Lett,2016,13(1):87-91.
[25]PARK H,CAMPES A,GONZALEZ-GAMBAU V.Improved MUSIC-based SM4SRFI source detection and geolocation algorithm[J].IEEE Transactions on Geoscience&Remote Sensing,2016,54(3):1311-1322.
[26]SHENG Z,WANG H,Yin C C.Light weight management of resource constrained sensor devices in internet-of-things[J].IEEE Internet of Things Joumal,2015,2(5):64-67.
[27]DATTA S,BONNET C.A Light weight framework for efficient M2M device management in one M2Marchitecture[C]//Proc.IEEE 10th International Conference onIntelligentSensors, SensorNetworksand Information Processing,Singapore,2015:1-6.
[28]HAYSTEAD J,KNOWLES J.Close-in jamming takes-off[J].The Journal of Electronic Defense,2013,36(7):26-33.
[29]JIN R,LI Q X,CHEN K.An on-board external calibration method for aperture synthesis radiometer by rotation[J].IEEE Transaction on Geoscience&Remote Sensing Letters,2012,9(5):901-905.
[30]STREETLY M.EW and SIGINT for payloads for UAVs[J].The Journal of Electronic Defense,2012,35(8):28-35.
[31]马可,王仁涛,李慧敏.综合射频系统在新型装甲平台中的应用[J].火力与指挥控制,2017,42(6):124-127.
[32]蒋一峰,郭三学,戎宜生.射频非致命武器综合效能评估研究[J].军械工程学院学报,2016,28(4):8-10.
[33]葛悦涛,李晓涵,蒋琪.美国正在建立综合射频系统国防工业标准[J].飞航导弹,2015(10):43-45.