舰载多功能综合射频系统应用与发展
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摘要
文章从未来信息化海上联合作战对舰载电子设备一体化发展需求出发,结合当前国内外舰载多功能综合射频系统的发展状况,在介绍多功能综合射频系统组成及工作原理的基础上,分析了舰载多功能综合射频系统孔径/天线综合、射频综合处理、高速数据处理、系统资源协同调度和系统自检与校正等技术难点,并结合综合射频系统的技术难点和作战使用需求提出了舰载综合射频系统发展建议,为舰载多功能综合射频系统一体化设计和功能集成提供参考和借鉴。
Starting from the requirement of future information-based joint operation on shipboard electronic equipment integration,combined with the current domestic and foreign shipborne integrated RF system development status,on the basis of introducing the composition and working principle of multi-function integrated RF system,the technical difficulties such as aperture,antenna synthesis,RF integrated processing,high-speed data processing,system resource collaborative scheduling,system self-inspection and calibration are analyzed. Combined with the technical difficulties and operational requirements of the integrated RF system,suggestions for the development of the shipborne integrated RF system are proposed. This paper provides a reference for the design and functional integration of multifunctional integrated RF system onboard.
Starting from the requirement of future information-based joint operation on shipboard electronic equipment integration,combined with the current domestic and foreign shipborne integrated RF system development status,on the basis of introducing the composition and working principle of multi-function integrated RF system,the technical difficulties such as aperture,antenna synthesis,RF integrated processing,high-speed data processing,system resource collaborative scheduling,system self-inspection and calibration are analyzed. Combined with the technical difficulties and operational requirements of the integrated RF system,suggestions for the development of the shipborne integrated RF system are proposed. This paper provides a reference for the design and functional integration of multifunctional integrated RF system onboard.
引文
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[2]詹广平,黄玉清.舰艇自防御系统浅析[J].舰船电子工程,2010,30(7):4-7.
[3]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):89-91.
[4]李婧娇,张友益,徐朝阳.多功能电子战系统效能仿真技术研究[J].舰船电子工程,2010,30(2):114-118.
[5]刘满堂,寻远,刘悦.舰船通信系统电磁兼容性设计技术[J].电讯技术,2012,52(8):1359-1363.
[6]吴永亮.美国海军舰载双波段系列雷达的发展[J].国防科技,2012,33(4):14-20.
[7]Ronald O’Rourke. Navy DDG-51 and DDG-1000 Destroyer Programs:Background and issues for Congress[R]. US Congressional Research Service,2012,2:19-23.
[8]吴小强.美国海军舰载相控阵技术发展综述[J].雷达与对抗,2014,34(4):1-4.
[9] NRL,Integrated Topside(In Top)Joint Navy Industry Open Architecture Study4,10-09-2010.
[10]Tad Dickenson. Air&Missile Defense Radar(AMDR)[EB/OL]. http://www.Raytheonretirees. org>201507>AMDR.
[11] Rick W,Kindt. Prototype design of a modular ultrawide-band wavelength-scaled array of flared notches[J]. IEEE,2012.
[12]刁端信,陈豪.国外海军集成桅杆技术发展浅析[J].船舶电气与通信,2013,153(3):97-102.
[13]李洪兴.美国海军研究局制订电磁机动指挥控制技术发展计划[J].现代军事,2016(1):16.
[14]华健江,杨志邦.舰载综合射频技术分析[J].通信对抗,2015,34(2):41-45.
[15]李庶中,杨华明.舰载电子设备一体化的发展与关键技术[J].雷达与对抗,2010,30(1):7-10.
[16]徐艳国,胡学成.综合射频技术及其发展[J].中国电子科学研究院学报,2009(6):551-559.
[17]查林.数字阵列雷达技术在舰载综合射频系统中的应用[J].舰船电抗,2011,34(3):9-12.
[18]胡元奎,靳学明,范忠亮.多功能综合射频系统技术研究[J].雷达科学与技术,2015,13(3):233-239.