Realization of a scalable airborne radar

被引:0
|
作者
van Halsema, D. [1 ]
de Jongh, R. V. [2 ]
van Es, J. [3 ]
Otten, M. P. G. [1 ]
Vermeulen, B. C. B. [1 ]
van Liempt, L. J. [3 ]
机构
[1] TNO Def Secur & Safety, POB 96864, NL-2509 JG The Hague, Netherlands
[2] THALES Nederland BV, NL-7550 GD Hengelo, Netherlands
[3] Natl Aerosp Lab, NL-1006 BM Amsterdam, Netherlands
来源
2008 EUROPEAN MICROWAVE CONFERENCE, VOLS 1-3 | 2008年
关键词
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Modern airborne ground surveillance radar systems are increasingly based on Active Electronically Scanned Array (AESA) antennas. Efficient use of array technology and the need for radar solutions for various airborne platforms, manned and unmanned, leads to the design of scalable radar systems. The design and realisation of such a system is described. At the core of the design is a new generation of Transmit-Receive modules, developed and used also for naval radar systems. The radar architecture is largely based on the MiniSAR system, which is close to completion. Design aspects are discussed for various envisaged versions of the scalable radar.
引用
收藏
页码:1783 / +
页数:2
相关论文
共 50 条
  • [1] Realization of a scalable airborne radar
    van Halsema, D.
    de Jongh, R. V.
    van Es, J.
    Otten, M. P. G.
    Vermeulen, B. C. B.
    van Liempt, L. J.
    2008 EUROPEAN RADAR CONFERENCE, 2008, : 483 - +
  • [2] A robust and scalable architecture for airborne radar simulation
    Rajanikanth, KN
    Narahari, Y
    Prasad, NNSSRK
    Rao, RS
    IEEE TENCON 2003: CONFERENCE ON CONVERGENT TECHNOLOGIES FOR THE ASIA-PACIFIC REGION, VOLS 1-4, 2003, : 173 - 177
  • [3] Design and Realization of an Airborne Sense & Avoid Radar Demonstrator
    Feil, Peter
    Klarer, Dietmar
    Beer, Stefan
    Schaefer, Fabian
    Strasser, Michael
    2018 IEEE RADAR CONFERENCE (RADARCONF18), 2018, : 1219 - 1222
  • [4] Realization of an airborne radar parallel signal processing system
    Xu, JY
    Wang, XT
    Peng, YN
    2001 CIE INTERNATIONAL CONFERENCE ON RADAR PROCEEDINGS, 2001, : 792 - 795
  • [5] Design and realization of airborne PD tracking radar signal processor
    Zeng, Tao
    Long, Teng
    Hangkong Xuebao/Acta Aeronautica et Astronautica Sinica, 2000, 21 (02): : 138 - 141
  • [6] Concept and realization of an airborne SAR/interferometric radar altimeter system (ASIRAS)
    Lentz, H
    Braun, HM
    Younis, M
    Fischer, C
    Wiesbeck, W
    Mavrocordatos, C
    IGARSS 2002: IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM AND 24TH CANADIAN SYMPOSIUM ON REMOTE SENSING, VOLS I-VI, PROCEEDINGS: REMOTE SENSING: INTEGRATING OUR VIEW OF THE PLANET, 2002, : 3099 - 3101
  • [7] Modular, Scalable Multifunction Airborne Radar Systems for High Performance ISR Applications
    Brandfass, Michael
    Dallinger, Alexander
    Weidmann, Kosmas
    2018 19TH INTERNATIONAL RADAR SYMPOSIUM (IRS), 2018,
  • [8] Method and realization of automatical command guidance of target formation flight test for airborne radar
    Ti, Wei-Qun
    Zhang, An
    Cao, Shuang-Lao
    Qiu, Fang-Wen
    Xitong Fangzhen Xuebao / Journal of System Simulation, 2006, 18 (04): : 821 - 823
  • [9] Realization of a scalable Shor algorithm
    Monz, Thomas
    Nigg, Daniel
    Martinez, Esteban A.
    Brandl, Matthias F.
    Schindler, Philipp
    Rines, Richard
    Wang, Shannon X.
    Chuang, Isaac L.
    Blatt, Rainer
    SCIENCE, 2016, 351 (6277) : 1068 - 1070
  • [10] Realization of Airborne Forward-looking Radar Super-resolution Algorithm Based on GPU Frame
    Mao, Deqing
    Zhang, Yin
    Zhang, Yongchao
    Huang, Yulin
    Yang, Jianyu
    2016 CIE INTERNATIONAL CONFERENCE ON RADAR (RADAR), 2016,
12345