期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

电磁空间分布式一体化波形设计与信息获取 被引量:3

Distributed Integrated Waveform Design and Information Acquisition in Electromagnetic Space
原文传递
导出
摘要 分布式多功能一体化波形设计与信息获取是电磁环境认知与资源利用的重要途径,是掌握电磁空间主动权的关键,对我国社会经济发展和国防安全具有重要战略意义。目前,国内外在多功能一体化波形设计和信息获取方面已取得一定的进展,但仍存在电磁资源利用率不高、互干扰抑制能力不足、系统性能受限等问题。为解决这些问题,本文立足于分布式多功能一体化系统,分析现有一体化波形设计和处理的优缺点,探究分布式多功能一体化系统的关键科学问题,探讨其所面临的挑战并给出相关建议。 Distributed multifunctional integrated waveform design and information acquisition is an important way to cognize the electromagnetic environment and exploit the resource.It is also the key to mastering the initiative in the electromagnetic space and has important strategic significance in social and economic development and national defense security.At present,progress has been made in multifunctional integrated waveform design and information acquisition in the domestic and overseas.However,these methods have low utilization efficiency in electromagnetic resources,poor ability in mutual interference suppression,limited system performance,and so on.To solve these problems,both the advantages and disadvantages of the existing integrated waveform design and processing methods are analyzed.Then,the key scientific problem of the distributed multifunctional integrated system is explored.Finally,the challenges of the distributed multifunctional integrated system are discussed and the corresponding suggestions are given.
作者 刘永军 廖桂生 李海川 陈毓锋 姜孟超 Liu Yongjun;Liao Guisheng;Li Haichuan;Chen Yufeng;Jiang Mengchao(National Laboratory of Radar Signal Processing,Xidiati University,Xi'an 710071)
机构地区 西安电子科技大学雷达信号处理国家级重点实验室
出处 《中国科学基金》 CSSCI CSCD 北大核心 2021年第5期701-707,共7页 Bulletin of National Natural Science Foundation of China
基金 国家自然科学基金项目(62001352,61621005) 中央高校基本科研业务费(XJS200211)的资助。
关键词 电磁空间 分布式 多功能 一体化波形 信息获取 electromagnetic space distributed multifunction integrated waveform information acquisition
分类号 TN911.7 [电子电信—通信与信息系统]
  • 相关文献

参考文献8

二级参考文献37

  • 1钟华 李自力.隐身技术[M].北京:国防工业出版社,1999..
  • 2George W Stimson. Introduction to airborne radar [ M ]. 2nd. ed. Mendham, N J, USA: Scitech Publishing, Inc. 1995.
  • 3Skolnik M. Radar handbook [ M ]. 2nd ed. New York: McGraw-Hill, 1990.
  • 4TAVIK G, HILTERBRICK C, EVINS J, et al. The advanced multifunction RF concept[J]. IEEE Transactions on Microwave Theory and Techniques, 2005, 53(3): 1009-1020. doi: 10.1109/TMTT.2005.843485.
  • 5HAN Liang and WU Ke. Multifunctional transceiver for future intelligent transportation systems[J]. IEEE Transactions on Microwave Theory and Techniques, 2011, 59(7): 1879-1892. doi: 10.1109/TMTT.2011.2138156.
  • 6HAN Liang and WU Ke. 24-GHz integrated radio and radar system capable of time-agile wireless communication and sensing[J]. IEEE Transactions on Microwave Theory and Techniques, 2012, 60(3): 619-631. doi: 10.1109/TMTT. 2011.2179552.
  • 7TAKAHARA H, OHNO K, and ITAMI M. A study on UWB radar assisted by inter-vehicle communication for safety applications[C]. 2012 IEEE International Conference on Vehicular Electronics and Safety, Turkey, 2012: 99-104. doi: 10.1109/ICVES.2012.6294272.
  • 8MISHRA A K and Inggs M. FOPEN capabilities of commensal radars based on whitespace communication systems[C]. Electronics, Computing and Communication Technologies (IEEE CONECCT), Bangalore, 2014: 1-5. doi: 10.1109/CONECCT.2014.6740313.
  • 9TAKASE H and SHINRIKI M. A dual-use radar and communication system with complete complementary codes[C]. 2014 15th International, Radar Symposium(IRS), Gdansk, 2014: 16-18. doi: 10.1109/IRS.2014.6869268.
  • 10SIT Y L and ZWICK T. MIMO OFDM radar with communication and interference cancellation features[C]. 2014 IEEE Radar Conference, Cincinnati, 2014: 19-23. doi: i0.i 109/RADAR.2014.6875596.

共引文献131

同被引文献24

引证文献3

二级引证文献4

中国科学基金
2021年 第5期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部