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论文:2015,Vol:33,Issue(2):284-289 |
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引用本文: |
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羊彦, 牛振喜, 惠帅帅, 侯静. 隐形雷达LPI性能评估方法探讨[J]. 西北工业大学学报 |
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Yang Yan, Niu Zhenxi, Xi Shuaishuai, Hou Jing. Discussing Methods of Evaluating LPI Performance of Stealth Radar[J]. Northwestern polytechnical university |
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隐形雷达LPI性能评估方法探讨 |
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羊彦1, 牛振喜2, 惠帅帅1, 侯静1 |
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1. 西北工业大学电子信息学院, 陕西西安 710072; 2. 西北工业大学科学技术管理部, 陕西西安 710072 |
摘要: |
实现雷达LPI性能的途径有:波形设计、能量管理、低旁瓣技术、频谱展宽、相干接收等多个方面。但是,要保证这些LPI技术在战时的有效性,需要建立规范化的评估体系对其性能进行评估。分析了雷达电子战对抗双方中雷达与ESM的博弈规律,并以ESM当前技术水平为依据,提出了针对隐身雷达LPI评估方法,旨在规范日趋复杂的电子环境中雷达抗截获/抗识别的技术发展途径。 |
关键词:
隐形雷达
LPI
ESM
性能评估
截获因子
复杂度因子
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Discussing Methods of Evaluating LPI Performance of Stealth Radar |
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Yang Yan1, Niu Zhenxi2, Xi Shuaishuai1, Hou Jing1 |
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1. Department of Electronics Engineering, Northwestern Polytechnical University, Xi'an 710072, China; 2. Office of University Research, Northwestern Polytechnical University, Xi'an 710072, China |
Abstract: |
Radar is the core equipment under the conditions of modern information technology, and is the primary target which may be attacked for competing for the right of information on the battlefield. So "anti-destruction" of radar has risen to first importance, and the feature of "low probability of interception" (LPI) is a prerequisite for the ability of anti-destruction. At present, the methods of realizing LPI performance are:waveform design, energy management, low side lobe technology, spectral broadening, coherent reception, etc. However, to ensure the effectiveness of these techniques of LPI in wartime, we need to establish a standardized assessment system to evaluate its performance. This paper analyzed radar electronic warfare using the game rules of both radar and ESM and gave the evaluation method of LPI performance of stealth radar on the basis of the current technical level of ESM for regulating the way of technology development of anti-radar intercept/anti identification in increasingly complicated electronic environment. |
Key words:
stealth radar
LPI
ESM
performance evaluation
intercept factor
complexity factor
analytic hierachy process
antenna lobes
antenna phased arrays
design
efficiency
electronic warfare
energy management
environmental impact assessments
evolutionary algorithms
flowcharting
fuzzy logic
information technology
neural networks
probability
radar
radio frequency identification(RFID)
stealth technology
targets
waveform analysis
artificial neural networks
ESM
game rules
low probability of interception(LPI)
stealth radar
time of arrival(TOA)
waveform design
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收稿日期: 2014-10-20
修回日期:
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DOI: |
基金项目: 航空科学基金(20132053024)资助 |
通讯作者:
Email: |
作者简介: 羊彦(1970-),女,西北工业大学副教授,主要从事基于低截获概率雷达的电子对抗技术工作。
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相关功能 |
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作者相关文章 |
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羊彦 在本刊中的所有文章 |
牛振喜 在本刊中的所有文章 |
惠帅帅 在本刊中的所有文章 |
侯静 在本刊中的所有文章 |
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参考文献: |
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[1] 陈次兮.实现"先视、先射、先毁"——再谈研制隐形雷达的紧迫性[J].中国电子科学院学报,2011,6(6):576-580,596 Chen Cixi. A Study on the Urgency of Invisible Radar Development to Realize Discovery, Launch and Destruction before Enemies[J]. Journal of CAEIT, 2011, 6(6):576-580,596(in Chinese) [2] 贲德.机载有源相控阵火控雷达的新进展及发展趋势[J].现代雷达,2008,30(1):1-4 Ben De. Latest Status & Development Trends of Air Borne AESA Fires-Control Radar[J]. Modern Radar, 2008, 30(1):1-4(in Chinese) [3] Griffiths Hugh. Multistatic. MIMO and Networked Radar:The Future of Radar Sensors[C] //European Microwave Week, Paris, Sept, 2010:81-84 [4] Northrop Grumman. AESA Radar Revolutionary Capabilities for Multiple Missions[EB/OL]. http://www.es.northropgruman.corn/solutions/ae8aradar/assets/review-aesa.pdf, 2009 [5] 袁海杰.相控阵天线数字波束形成浅述[J].火控雷达技术,2003,32:31-36 Yuan Haijie. Digital Beam Forming in Phased Array Antenna[J]. Fire Control Radar Technology, 2003, 32:31-36(in Chinese) [6] 姜勤波,马红光,杨利锋.脉冲重复间隔估计与去交织的方正弦波插值算法[J].电子与信息学报,2007,29(2):350-354 Jiang Qinbo, Ma Hongguang, Yang Lifeng. Estimation of Pulse Repetition Interval and Deinterleaving Based on the Square Sine Wave Interpolating Algorithm[J]. Journal of Electronics & Information Technology, 2007, 29(2):350-354(in Chinese) [7] 谢正巧,陈新年,罗进.相控阵雷达信号识别的研究[J].信息化研究,2010,36(12):37-40 Xie Zhengqiao, Chen Xinnian, Luo Ji. Research on Signal Recognition for Phased Array Radar[J]. Informatization Research, 2010, 36(12):37-40(in Chinese) [8] 陶玉犇,耿松涛,王枭.电子对抗作战仿真实验设计研究[J].兵工自动化,2013,32(1):15-16,23 Tao Yuben, Geng Songtao, Wang Xiao. Research on Electronic Warfare Operational Simulation Experiment Design[J]. Ordnance Industry Automation, 2013, 32(1):15-16, 23(in Chinese) [9] 杨玉贵,程俊东,周悦,等.基于现象的机载电子对抗能力评估[J].火力与指挥控制,2012,37(11):184-186 Yang Yugui, Cheng Jundong, Zhou Yue, et al. Airborne Electronic Countermeasures Capability Evaluation Based on AHP[J]. Fire and Command Control, 2012, 37(11):184-186(in Chinese) [10] 宋飞,赵法锁.地下工程风险分析的层次分析法及MATLAB应用[J].地球科学与环境学报,2008,30(3):292-296 Song Fei, Zhao Fasuo. Application of Analytical Hierarchy Process and MATLAB Program for Risk Analysis of Underground Engineering[J]. Journal of Earth Sciences and Environment, 2008, 30(3):292-296(in Chinese) [11] 张金哲,韩晓明.基于改进AHP法的飞机超视距作战能力评估[J].火力与指挥控制,2009,34(10):159-163 Zhang Jinzhe, Han Xiaoming. Over-the-Horizon Air Combat Capability Evaluation of Fighter Plane Based on Moified AHP[J]. Fire Control& Command Control, 2009, 34(10):159-163(in Chinese) |
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相关文献: |
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1.侯小林, 李伟, 羊彦, 景占荣.基于诱导脉冲组合雷达波形的LPI性能分析[J]. 西北工业大学学报, 2012,30(3): 445-450 |
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