单双基地复合高频地波雷达网定位精度分析
doi: 10.3724/SP.J.1146.2008.01064
Positioning Accuracy in Monostatic-Bistatic Composite High Frequency Surface Wave Radar Network
-
摘要: 单基地高频地波雷达易受到电子干扰、隐身武器等威胁,建立单双基地复合高频地波雷达网是解决这一问题最易工程实现的途径。该文首次以单双基地复合高频雷达网为背景,针对高频地波雷达沿海面绕射的特点采用曲面定位分析推导和仿真系统的探测精度,给出定位精度曲线,并得到单双基地复合高频地波雷达网各测量子集在不同探测区域的精度分布,为高频雷达组网的探测、跟踪及融合提供理论基础。Abstract: Monostatic High Frequency (HF) surface wave radar is vulnerable by the threat of electronic disturbance, stealth targets and so on, and the establishment of monostatic-bistatic composite HF radar network is the most achievable way to solve this problem. In this paper, based on the monostatic-bistatic composite HF radar network, the positioning principle and the detection accuracy are derived and simulated using curved face position analysis, the position precision curve is supplied and a high accuracy subset distributing picture is presented so as to provide a theoretical base of detecting, tracking and data fusion for the HF radar netting.
-
杨振起, 张永顺, 骆永军. 双(多)基地雷达系统. 北京: 国防工业出版社, 1998: 1-110.[2]Lane L and Alexander T. The bistatic coherent measurementsystem (BICOMS). The International Society for OpticalEngineering, Orlando, FL, United States, 1998: 37-47.[3]宋杰, 何友, 蔡复青, 唐小明. 非合作双基地雷达参数测量与定位方法研究. 系统工程与电子技术, 2008, 30(7): 1206-1209.[4]Farina A and Hanle E. Position accuracy in nettedmonostatic and bistatic radar[J].IEEE Trans. on Aerospace andElectronic Systems.1983, 19(4):513-520[5]Johnson T and Olsen K E. Hitchhiking bistatic radar:principles, processing and experimental findings. IEEE 2007Radar Conference, Waltham, MA, United States, 2007:518-523.[6]王鼎. 基于T-R型双基地雷达系统的定位算法研究. 电子信息对抗技术, 2008, 7(4): 16-21. 期刊类型引用(8)
1. 刘业民,刘晓娴,袁露,曾广论,吕汉峰. 前斜视SAR成像中几何校正问题研究. 航天电子对抗. 2023(02): 13-18 . 百度学术
2. XIONG Xuying,LI Gen,MA Yanheng,CHU Lina. New slant range model and azimuth perturbation resampling based high-squint maneuvering platform SAR imaging. Journal of Systems Engineering and Electronics. 2021(03): 545-558 . 必应学术
3. 丁柏圆,闫海鹏,黄光泉,魏子杰,刘承禹. 高速平台下动目标高分辨成像方法研究. 遥测遥控. 2021(06): 98-106 . 百度学术
4. 党彦锋,梁毅,张罡,梁宇杰,张玉洪. 机动平台俯冲大斜视SAR脉冲重复频率设计. 系统工程与电子技术. 2020(03): 575-581 . 百度学术
5. 孙宁霄,吴琼之,孙林. 基于局部最优匹配的斜视SAR子孔径成像算法. 电子与信息学报. 2017(12): 2851-2859 . 本站查看
6. 曹淑敏,吴文瑾,李新武,刘国林. 斜视SAR重采样误差分析及改进. 遥感信息. 2017(06): 1-7 . 百度学术
7. 董祺,杨泽民,李震宇,孙光才,邢孟道. 基于方位空变斜距模型的大斜视机动平台波数域SAR成像算法. 电子与信息学报. 2016(12): 3166-3173 . 本站查看
8. 董祺,邢孟道,李震宇,孙光才. 一种基于坐标轴旋转的俯冲段大斜视SAR波数域成像算法. 电子与信息学报. 2016(12): 3137-3143 . 本站查看
其他类型引用(19)
-
计量
- 文章访问数: 3596
- HTML全文浏览量: 121
- PDF下载量: 880
- 被引次数: 27