[1] 李洪烈, 陈定荣.高精度中远程导航系统发展述评[J]. 航天电子技术, 2008, 39(1):14-17, 23. LI H L, CHEN D R. A review of a high precision and mid-long distance navigation system development[J].Avionics Technology, 2008, 39(1):14-17, 23.(in Chinese) [2] 李伟, 龙飞, 孙续文.未来中远程反舰导弹完全自主导航与制导探析[J].飞航导弹, 2018(4):74-76. LI W, LONG F, SUN X W. Study on the autonomous navigation and guidance of future medium and long range anti-ship missile[J]. Aerodynamic Missile Journal, 2018(4):74-76.(in Chinese) [3] 王琼, 王萍, 袁诚. 多普勒导航系统定位精度评估研究[C]∥第三十一届全国直升机年会. 临汾:陆军航空兵学院, 2015(5): 81-84. WANG Q, WANG P, YUAN C. Push the navigation positioning error analysis research[C]∥Proceedings of the Thirty-first Annual National Helicopter Conference. Linfen: Army AviationCollege, 2015(5):81-84.(in Chinese) [4] BERGER F B. The nature of doppler velocity measurement[J]. IRE Transactions on Aeronautical and Navigational Electronics, 1957,ANE-4(3):103-112. [5] NEKRASOV A. Measuring the sea surface wind vector by the doppler navigation system of flying apparatus having the track-stabilized four-beam antenna[C]∥Proceedings of 2005 Asia-Pacific Microwave Conference. Suzhou, China: IEEE, 2005. [6] 向劼, 茅永兴, 郭才发. 船载雷达测速数据的船速修正新方法[J]. 兵工学报, 2017, 38(11):2268-2273. XIANG J, MAO Y X, GUO C F. A new method for ship speed correction of radar velocity data[J]. Acta Armamentarii, 2017, 38(11):2268-2273.(in Chinese) [7] YANG B, XUE L, FAN H D, et al. SINS/odometer /doppler radar high-precision integrated navigation method for land vehicle[J].IEEE Sensors Journal, 2021, 21(13):15090-15100. [8] KELLNER D, BARJENBRUCH M, DIETMAYER K, et al.Instantaneous lateral velocity estimation of a vehicle using doppler radar[C]∥Proceedings of the 16th International Conference on Information Fusion. Istanbul, Turkey: IEEE,2013:877-884. [9] 彭广林, 吴训忠, 刁鹏.基于SAR辅助的INS/Doppler组合导航系统研究[J].弹载与制导学报, 2009, 29(1):77-80. PENG G L, WU X Z, DIAO P. The study on INS/Doppler integrated navigation system based on the assistance of SAR[J]. Journal of Projectiles, Rockets, Misssiles and Guidance, 2009, 29(1): 77-80.(in Chinese) [10] 白宏阳.基于多普勒雷达的机载自主组合导航系统研究[D].南京:南京理工大学, 2012. BAI H Y. Research on self-contained integrated navigation system for helicopters based on doppler radar[D].Nanjing:Nanjing University of Science & Technology, 2012.(in Chinese) [11] WILLIAM J T. The early history of airborne system[J].The Journal of the Institute of Navigation, 1996, 43(1):121-136. [12] 张福斌, 马朋, 王智辉. 基于横坐标系的捷联惯性导航系统多普勒速度仪极区组合导航算法[J]. 兵工学报, 2016, 37(7): 1229-1235. ZHANG F B, MA P, WANG Z H. Polar integrated navigation algorithm of doppler velocimeter for strapdown inertial navigation system based on abscissa[J] Acta Armamentarii, 2016, 37(7):1229-1235.(in Chinese) [13] 马俊, 曹成度, 闵阳, 等. SINS/GNSS组合导航系统中激光多普勒测速仪参数估计[J].激光杂志, 2021, 42(3):47-51. MA J, CAO C D, MIN Y, et al. Parameter estimation of laser doppler velocimeter in SINS/GNSS integrated navigation system[J].Laser magazine, 2021, 42(3):47-51.(in Chinese) [14] 赵宇德.一种全自主高精度组合导航系统技术方案设想[J].飞航导弹, 2013(12):71-74:85. ZHAO Y D. Technical scheme of a fully autonomous high precision integrated navigation system[J].Winged missile, 2013(12): 71-74:85.(in Chinese) [15] 朱兵, 常国宾, 何泓洋, 等. SINS/DVL/AST水下组合导航中的鲁棒信息融合方法[J].国防科技大学学报, 2020, 42(5): 107-114. ZHU B, CHANG G B, HE H Y, et al. Robust information fusion method in SINS/DVL/AST underwater integrated navigation[J].Journal of National University of Defense Technology, 2020, 42(5):107-114.(inChinese) [16] KENNEDY T A. Strapdown inertial measurement units for motion compensation for synthetic aperture radars[J]. IEEE Aerospace and Electronic Systems Magazine, 1988, 3(10):32-35. [17] 腾飞.组合导航系统中的SAR图像匹配算法研究[D].南京:南京航空航天大学, 2010. TENG F. Research on SAR imaging matching algorithm in integrated navigation system[D]. Nanjing:Nanjing University of Aeronautics and Astronautics, 2010.(in Chinese) [18] RALPH H, RASSHOFER, ERWIN M, Biebl. A low cost w-band multi-beam doppler radar for automotive applications[J]. IEEE MTT-S Digest, 1997, 6:971-974. [19] 福祥, 保铮, 袁建平, 等.用于SAR运动补偿的DGPS/SINS组合系统研究[J].航空学报, 2001, 22(2):121-124. CAO F X, BAO Z, YUAN J P, et al. DGPS/SINS integrated system used in SAR mMotion compensation[J].Journal of Aviation, 2001, 22(2):121-124.(in Chinese) [20] 许辉, 孙英钦, 安广锐, 等.平台转动对SAR成像的影响分析[J].应用光学, 2019, 40(6):1039-1044. XU H, SUN Y Q, AN G R, et al. Analysis on effect of platform rotation on SAR imaging[J]. Journal of Applied Optics, 2019, 40(6):1039-1044.(in Chinese) [21] 郭春梅, 王岩飞.基于四元数的姿态变换关系在SAR运动补偿中的应用[J].电子与信息学报, 2008, 30(4):898-901. GUO C M, WANG Y F. The application of transformation relationship between quaternion and attitudes to SAR motion compensation[J].Journal of Electronics & Information Technology, 2008, 30(4):898-901.(in Chinese) [22] 张延, 张林让, 唐世阳. 基于运动补偿的弹载前斜视SAR成像算法[J].电子与信息学报, 2016, 38(12):3159-3165. ZHANG Y, ZHANG L R, TANG S Y.Novel missile-borne forward-looking SAR algorithm based on motion compensation[J].Journal of Electronics & Information Technology, 2016, 38(12): 3159-3165. (in Chinese) [23] 孙丽.复杂运动平台SAR运动补偿算法研究[].成都:电子科技大学, 2015. CUN L.Study of motion compensation algorithm of SAR imaging based of platform's complex movement[D]. Chengdu:University of Electronic Science and Technology of China, 2015.(in Chinese) [24] 陈圣义, 刘晓春, 滕锡超, 等.基于高精度景象匹配的SAR平台定位方法[J].国防科技大学学报, 2016 38(5): 121-126. CHEN S Y, LIU X C, TENG X C, et al. SAR positioning method based on high-precision scene matching[J]. Journal of National University of Defense Technology, 2016 38(5):121-126. (in Chinese)
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