[1] Titterton D H, Weston J L. Strapdown Inertial Navigation Technology［M］. London: Peter Peregrinus Ltd, 1997.

[2] Mochalov A V, Kazantsev A V. Use of ring laser units for measurement of moving object deformations［J］. Proceedings of SPIE, 2002, 4680: 85–92.

[3] Carlson N A, Kelley R T, Beming S L. Differential inertial filter for dynamic sensor alignment［C］//Proceedings of the 1994 National Technical Meeting of The Institute of Navigation, San Diego, CA, 1994: 341–351.

[4] Kaiser J, Beck G, Berning S. Vital advanced inertial network［C］//Proceedings of the IEEE 1998 Position Location and Navigation Symposium, Palm Springs, CA, USA, 1998: 61–68.

[5] Kelley R T, Carlson N A, Berning S. Integrated inertial network［C］//Proceedings of 1994 IEEE Position, Location and Navigation Symposium, Las Vegas, NV, USA, 1994: 439–446.

[6] Joon L, You-Chol L. Transfer alignment considering measurement time delay and ship body flexure［J］. Journal of Mechanical Science and Technology, 2009, 23(1): 195–203.

[7] 姜广文. 像机链位姿传递摄像测量方法及船体变形测量研究［D］. 长沙: 国防科学技术大学, 2010.

    Jiang G W. Study on pose relay videometrics method with camera-series and ship deformations measurement［D］. Changsha: National University of Defense Technology, 2010.

[8] 汪顺亭, 汪湛清, 朱昀炤, 等. 船体变形的监测方法及其对航向姿态信息的修正［J］. 中国惯性技术学报, 2007, 15(6): 635–641.

    Wang S T, Wang Z Q, Zhu Y Z, et al. Monitoring on ship hull deformation and correction for heading & attitude information［J］. Journal of Chinese Inertial Technology, 2007, 15(6): 635–641.

[9] 万德钧, 刘玉锋. 消减舰船变形的影响和为全舰提供高精度姿态基准［J］. 中国惯性技术学报, 2005, 13(4): 77–82.

    Wan D J, Liu Y F. Summary on removing influence of ship deformation and providing accurate attitude references for warship［J］. Journal of Chinese Inertial Technology, 2005, 13(4): 77–82.

[10] 郑佳兴, 秦石乔, 王省书, 等. 基于姿态匹配的船体形变测量方法［J］. 中国惯性技术学报, 2010, 18(2): 175–180.

    Zheng J X, Qin S Q, Wang X S, et al. Attitude matching method for ship deformation measurement［J］. Journal of Chinese Inertial Technology, 2010, 18(2): 175–180.

[11] 郑佳兴, 秦石乔, 王省书, 等. 考虑准静态缓变量的船体角形变测量［J］. 中国惯性技术学报, 2011, 19(1): 6–10.

    Zheng J X, Qin S Q, Wang X S, et al. Ship hull angular deformation measurement taking slow-varying quasi-static component into account［J］. Journal of Chinese Inertial Technology, 2011, 19(1): 6–10.

[12] Schneider A M. Kalman filter formulations for transfer alignment of strapdown inertial units［J］. Navigation, 1983, 30(1): 72–89.

[13] Day D L, Arruda J. Measuring structural flexure to improve precision tracking［J］. ADA364862, 1999.

[14] Shin E H, El-Sheimy N. An unscented Kalman filter for in-motion alignment of low-cost IMUs［C］//Proceedings of the PLANS 2004. Position Location and Navigation Symposium, Monterey, CA, USA, 2004: 273–279.

[15] 刘文涛, 刘洁瑜, 沈强. 光纤陀螺随机误差的集成建模及滤波处理［J］. 光电工程, 2018, 45(10): 180082.

    Liu W T, Liu J Y, Shen Q. Integrated modeling and filtering of fiber optic gyroscope's random errors［J］. Opto-Electronic Engineering, 2018, 45(10): 180082.