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All issues Volume 44 / No 1 (February 2026) JNWPU, 44 1 (2026) 81-91 References
Open Access
Issue
JNWPU
Volume 44, Number 1, February 2026
Page(s) 81 - 91
DOI https://doi.org/10.1051/jnwpu/20264410081
Published online 27 April 2026
  1. Cui W T, Ben Y Y, Zhang H X. A review of polar marine navigation schemes[C]//2020 IEEE/ION Position, Location and Navigation Symposium, Portland, 2020: 851–855. [Google Scholar]
  2. Sun J, Ma S, Wang J, et al. Reconciliation problem in polar integrated navigation considering coordinate frame transformation[J]. IEEE Trans on Vehicular Technology, 2020, 69(9): 10375–10379 [Article] [Google Scholar]
  3. Zeng Junbao, Li Shuo, Liu Ya. Application of unmanned underwater vehicles in polar research[J]. Advances in Polar Science, 2021, 32(3): 173–184 [Google Scholar]
  4. Qin Fangjun, Chang Lubin, Li An. Improved transversal polar navigation mechanism for strapdown INS using ellipsoidal earth model[J]. Journal of Navigation, 2018, 71(6): 1460–1476 [Article] [Google Scholar]
  5. Li J, Gao J, Liang Z, et al. Analysis of polar region navigation algorithm of laser gyro single-axis rotation modulation inertial navigation[C]//2021 International Conference on Mechatronics, Automation and Intelligent Control, Kunming, China, 2022: 012030. [Google Scholar]
  6. Yan Zheping, Wang Lu, Zhang Wei, et al. Polar grid navigation algorithm for unmanned underwater vehicles[J]. Sensors, 2017, 17(7): 1599 [Article] [Google Scholar]
  7. Zhao Wangyang, Zhang Guangtuo, Liu Wei, et al. Working performance analysis on polar navigation of semi-analytical inertial navigation system[C]//2021 IEEE Conference on Telecommunications, Optics and Computer Science, Shenyang, China, 2021: 114–118. [Google Scholar]
  8. Liu Wenchao, Bian Hongwei. Polar grid rumble route based on polar stereographic projection[J]. Acta Geodaetica et Cartographica Sinica, 2019, 48(1): 18–23 (in Chinese) [Google Scholar]
  9. Cheng Yan, Zhou Qi. Test validation of indirect grid inertial navigation mechanization[C]//6th Conference on Signal and Information Processing, Networking and Computers, Guiyang, China, 2019: 409–419. [Google Scholar]
  10. Sun L J, Zhang W L, Chen Y X, et al. Based on grid reference frame for SINS/CNS integrated navigation system in the polar regions[J]. Complexity, 2019(1): 2164053 [Google Scholar]
  11. Ben Y, Cui W, Li Q. An improved damper method for grid inertial navigation system in polar region[J]. IEEE Trans on Instrumentation and Measurement, 2022, 71: 1–13 [NASA ADS] [Google Scholar]
  12. Zhou Qi, Qin Yongyuan, Fu Qiangwen, et al. Grid mechanization in inertial navigation systems for transpolar aircraft[J]. Northwestern Polytechnical University, 2013, 31(2): 210–217 [Article] (in Chinese) [Google Scholar]
  13. Ji Saokang, Sha Shaolin, Gao Fengjuan. Research on inertial navigation error algorithm for polar grid in ECEF coordinate positioning[J]. Aeronautical Computing Technique, 2023, 53(5): 57–61 (in Chinese) [Google Scholar]
  14. Xu Xiang, Wu Zijing, Yao Yiqing, et al. In-motion polar alignment method with unified navigation mechanization and transverse virtual polar region technology[J]. IEEE Trans on Instrumentation and Measurement, 2025, 74: 1–13 [Google Scholar]
  15. Zhou X, Zhao J, Chang Y. Polar transverse SINS/DVL/GNSS integrated navigation algorithm based on federated filtering[C]//2025 5th International Conference on Mechanical, Electronics and Electrical and Automation Control, Chongqing, China, 2025: 311–316. [Google Scholar]
  16. Liu Meng, Li Guangchun, Gao Yanbin, et al. Improved polar inertial navigation algorithm based on pseudo INS mechanization[J]. Aerospace Science and Technology, 2018, 77: 105–116 [Article] [Google Scholar]
  17. Zhang Yongjian, Wang Lin, Wei Guo, et al. Polar region integrated navigation method based on covariance transformation[J]. Applied Sciences-Basel, 2021, 11(20): 9572 [Article] [Google Scholar]
  18. Cohen Nadav, Klein Itzik. Inertial navigation meets deep learning: a survey of current trends and future directions[J]. Results in Engineering, 2024, 24: 103565 [Article] [Google Scholar]
  19. Li Zhexin, Li Bing, Zhang Xinmin, et al. Polar integrated navigation algorithm based on transverse earth coordinate system[C]//38th Youth Academic Annual Conference of Chinese Association of Automation, Hefei, China, 2023: 363–369. [Google Scholar]
  20. Cheng Haibin, Lu Hao, Xu Jianyun. A polar navigation algorithm of strapdown inertial navigation system under frozen geography frame[J]. Chinese Space Science and Technology, 2020, 40(2): 35–41 (in Chinese) [Google Scholar]
  21. Li Qian, Ben Yueyang, Yu Fei, et al. Transversal strapdown INS based on reference ellipsoid for vehicle in the polar region[J]. IEEE Trans on Vehicular Technology, 2016, 65(9): 7791–7795 [Article] [Google Scholar]
  22. Yao Yiqing, Xu Xiaosu, Li Yao, et al. Transverse navigation under the ellipsoidal earth model and its performance in both polar and non-polar areas[J]. Journal of Navigation, 2016, 69(2): 335–352 [Article] [Google Scholar]
  23. Li Guangwei, Zhai Shaobo, Jia Qiuling. Civil airliner flight guidance technology for four-dimensional trajectory-based operation[M]. Beijing: Publishing House of Electronics Industry, 2023 (in Chinese) [Google Scholar]
  24. Yang L, Zhai S B, Li G W, et al. Generation of guidance commands for civil aircraft to execute RNP AR approach procedure at high plateau[J]. Aerospace-Basel, 2023, 10(5): 396 [Article] [Google Scholar]
  25. Qin Yongyuan. Inertial navigation[M]. Beijing: Science Press, 2020 (in Chinese) [Google Scholar]
  26. Wen Chaojiang, Bian Hongwei, Chen Qiu, et al.. Error analysis of polar projection based on double polar stereographic projection[J]. Hydrographic Surveying and Charting, 2015, 35(1): 34–37 (in Chinese) [Google Scholar]
  27. Li G W, Zhai S B, Jia Q L. Civil airliner flight guidance technology for four-dimensional trajectory-based operation[M]. Singapore: Springer, 2025: 103–115 [Google Scholar]

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