References
- Aravamudhan, S., and S. Bhansali. 2008. Reinforced piezoresistive pressure sensor for ocean depth measurements. Sensors and Actuators A: Physical 142 (1):111–7.
- Ballu, V. S., J. A. Hildebrand, and S. C. Webb. 1998. Seafloor gravity evidence for hydrothermal alteration of the sediments in Middle Valley, Juan de Fuca Ridge. Marine Geology 150 (1–4):99–111.
- Cai, S., M. Wu, K. Zhang, J. Cao, Z. Tuo, and Y. Huang. 2013. The first airborne scalar gravimetry system based on SINS/DGPS in China. Science China Earth Sciences 56 (12):2198–208.
- Cai, S., K. Zhang, M. Wu, and J. Cao. 2015. Strapdown airborne gravity vector measurement based on SINS/DGPS. Marine Mapping 24–8.
- Forsberg, R., A. Olesen, K. Keller, M. Møller, A. Gidskehaug, and D. Solheim. 2001. Airborne gravity and geoid surveys in the Arctic and Baltic seas. Proceedings of international symposium on kinematic systems in geodesy, geomatics and navigation (KIS-2001), 586–93, Banff.
- Fujimoto, H., K. Koizumi, M. Watanabe, A. Oshida, T. Furuta, N. Takamura, and T. Ura. 2000. Underwater gravimeter on board the R-One Robot. Proceedings of the 2000 International Symposium on Underwater Technology (Cat. No. 00EX418), 297–300, IEEE.
- Green, A., and R. Lane. 2003. Estimating noise levels in AEM data. ASEG Extended Abstracts 2003 (2):1–5.
- Guo, Z., S. Xiong, J. Zhou, and X. Zhou. 2008. Study on data quality evaluation method of airborne gravity repeated lines test. Journal of Geophysics 51:1538–43.
- Ishihara, T., M. Shinohara, A. Araya, T. Yamada, T. Kanazawa, K. Uehira, M. Mochizuki, H. Fujimoto, S. Tsukioka, and S. Omika. 2016. Development of an underwater gravity measurement system with autonomous underwater vehicle for marine mineral exploration. 2016 Techno-Ocean (Techno-Ocean), 127–133, IEEE.
- Ishihara, T., M. Shinohara, H. Fujimoto, T. Kanazawa, A. Araya, T. Yamada, K. Iizasa, S. Tsukioka, S. Omika, T. Yoshiume, et al. 2018. High-resolution gravity measurement aboard an autonomous underwater vehicleHigh-resolution AUV gravity measurement. Geophysics 83 (6):G119–35.
- Kinsey, J. C., M. A. Tivey, and D. R. Yoerger. 2008. Toward high-spatial resolution gravity surveying of the mid-ocean ridges with autonomous underwater vehicles. Oceans 2008, 1–10, IEEE.
- Kinsey, J. C., M. A. Tivey, and D. R. Yoerger. 2013. Dynamics and navigation of autonomous underwater vehicles for submarine gravity surveying. Geophysics 78 (3):G55–68.
- Kiselev, L. V., A. V. Medvedev, V. B. Kostousov, and A. E. Tarkhanov. 2017. Autonomous underwater robot as an ideal platform for marine gravity surveys. 201,724th Saint Petersburg International Conference on Integrated Navigation Systems (ICINS), 1–4, IEEE.
- Li, J. 2012a. The latest China land digital elevation datum model: Gravity Quasi Geoid CNGG 2011. Acta Geodaetica et Cartographica Sinica 41:651–60.
- Li, J. 2012b. The significance of the earth gravity field and its role in earth science. Education of Geography 2.
- Liu, Z., J. Li, X. Xiao, Q. Zhang, J. Yue, and G. Li. 2019. Static measurement experiment and performance analysis of gt-2a airborne gravimeter. Journal of Wuhan University (Information Science Edition) 44:482–8.
- Shen, W., J. Ning, J. Liu, and D. Yao. 2003. On the separation of gravitation and inertia force of moving carrier. Geomatics and Information Science of Wuhan University.
- Studinger, M., R. Bell, and N. Frearson. 2008. Comparison of AIRGrav and GT-1A airborne gravimeters for research applications. Geophysics 73 (6):I51–61.
- Yan, B., B. Sun, and J. Zhang. 2019. Ship static electric field tracking based on filter bank. Acta Armamentarii 1468–75.
- Yu, R., S. Cai, M. Wu, J. Cao, K. Zhang, and P. Wang. 2015. Research on strapdown vehicle gravimetry based on SINS/GNSS. Geophysical and Geochemical Exploration 39:67–71.
- Zhang, K. 2007. Research on airborne gravimetry based on SINS/DGPS. Changsha: National University of Defense Science and Technology.
- Zhang, Z., B. Chen, D. Li, and Y. Huang. 2017. Low cost line patrol visual recognition system for UUV. Mine Warfare and Ship Protection 2.
- Zhang, Z., H. Cheng, and Y. Cui. 2019. Research on the submarine detection method based on the airborne gravity vertical gradient. Hydrographic Surveying and Charting 3.
- Zumberge, M., J. Ridgway, and J. Hildebrand. 1998. A towed marine gravity meter for near-bottom surveys. Oceanographic Literature Review 2:260.