Citation: | ZHONG Hong-wei, LI Guo-liang, SONG Lin-hua, MO Chun-jun. Development of Large Displacement Unmanned Undersea Vehicle in Foreign Countries: a Review[J]. Journal of Unmanned Undersea Systems, 2018, 26(4): 273-282. doi: 10.11993/j.issn.2096-3920.2018.04.001 |
[1] |
United States Navy. The Navy Unmanned Undersea Vehicle Master Plan[R]. U.S.: Department of the Navy, 2004.
|
[2] |
United States Department of Defense. Unmanned Systems Roadmap FY2007-2032[R]. U.S.: United States Departm- ent of Defense, 2007.
|
[3] |
United States Department of Defense. Unmanned Systems Integrated Roadmap FY2009-2034[R]. U.S.: United States Department of Defense, 2009.
|
[4] |
United States Department of Defense. Unmanned Systems Integrated Roadmap FY2011-2036[R]. U.S.: United States Department of Defense, 2011.
|
[5] |
United States Department of Defense. Unmanned Systems Integrated Roadmap FY2013-2038[R]. U.S.: United States Department of Defense, 2013.
|
[6] |
陈强. 水下无人航行器[M]. 北京: 国防工业出版社, 2014.
|
[7] |
United States Navy. Autonomous Undersea Vehicle Requirement for 2025[R]. U.S.: United States Department of Defense, 2016.
|
[8] |
William S, Lockheed M, Brett Phaneuf, et al. Extremely Large Unmanned Underwater Vehicles(ELUUV) as Force Multiplier(7C/7C.2)[C]//MAST Europe 2013. Germany: UDT, 2013.
|
[9] |
Department of the Navy. Large Displacement Unmanned Underwater Vehicle Innovative Naval Prototype Technology[R]. ONRBAA Announcement, 2015.
|
[10] |
国外舰船装备与技术发展报告编写组. 国外舰船装备与技术发展报告2017: 海上无人系统(无人航行器)[G]. 北京: 中国船舶重工集团公司, 2018.
|
[11] |
Steven Stashwick. Restroring American Sea Power—— New Fleet Structure of the US Navy[R]. US Strategic and Budget Assessment Center(CSBA), 2017.
|
[12] |
Lee S K, Sohn K H, Byun J Y, et al. Modeling and Controller Design of Manta-type Unmanned Underwater Test Vehicle[J]. Journal of Mechanical Science & Technology, 2009, 23(4): 987-990.
|
[13] |
Daniel Deitz. LDUUV INP Industry Day Large UUV Autonomy[EB/OL].(2007)[2018-06-13].Http://auvac.org/… / 734-LDUUV pdf.
|
[14] |
Office of Naval Researcher. Large Displacement Unmanned Underwater Vehicle Innovative Naval Prototype(LDUUV- INP)[EB/OL]. (2015-04-13)[2018-06-13]. http://www.navaldrones.com/LDUUV-INP.html.
|
[15] |
国外舰船装备与技术发展报告编写组. 国外舰船装备与技术发展报告2016: 海上无人系统(无人航行器)[G]. 北京: 中国船舶重工集团公司, 2017.
|
[16] |
国外舰船装备与技术发展报告编写组. 国外舰船装备与技术发展报告2014: 海上无人系统(无人航行器)[G]. 北京: 中国船舶重工集团公司, 2015.
|
[17] |
Jeff Smith, Ross Lindman. Proteus-Large Diameter Undersea Vehicle And Its Applications For Undersea Warfare [EB/OL].(2012-5)[2018-06-13].http://www.10thsymposium.com.
|
[18] |
国外舰船装备与技术发展报告编写组. 国外舰船装备与技术发展报告2017: 海上无人系统(无人航行器)[G]. 北京: 中国船舶重工集团公司, 2018.
|
[19] |
Defense Science Board. Next-Generation Unmanned Und- ersea Systems[R]. U.S.: Office of the Secretary of Defense, 2016.
|
[20] |
施普森. 俄新一代无人水下装备将在克里米亚海军试验场[EB/OL]. (2018-05-06)[2018-06-13]. http://www. dsti.net/Information/News/109602.
|