[1] 郭润兆, 段卓毅, 李小卫. 舰载机机舰适配性体系研究[J]. 航空科学技术, 2014, 25(3):10-13. GUO R Z, DUAN Z Y, LI X W. Study on adaptation system of carrier-based aircraft[J]. Aeronautic Science and Technology, 2014, 25(3):10-13(in Chinese). [2] 李清, 闫娟, 朱家强, 等. 航空武器装备顶层论证技术发展现状与趋势[J]. 航空学报, 2016, 37(1):1-2. LI Q, YAN J, ZHU J Q, et al. State of art development trend of top-level demonstration technology for aviation weapon equipment[J]. Acta Aeronautica et Astronautica Sinica, 2016, 37(1):1-2(in Chinese). [3] 赵定海, 黄玺瑛. 装备需求工程导论[M]. 北京:国防工业出版社, 2013:184. ZHAO D H, HUANG X Y. Introduction of equipment requirements engineering[M]. Beijing:National Defense Industry Press, 2013:184(in Chinese). [4] GUNZINGER M A. Sustaining America's strategic advantage in long-range strike[R]. Washington, D.C.:Center for Strategic and Budgetary Assessments, 2010. [5] MULLEN M G.Capabilities-based assessment (CBA) user's guide Version 3:JCS J-8[R]. Washington, D.C.:Force Structure, Resources, and Assessments Directorate, 2009. [6] 张志兵, 郭齐胜. 陆军武器装备需求论证理论与方法[M]. 北京:国防工业出版社, 2012:136-161. ZHANG Z B, GUO Q S. Theory and method of requirement demonstration for army weapon equipment[M]. Beijing:National Defense Industry Press, 2012:136-161(in Chinese). [7] 王侃, 王金良, 赵东波, 等. 装甲装备论证需求满足度评估方法[J]. 装甲兵工程学院学报, 2016, 30(2):6-11. WANG K, WANG J L, ZHAO D B, et al. Evaluation approach for requirement satisfactory degree of armored equipment demonstartion[J]. Journal of Academy of Armored Force Engineering, 2016, 30(2):6-11(in Chinese). [8] 石福丽. 基于QFD/SysML的舰船装备需求分析方法研究[D]. 长沙:国防科学技术大学, 2006:17-32. SHI F L. Research on requirement analysis of ship equipment based on QFD &SysML[D]. Changsha:National University of Defense Technology, 2006:17-32(in Chinese). [9] 倪卫星. 国外舰载直升机在航母编队中的地位和作用[J]. 直升机技术, 2015(1):70-73. NI W X. Research on helicopter's role and function in foreign carrier-aircraft fleet[J]. Helicopter Technique, 2015(1):70-73(in Chinese). [10] 叶文, 李海军, 胡卫强, 等. 航空武器系统分析[M]. 北京:国防工业出版社, 2011:22-25. YE W, LI H J, HU W Q, et al. Analysis of aviation weapon system[M]. Beijing:National Defense Industry Press, 2011:22-25(in Chinese). [11] 贾俊秀, 刘爱军, 李华. 系统工程学[M]. 西安:西安电子科技大学出版社, 2014:28-30. JIA J X, LIU A J, LI H. System engineering[M]. Xi'an:Xidian University Press, 2014:28-30(in Chinese). [12] 刘忠, 林华, 周德超. 军事系统工程[M]. 北京:国防工业出版社, 2014:5-7. LIU Z, LIN H, ZHOU D C. Military system engineering[M]. Beijing:National Defense Industry Press, 2014:5-7(in Chinese). [13] 杨克巍, 赵青松, 谭跃进, 等. 体系需求工程技术与方法[M]. 北京:科学出版社, 2011:8-12, 54, 219-220. YANG K W, ZHAO Q S, TAN Y J, et al. System-of-systems requirements engineering technology and method[M]. Beijing:Science Press, 2011:8-12, 54, 219-220(in Chinese). [14] 戴娟. 基于目标与场景的用例驱动需求分析技术研究[D]. 西安:西安电子科技大学, 2012:25-41. DAI J. Research on the goal and scenario based requirements analysis technique with use case driven[D]. Xi'an:Xidian University, 2012:25-41(in Chinese). [15] DoD Architecture Framework Working Group. DoD architecture framework Version 2.03-Volume 1:Introduction, overview, and concepts[R]. Washington, D.C.:Department of Defense, 2011:5-6. [16] 唐幼纯, 范君晖, 李红艳, 等. 系统工程——方法与应用[M]. 北京:清华大学出版社, 2011:94-95. TANG Y C, FAN J H, LI H Y, et al. System engineering-Method and application[M]. Beijing:Tsinghua University Press, 2011:94-95(in Chinese). [17] 付佩, 谷青范. 基于UML的可执行模型实现机制研究[J]. 航空电子技术, 2013, 44(1):10-14. FU P, GU Q F, Research of executable model realization mechanism based on UML[J]. Avionics Technology, 2013, 44(1):10-14(in Chinese). [18] 张韧, 彭鹏, 徐志升, 等. 航母战斗群海洋环境保障体系构架初探与实验建模[J]. 解放军理工大学学报(自然科学版), 2011, 12(1):97-102. ZHANG R, PENG P, XU Z S, et al. Primary investigation and experimental modeling for aircraft carrier formation oceanic environment supporting system[J].Journal of PLA University of Science and Technology (Natural Science Edition), 2011, 12(1):97-102(in Chinese). [19] 马世强. 起飞方式对舰载机结构重量的影响[J]. 舰载武器, 2007(5):73-78. MA S Q. Effect of takeoff mode on construction weight of shipboard plane[J]. Shipborne Weapons, 2007(5):73-78(in Chinese). [20] 孙晓羽. 舰船运用下舰载机阻拦着舰动力学分析与仿真[D]. 哈尔滨:哈尔滨工程大学, 2012:2-9. SUN X Y. The analysis of aircraft arrested landing under the motion of aircraft carrier[D]. Harbin:Harbin Engineering University, 2012:2-9(in Chinese). [21] 周胜明. 航母甲板运动对舰载机着舰影响仿真分析[J]. 飞机设计, 2012, 32(6):28-32. ZHOU S M. Simulation analysis on influence of carrier deck motion on carrier-based aircraft landing[J]. Aircraft Design, 2012, 32(6):28-32(in Chinese). [22] 于瀛. 影响舰载机着舰的环境因素[J]. 现代舰船, 2012(2A):25-27. YU Y. Environmental factors affecting carrier-based aircraft landing on carrier[J]. Modern Ships, 2012(2A):25-27(in Chinese). [23] 郭润兆, 张宏, 张健. 舰载机布局的机舰适配性设计研究[J]. 航空科学技术, 2014, 25(6):5-8. GUO R Z, ZHANG H, ZHANG J. The study on configuration adaptive design of carrier-basedaircraft[J]. Aeronautical Science & Technology, 2014, 25(6):5-8(in Chinese). [24] 冯强, 曾声奎, 康锐. 基于多主体的舰载机综合保障过程建模方法[J]. 系统工程与电子技术, 2010, 32(1):211-216. FENG Q, ZENG S K, KANG R. Multiagent-based modeling method for integrated logistic support of the carrier aircraft[J]. Systems Engineering and Electronics, 2010, 32(1):211-216(in Chinese). [25] 葛冰峰, 陈英武, 王军民, 等. 基于功能的武器装备体系结构描述方法[J]. 系统工程与电子技术, 2010, 32(1):94-99. GE B F, CHEN Y W, WANG J M, et al. Function-based approach for architecture description of weapons system-of-systems[J].Systems Engineering and Electronics, 2010, 32(1):94-99(in Chinese). [26] 李巧丽, 郭齐胜. 基于能力的装备需求论证框架[J]. 军事运筹与系统工程, 2009, 23(2):35-39. LI Q L, GUO Q S. Capability-based argumentation architecture for equipment requirements[J]. Military Operations Research and Systems Engineering, 2009, 23(2):35-39(in Chinese). [27] 陈英武, 豆亚杰, 程贲, 等. 基于作战活动分解的武器装备体系能力需求生成研究[J]. 系统工程理论与实践, 2011, 31(S1):154-163. CHEN Y W, DOU Y J, CHENG B, et al. Research on capability requirement generation of weapon system-of-systems based on operational activity decomposition[J]. Systems Engineering-Theory & Practice, 2011, 31(S1):154-163(in Chinese). [28] IBM Inc. System architect[EB/OL].[2017-06-14]. https://www.ibm.com/support/knowledgecenter/SS6RBX_11.4.2/com.ibm.sa_base.legal.doc/topics/rsysarch_overview_base.html. [29] DoD Architecture Framework Working Group. DoD architecture framework Version 2.03-Volume 2:Architectural data and models-Architect's guide1[R]. Washington, D.C.:Department of Defense, 2011:34-83. [30] IBM Inc.Rational DOORS[EB/OL].[2017-06-14]. https://www.ibm.com/support/knowledgecenter/SSYQBZ. [31] IBM Inc.Viewing DOORS objects linked to model artifacts while in rational system architect[EB/OL].[2017-06-14]. https://www.ibm.com/support/knowledgecenter/SS6RBX_11.4.2/com.ibm.sa.doors.doc/topics/r_view_model_artiface_link_doors_objects_in_sa.html. [32] 陈水利, 李敬功, 王向公. 模糊集理论及其应用[M]. 北京:科学出版社, 2016:207-213. CHEN S L, LI J G, WANG X G. Fuzzy set theory and application[M]. Beijing:Science Press, 2016:207-213(in Chinese). [33] 范周田. 模糊矩阵理论与应用[M]. 北京:科学出版社, 2007:1-13. FAN Z T. Fuzzy matrix theory and application[M]. Beijing:Science Press, 2007:1-13(in Chinese). [34] 仇安全. 浅谈航母舰载机的作战使用[J]. 国际航空, 2011(10):44-45. QIU A Q. A brief discussion on the operational use of carrier-based aircraft[J]. International Aviation, 2011(10):44-45(in Chinese). [35] 伊鸣, 罗孚. 舰载机的作战使用[J]. 兵工科技, 2011(7):29-42. YI M, LUO F. The operational use of carrier-based aircraft[J]. Ordnance Industry Science Technology, 2011(7):29-42(in Chinese). [36] 南建设, 缪彩练, 唐诗余.联合战场信息感知系统指标体系初探[J]. 中国电子科学研究院学报, 2007, 2(1):8-13. NAN J S, MIAO C L,TANG S Y.Discussion of intelligence sensing system of combined battlefield[J]. Journal of China Academy of Electronics and InformationTechnology, 2007, 2(1):8-13(in Chinese). [37] Department of Defense.Joint Service Specification Guides (JSSG)[EB/OL].[2017-06-14]. http://www.acqnotes.com/acqnote/tasks/joint-service-specification-guides. [38] 赵川. JSSG系列标准及其在航空动力系统中的应用[C]//第十二届中国标准化论坛论文集. 北京:中国标准化协会, 2015:1352-1357. ZHAO C. JSSG series standard and its application in aviation engine system[C]//12th China Standardization Forum Proceedings. Beijing:China Association for Standardization, 2015:1352-1357(in Chinese). [39] Ernest F. Expertchoice[EB/OL]. Arlington, VA:Expert Choice Inc.[2017-06-14]. http://www.expertchoice.com. [40] IBM Inc.Rational software architect simulation toolkit[EB/OL].[2017-06-14]. http://www-03.ibm.com/software/products/en/ratisoftarchsimutool. [41] IBM Inc.RationlTau[EB/OL].[2017-06-14]. http://www-03.ibm.com/software/products/da/ratitau/. [42] Lindo System Inc.LINGO and optimization modeling[EB/OL].[2017-06-14]. http://www.lindo.com/index.php/products/lingo-and-optimization-modeling. |