[1] 军范.防空导弹成本新低!单价10万美元,专为无人机而生[N].腾讯新闻,2020-11-16. JUN F. The cost of air defense missile is at a new low! the unit price is USD 100000, which is specially designed for UAVs[N]. Tencent News, 2020-11-16.(in Chinese) [2] 美空军测试新低成本巡航导弹防御武器,命中无人机[Z].综保防务进行时,2019-12-27. The US Air Force tested the new low-cost cruise missile defense weapon and hit the UAV [Z]. Comprehensive Defense is Ongoing, 2019-12-27. (in Chinese) [3] 廖南杰.装备发展:低成本、远射程!美国波音公司推出“动力型杰达姆”作为巡航导弹低成本替代方案[Z].空天防务观察,2020-03-04. LIAO N J.Equipment development: low cost, long range! Boeing Company of the United States launched “Powered JDAM ” as a low-cost alternative to cruise missiles [Z]. Aerospace Defense Observation, 2020-03-04. (in Chinese) [4] 宋怡然.装备发展:美国空军发展“灰狼”低成本防区外空地导弹[Z].海鹰资讯,2017-03-15. SONG Y R. Equipment development: the US air force develops the “Grey Wolf” low cost defense area space to surface missile [Z]. Hiwing News, 2017-03-15. (in Chinese) [5] 刘联富.战术导弹全寿命周期成本分析[C]∥2012年度中国总会计师优秀论文选.北京:中国总会计师协会,2013:410-420. LIU L F.Life cycle cost analysis of tactical missile[C]∥Proceedings of Selected Outstanding Papers of China's Chief Accountant in 2012.Beijing: CACFO,2013: 410-420. (in Chinese) [6] 严玉廷,赵明楠,赵振家,等.基于成本分析的汽车企业成本管理体系构建[J].企业改革与管理,2018(23):123-125. YAN Y T, ZHAO M N, ZHAO Z J, et al. Construction of cost management system of automobile enterprises based on cost analysis[J]. Enterprise Reform and Management,2018(23):123-125. (in Chinese) [7] 刘白羽,黄金元,史宪铭. CAIV技术研究现状综述[J].四川兵工学报,2009,30(9):145-148. LIU B Y, HUANG J Y, SHI X M. CAIV technology research status review [J]. Journal of Sichuan Ordnance,2009,30(9):145-148. (in Chinese) [8] 谭云涛,郭波.基于CAIV的武器装备费效分析与指标决策方法研究[J].系统工程理论与实践,2007,27(11):48-53. TAN Y T, GUO B. A cost-effectiveness analysis &target demonstration method based-on CAIV[J]. Systems Engineering Theory & Practice,2007,27(11):48-53. (in Chinese) [9] 谭云涛,郭波.基于CAIV的航空发动机性能与费用的综合权衡模型框架[J].航空动力学报,2007,22(8):1309-1314. TAN Y T, GUO B. Aircraft engine performance-cost tradeoff model framework based-on CAIV[J]. Journal of Aerospace Power,2007,22(8):1309-1314. (in Chinese) [10] 张超生.目标成本法及其案例研究[D].武汉:武汉大学,2003. ZHANG C S. The basic principle of target costing and case study [D]. Wuhan:Wuhan University,2003. (in Chinese) [11] 杨鹏飞.复杂产品费用估算系统及关键技术研究[D].南京:南京理工大学,2015. YANG P F. Research on complex product cost estimation system and key technologies [D]. Nanjing:Nanjing University of Science and Technology,2015. (in Chinese) [12] 苏航.面向不确定性的机械产品生产成本预测与监控方法研究[D].成都:电子科技大学,2016. SU H. Research on forecasting and monitoring methods of production cost with uncertainty [D]. Chengdu:University of Electronic Science and Technology of China, 2016. (in Chinese) [13] 高璐. HTEY导弹武器系统全寿命周期成本控制问题研究[D].哈尔滨:哈尔滨工业大学,2009. GAO L. HTEY the life cycle cost of missile weapon system contralling issue research [D]. Harbin :Harbin Institute of Technology,2009. (in Chinese) [14] 刘宁,陈松,郝振辉,等.航天项目研制过程中成本控制方法探索[J].军民两用技术与产品,2017(9):49-52. LIU N, CHEN S, HAO Z H,et al. Exploration of cost control methods in the process of space project development [J]. Dual Use Technologies & Products,2017(9):49-52. (in Chinese) [15] 徐源,张峰,薛惠锋.航天产品性能样机协同仿真系统可靠性指标分配优化研究[J].电子设计工程,2016,24(9):101-104. XU Y, ZHANG F, XUE H F. New collaborative simulation system reliability allocation optimization model for performance prototype of aerospace product[J]. Electronic Design Engineering,2016,24(9):101-104. (in Chinese) [16] 张晓梅.面向航空复杂产品的装配工艺优化设计技术[J].智能制造,2020(6):35-38. ZHANG X M. Assembly process optimization design technology for aviation complex products [J]. Intelligent Manufacturing,2020(6):35-38. (in Chinese) [17] 党卫兵,徐增光,郑丹力,等.基于MBD的航天设计制造一体化研究与应用[J].空天防御,2018,1(3):38-43. DANG W B, XU Z G, ZHENG D L,et al. Research and application of aerospace design and manufacturing integration based on MBD[J]. Air & Space Defense,2018,1(3):38-43.(in Chinese)
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