1 |
刘健, 罗亮. 高层反导部署方法[J]. 火力与指挥控制, 军事科学出版社, 2012, 37(9): 85-88.
|
|
LIU Jian, LUO Liang. High-level Anti-missile Deployment Methods[J]. Fire Control and Command Control, Military Science Press, 2012, 37(9): 85-88.
|
2 |
王成思, 刘明阳, 宋晋敏. 末段反导武器配系部署规划研究[J]. 现代防御技术, 2015, 40(6): 87-92.
|
|
WANG Cheng-si, LIU Ming-yang, SONG Jin-min. Research on the Deployment Planning of Terminal Anti-missile Weapons[J]. Modern Defense Technology, 2015, 40(6): 87-92.
|
3 |
黄仁全, 李为民, 田原, 等. 末段高低两层协同反导火力分配模型研究[J]. 现代防御技术, 2010, 38(4): 26-30.
|
|
HUANG Ren-quan, LI Wei-min, TIAN Yuan, et al. Study on the Firepower Distribution Model of the Terminal and the High and Low Level Coordinated Anti-missile[J]. Modern defense technology, 2010, 38 (4): 26-30.
|
4 |
蹇成刚, 陈峰, 岳旭斌. 海基反导资源部署及作战能力SEM评估[J]. 指挥信息系统与技术, 2018, 9(5): 74-79.
|
|
JIAN Cheng-gang, CHEN Feng, YUE Xu-bin. Sea-based Anti-missile Resource Deployment and SEM Evaluation of Combat Capability[J]. Command Information System and Technology, 2018, 9(5): 74-79.
|
5 |
季军亮, 汪民乐, 魏桥, 等. 多层反导协同作战有关问题及解决思路分析[J]. 飞航导弹, 2021(4): 68-73.
|
|
JI Jun-liang, WANG Min-yue, WEI Qiao, et al. Analysis on Problems and Solutions of Multi-layer Anti-missile Cooperative Operation[J]. Navigation Missile, 2021(4): 68-73.
|
6 |
陈杰生,孙东延,商长安,等.空天防御作战体系研究[M]. 北京: 军事科学出版社, 2015.
|
|
CHEN Jie-sheng, SUN Dong-yan, SHANG Chang-an,et al. Research on Air and Space Defense Combat System [M]. Beijing: Military Science Press, 2015.
|
7 |
崔建鹏, 辛永平, 刘肖健, 等. 基于改进TOPSIS模型的区域防空重点保卫目标优选与排序[J]. 现代防御技术,2012,40(3):34-38.
|
|
CUI Jian-peng, XIN Yong-ping, LIU Xiao-jian, et al. Optimization and Ordering of Key Defense Targets for Regional Air Defense Based on Improved TOPSIS Model[J]. Modern Defense Technology, 2012, 40(3): 34-38.
|
8 |
武文军, 张弓胤, 李红星, 等. 防空兵确定被保卫目标重要性的一种方法[J]. 火力与指挥控制, 2006, 31(2):69-72.
|
|
WU Wen-jun, ZHANG Gong-yin, LI Hong-xing, et al. A Method for Determining the Importance of Defended Targets by Air Defense Forces[J]. Fire Control & Command Control,2006,31(2):69-72.
|
9 |
孙一杰, 曾静, 杨先德. 基于变权重的多因子来袭导弹威胁评估[J]. 舰船电子工程, 2010, 193(7): 45-48.
|
|
SUN Yi-jie, ZENG Jing, YANG Xian-de. Multi-factor Threat Assessment of Incoming Missile Based on Variable Weight[J]. Ship Electronic Engineering, 2010, 193 (7) : 45-48.
|
10 |
李炜, 陈杰生, 王刚, 等. 区域反导战术[M]. 西安:空军工程大学防空反导学院, 2020.
|
|
LI Wei, CHEN Jie-sheng, WANG Gang, et al. Regional Anti-missile Tactics[M]. Xi'an: Air Defense and Missile Defense College, Air Force Engineering University, 2020.
|
11 |
陈玉茹, 郭睿志, 李晴, 等. 基于动态规划的树状结构武器装备系统资源优化配置算法[J]. 兵工自动, 2010, 36(10): 11-16.
|
|
CHEN Yu-ru, GUO Rui-zhi, LI Qing, et al. Resource Optimal Allocation Algorithm of Tree Structure Weapon System Based on Dynamic Programming[J]. Ordnance Industry Automation, 2010, 36 (10) : 11-16.
|
12 |
张明智,杨镜宇,刘宇,等.军事定量分析方法[M]. 北京:国防工业出版社, 2015.
|
|
ZHANG Ming-zhi, YANG Jing-yu, LIU Yu. Military Quantitative Analysis Method[M]. Beijing: National Defense Industry Press, 2015.
|
13 |
刘兴. 防空防天信息系统及其一体化技术[M]. 北京: 国防工业出版社, 2009.
|
|
LIU Xing. Air defense and Air Defense Information System and its Integrated Technology [M]. Beijing: National Defense Industry Press, 2009.
|
14 |
JIANG X Y, LI S. BAS: Beetle Antennae Search Algorithm for Optimization Problems[J]. arXiv:1710. 10724,2017.
|
15 |
廖列法, 杨红. 天牛须搜索算法研究综述[J]. 计算机工程与应用,2021,57(12):54-64.
|
|
LIAO Lie-fa, YANG Hong. Summary of Longicorn Whisker Search Algorithm[J]. Computer Engineering and Applications, 201, 57(12): 54-64.
|
16 |
刘朝, 黄立文, 张可, 等. 基于天牛须搜索算法的多船避碰决策方法[J]. 武汉理工大学学报(交通科学与工程版), 2021,45(5):1000-1004.
|
|
LIU Chao, HUANG Liwen, ZHANG Ke, et al. Collision Avoidance Decision Method for Multiple Ships Based on Longhorn Search Algorithm [J]. Journal of Wuhan University of Technology (Transportation Science and Engineering), 2021,45(5):1000-1004.
|
17 |
欧阳城添, 周凯. 融合改进天牛须搜索的教与学优化算法[J]. 计算机工程与应用, 2022,58(4):91-99.
|
|
OUYANG Cheng-tian, ZHOU Kai. Improved Teaching and Learning Optimization Algorithm based on Fusion of Longhorn Search[J]. Computer Engineering and Applications, 2022,58(4):91-99.
|