Journal of System Simulation ›› 2021, Vol. 33 ›› Issue (8): 1914-1926.doi: 10.16182/j.issn1004731x.joss.21-0227
Previous Articles Next Articles
Huang Xiaodong1, Xie Kongshu1,*, Li Ni2, Yan Xuefeng3, Zhao Yali4
Received:
2021-03-19
Revised:
2021-04-11
Published:
2021-08-19
CLC Number:
Huang Xiaodong, Xie Kongshu, Li Ni, Yan Xuefeng, Zhao Yali. Research and Application of Simulation Support Platform for System-of-Systems Combat[J]. Journal of System Simulation, 2021, 33(8): 1914-1926.
[1] 胡晓峰. 战争工程论——走向信息时代的战争方法学[M]. 北京: 科学出版社, 2019. Hu Xiaofeng.Engineering Theory of War - Methodology Toward the Information Age[M]. Beijing: Science Press, 2019. [2] 胡晓峰, 张斌. 体系复杂性与体系工程[J]. 电子科学研究院学报, 2011, 6(5): 446-450. Hu Xiaofeng, Zhang Bin.SoS Complexity and SoS Engineering[J]. Journal of China Academy of Electronics and Information Technology, 2011, 6(5): 446-450. [3] 陆志沣, 洪泽华, 张励, 等. 武器装备体系对抗仿真技术研究[J]. 上海航天, 2019, 36(4): 42-50. Lu Zhifeng, Hong Zehua, Zhang Li, et al.Review on the Simulation Technology of Weapon System-of-Systems Encounter[J]. Aerospace Shanghai, 2019, 36(4): 42-50. [4] 凌绪强. 多领域协同建模仿真支撑平台研究[D]. 烟台: 海军航空工程学院, 2012. Ling Xuqiang.Research on Collaborative Modeling and Simulation Platform for Multiple Application Fields[D]. Yaitai: Naval Aeronautical Engineering Institute, 2012. [5] 凌绪强, 黄晓冬, 李伯虎. 一种协同建模与仿真平台及其关键技术研究[J]. 系统仿真学报, 2013, 25(6): 1264-1269. Ling Xuqiang, Huang Xiaodong, Li Bohu.Collaborative Modeling and Simulation Platform with Its Key Techniques[J]. Journal of System Simulation, 2013, 25(6): 1264-1269. [6] Bernard P Zeigler, Hessam S Sarjoughian.体系建模与仿真: 基础与实践[M]. 张霖晓, 吴迎年, 译. 北京: 清华大学出版社, 2018. Bernard P Zeigler, Hessam S Sarjoughian.System of Systems Modeling & Simulation: Foundations and Practice[M]. Zhang Linxiao, Wu Yingnian, trans. Beijing: Tsinghua University Press, 2018. [7] Ling X Q, Huang X D, Li B H, et al.SimFaster: A Modeling and Simulation Platform with Multiple Views for Complex System[J]. The International Journal for Computation and Mathematics in Electrical and Electronic Engineering (S0332-1649), 2009, 28(6): 1546-1559. [8] 黄晓冬, 凌绪强, 温玮. 作战仿真系统开发平台研究及应用[J]. 火力与指挥控制, 2014, 39(9): 108-111. Huang Xiaodong, Ling Xuqiang, Win Wei.Research on Developing Platform for Operation Simulation System[J] . Fire Control & Command Control, 2014, 39(9): 108-111. [9] 黄晓冬. 基于反射的适应性软件开发方法及其在分布交互仿真中的应用[D]. 烟台: 海军航空工程学院, 2005. Huang Xiaodong.Reflective Software Development Approaches for Adaptive Software with Applications in Distributed Interactive Simulation[D]. Naval Aeronautical Engineering Institute, 2005. [10] 黄晓冬, 李伯虎, 柴旭东, 等. 基于反射的分布交互仿真软件框架[J]. 北京航空航天大学学报, 2007, 27(4): 994-999. Huang Xiaodong, Li Bohu, Chai Xudong, et al.Reflection Based Distributed Interactive Smiulation Framework[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 27(4): 994-999. [11] 黄晓冬, 何友, 徐俊艳. 一种基于HLA的弹性软件框架及其应用[J]. 系统仿真学报, 2005, 17(1): 95-99. Huang Xiaodong, He You, Xu Junyan, et al.An HLA-based Flexible Framework with Applications[J]. Journal of System Simulation, 2005, 17(1): 95-99. [12] 黄晓冬, 凌绪强,温玮,等. 基于SRML的仿真语言研究及应用[J]. 计算机仿真, 2013, 30(3): 285-289. Huang Xiaodong, Ling Xuqiang, Wen Wei, et al.Research on SRML-Based Simulation Language and Its Application[J]. Computer Simulation, 2013, 30(3): 285-289. [13] 温玮, 何友, 李牧. 基于参数数据库的CGF实体框架结构研究[J]. 系统仿真学报, 2007, 19(6): 1231-1237. Wen Wei, He You, Li Mu.Research of CGF Entity Framework Based on Parameters Database[J]. Journal of System Simulation, 2007, 19(6): 1231-1237. [14] 温玮, 黄晓东, 杨瑞平, 等. 计算机生成兵力仿真引擎HYCGF的研究[J]. 火力与指挥控制, 2014, 39(7): 128-132. Wen Wei, Huang Xiaodong, Yang Ruiping, et al.Research on Simulation Engine for Computer Generated Forces HYCGF[J]. Fire Control & Command Control, 2014, 39(7): 128-132. [15] 黄晓冬. 复杂系统多视图多粒度建模仿真方法研究及应用[D]. 北京: 北京航空航天大学, 2008. Huang Xiaodong.Research and Application of Multi-View and Multi-Granularity Modeling & Simulation Method for Complex System[D]. Beijing: Beijing University of Aeronautics and Astronautics, 2008. [16] 温玮, 方伟, 何友. 支持MDD的代码生成、映射与逆向技术研究[J]. 计算机工程与应用, 2009, 45(28): 6-9. Wen Wei, Fang Wei, He You.Research on Techniques of Code Generating Mapping and Reversing Serving for Model-Driven Development[J]. Computer Engineering and Applications, 2009, 45(28): 6-9. [17] 温玮. 支持跨领域复用的协同建模环境的研究与应用[D]. 烟台: 海军航空工程学院, 2009. Wen Wei.Research on Cooperative Modeling Environment Supporting Reuse in Different Domains with Application[D]. Yantai: Naval Aeronautical Engineering Institute, 2009. [18] 温玮, 方伟, 黄晓冬. 面向领域的仿真设计建模工具SIMDEMO的研究与实现[J]. 北京航空航天大学学报, 2010, 36(8): 981-985. Wen Wei, Fang Wei, Huang Xiaodong.Domain-oriented Simulation Designing and Modeling Tool[J]. Journal of Beijing University of Aeronautics and Astronautics, 2010, 36(8): 981-985. [19] 温玮, 逯建军, 黄晓冬, 等. 建模工具SIMDEMO在体系对抗中的应用[J]. 火力与指挥控制, 2011, 36(6): 186-189. Wen Wei, Lu Jianjun, Huang Xiaodong, et al.Application of Domain-oriented Modeling Tool SIMDEMO System-of-Systems Confrontation[J]. Fire Control & Command Control, 2011, 36(6): 186-189. [20] Fang K T, Lin D K J, Winker P, et al. Uniform Design: Theory and Application[J]. Technometrics (S0040-1706), 2000, 42(3): 237-248. [21] McKay M D, Beckman R J, Conover W J. A Comparison of Three Methods for Selecting Values of Input Variables from a Computer Code[J]. Technometrics (S1537-2723), 1979, 42(1): 239-245. [22] Iman R L, Conover W J.Small Sample Sensitivity Analysis Techniques for Computer Models, with an Application to Risk Assessment[J]. Communications in Statistics Part A: Theory and Methods (S0361-0926), 1980, 9(17): 1749-1842. [23] Morris M D, Mitchell T J.Exploratory Designs for Computational Experiments[J]. Journal of Statistical Planning Inference (S0378-3758), 1995, 43(1): 381-402. [24] Johnson M, Moore L, Ylvisaker D.Minimax and Maximin Distance Designs[J]. Journal of Statistical Planning Inference (S0378-3758), 1990, 26(2): 131-148. [25] Park J S.Optimal Latin-hypercube Designs for Computer Experiments[J]. Journal of Statistical Planning Inference (S0378-3758), 1994, 39(1): 95-111. [26] Fang K T, Ma C X, Winker P.Centered L2-Discrepancy of Random Sampling and Latin Hypercube Design and Construction of Uniform Designs[J]. Math. Comput.(S1683-3511), 2002, 71(237): 275-296. [27] Felipe A C V, Gerhard V, Vladimir B. An Algorithm for Fast Optimal Latin Hypercube Design of Experiments[J]. International Journal for Numerical Methods in Engineering (S1097-0207), 2009, 82(2): 135-156. [28] Z Gang Zhai, Yaofei Ma, Xiao Song, et al. A Novel Flexible Experiment Design Method[C]// Asia Simulation Conference. Singapore: Springer Singapore, 2016: 28-39. [29] 张甜甜, 李妮, 龚光红, 等. 一种基于数独分组的拉丁超立方试验设计方法[J]. 系统仿真学报, 32(11): 2185-2191, 2020. Zhang Tiantian, Li Ni, Gong Guanghong, et al.A Fast Latin Hyper Cube Experiment Design Method Based on Soduku Grouping[J]. Journal of System Simulation, 32(11): 2185-2191, 2020. [30] 董雪. 基于ADC模型的潜艇作战系统效能评估与工具实现[D]. 南京: 南京航空航天大学, 2018. Dong Xue.Effectiveness Evaluation Method of Submarine Combat System Based on ADC Model and Tool Realization[D]. Nanjing: Journal of Nanjing University of Aeronautics and Astronautics, 2018. [31] 王锐. 先进战斗机作战效能评估[D]. 西安: 西北工业大学, 2007. Wang rui. Combat Effectiveness Evaluation of Advanced Fighter Aircraft[D]. Xi'an: Nouthwestern Polytechnical University, 2007. [32] 孟庆德, 张俊, 魏军辉, 等. 基于ADC法的舰炮武器系统作战效能评估模型[J]. 火炮发射与控制学报, 2015, 36(1): 73-76, 85. Meng Qingde, Zhang Jun. Wei Junhui, et al.Operational Effectiveness Evaluation Model of Naval Gun Weapon System Based on ADC[J]. Journal of Gun Launch& Control, 2015, 36(1): 73-76, 85. [33] 张平, 李曙光, 肖南, 等. 基于指数法的装甲救护车作战效能评估[J]. 兵器装备工程学报, 2016, 37(11): 171-175. Zhang Ping, Li Shuguang, Xiao Nan, et al.Effectiveness Evaluation for Armored Ambulance Combat Capability Based on Index Method[J]. Journal of Ordnance Equipment Engineering, 2016, 37(11): 171-175. [34] 王子齐, 刘高峰. 基于SEM的近程反导舰炮武器系统作战能力评估[J]. 指挥控制与仿真, 2017, 39(4): 85-91. Wang Ziqi, Liu Gaofeng.Combat Capability Evaluation of Short Range Antimissile Naval Gun System Based on SEM[J]. Command control & Simulation, 2017, 39(4): 85-91. [35] 侯磊, 曾望, 范海文, 等. 一体化智能柔性仿真评估技术研究[J]. 火力与指挥控制, 2019, 44(11): 174-179. Hou Lei, Zeng Wang, Fan Haiwen, et al.Research of Integrated Intelligent Flexible Simulation Evaluation Technology[J]. Fire Control & Command Control, 2019, 44(11): 174-179. [36] 凌绪强, 黄晓冬, 杨瑞平, 等. 舰艇编队作战指挥系统设计与仿真平台[J]. 火力与指挥控制,2012, 37(3): 150-153. Ling Xuqiang, Huang Xiaodong, Yang Ruiping, et al.The Research and Developnent of Modeling and Simulation Platform for the Design of Operation Command System of Warship Fleet[J]. Fire Control & Command Control, 2012, 37(3): 150-153. [37] 徐进,黄晓冬. 面向装备体系对抗的想定规范化描述语言研究[J]. 系统仿真技术, 2011, 7(2): 156-162. Xu Jin, Huang Xiaodong.Research on Normative Description Language of Equipnent System Antagonism Scenario[J]. System Simulation Technology, 2011, 7(2): 156-162. [38] 黄晓冬, 何友, 欧阳文, 等. 一种基于HLA的飞机训练模拟器的研制[J]. 系统仿真学报, 2005, 17(4): 897-900. Huang Xiaodong, He You, Ouyang Wen, et al.Research and Implementation of HLA Based Training Aircraft Simulator[J]. Journal of System Simulation, 2005, 17(4): 897-900. [39] 荆涛. 海军武器装备体系对抗的建模与仿真方法研究[J]. 系统工程与电子技术, 2005, 27(10): 1767-1770. Jing Tao.Research on the Modeling and Simulation Methodology of Naval Weapon and Equipment System-of-Systems Warfare[J]. Systems Engineering and Electronice, 2005, 27(10): 1767-1770. [40] 丑超弘, 文斌, 占凌云, 等. 基于体系作战的攻防对抗仿真系统[C]// 第17届中国系统仿真技术及其应用学术年会论文集. 合肥: 中国科学技术大学出版社, 2016: 133-137. Chou Chaohong, Wen Bin, Zhan Lingyun, et al.Offense-defense Confrontation Simulation System Based on System Combat[C]// 17th Chinese Conference on System Simulation Technology and Applications. Hefei: University of Science and Technology of China Press, 2016: 133-137. |
[1] | Wenzheng Liu, Heming Zhang. A Cyber-physical Integrated Modeling Method Oriented for Motion Simulation of Complex Systems [J]. Journal of System Simulation, 2022, 34(5): 954-963. |
[2] | Xu Peng, Feng Guoqi, Dai Xuewu, Cui Dongliang, Wei Qilong, Li Baoxu, Li Jianming. Small-data Driven Modeling and Simulation of High-speed Train Running Time Under Limited Speeds [J]. Journal of System Simulation, 2021, 33(8): 1892-1904. |
[3] | Sun Yuzhen, Tang Yiwei, Li Shuai. Load System Modeling of Ultra-Supercritical Coal-Fired Power Unit Based on Improved Particle Swarm Optimization [J]. Journal of System Simulation, 2021, 33(4): 875-882. |
[4] | Chen Yuzhou, Li Yuan, Wang Qinglin, Zhang Qing, Zhang Jinyuan. Visual Simulation Platform for Visible Light Reconnaissance Load of Unmanned Aerial Vehicle [J]. Journal of System Simulation, 2021, 33(4): 910-917. |
[5] | Chu Yang, Liu Zhi, Dou Lintao. Modeling and Simulation Technology of Flight Maneuver for Large Scale battlefield [J]. Journal of System Simulation, 2021, 33(3): 613-621. |
[6] | Hu Yang, Liu Wenying, Zhu Liping, Li Xiao, Wang Weizhou. Simulation Platform for Source-load Control of Active Power Based on Modular Architecture [J]. Journal of System Simulation, 2021, 33(3): 669-678. |
[7] | Liang Wei, Huang Yanyan, Wang Jianyu. Modeling Method of Emergency Response based on Internal and External Areas of Disaster Zone [J]. Journal of System Simulation, 2020, 32(4): 669-677. |
[8] | Wang Ziyun, Wang Peiyu, Zhan Yacong. Time-varying parameter system modeling method based on zonotope-ellipsoid double filtering [J]. Journal of System Simulation, 2020, 32(11): 2084-2092. |
[9] | Tong Jiahui, Liu Jin, Zhang Jinyuan, Zhang Yongxiang. Research on Real-time Simulation Platform Architecture Based on Multi-core Scheduling [J]. Journal of System Simulation, 2019, 31(8): 1495-1504. |
[10] | Zhu Zhi, Lei Yonglin, Zhu Yifan. Simulation of Helicopter Anti-submarine Route Planning [J]. Journal of System Simulation, 2019, 31(7): 1280-1289. |
[11] | Fu Xiuwen, Yang Yongsheng. Simulation Platform for Invulnerability of Industrial Wireless Sensor Networks [J]. Journal of System Simulation, 2019, 31(7): 1342-1350. |
[12] | Yu Ying, Liang Weidong, Zhu Xiujuan, Wang Jianlin, Wang Ling. Design of Combat Simulation and Visualization System of Hypersonic Vehicle [J]. Journal of System Simulation, 2019, 31(12): 2584-2590. |
[13] | Zu Xianghuan, Yang Chuanlei, Wang Yinyan. Research on Assessment and Decision Making Simulation Platform for Performance of Diesel Engine Mixed with Water [J]. Journal of System Simulation, 2017, 29(3): 559-564. |
[14] | Liu zhen, Xu Dehui, Zhu Kaiwei, Sun Huilong. Research on Simulation Platform Based on Behavior Heterogeneity for Agriculture Biomass Energy [J]. Journal of System Simulation, 2017, 29(10): 2397-2406. |
[15] | Chen Gong, Xu Lei, Su Zhiyong. 3D Real-time Visualization and Simulation Platform for Collaborative Path Planning of UA [J]. Journal of System Simulation, 2016, 28(9): 1996-2001. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||