1 |
丁峰, 易侃, 毛晓彬, 等. 第5代指挥信息系统发展思考[J]. 指挥信息系统与技术, 2018, 9(5): 17-24.
|
|
DING Feng, YI Kan, MAO Xiaobin, et al. Consideration on Fifth Generation Command Information System[J]. Command Information System and Technology, 2018, 9(5): 17-24.
|
2 |
汪霜玲, 金欣, 王晓璇, 等. 指挥信息系统智能化发展能力演化路线[J]. 指挥信息系统与技术, 2019, 10(3): 46-49, 56.
|
|
WANG Shuangling, JIN Xin, WANG Xiaoxuan, et al. Intelligent Development Capacity Evolution Route for Command Information System[J]. Command Information System and Technology, 2019, 10(3): 46-49, 56.
|
3 |
贺正求, 张叶琳, 王利华, 等. C4ISR系统结构模型及其网络化效能分析[J]. 火力与指挥控制, 2020, 45(7): 73-77, 82.
|
|
HE Zhengqiu, ZHANG Yelin, WANG Lihua, et al. Model and Effectiveness Analysis for C4ISR System Structure[J]. Fire Control & Command Control, 2020, 45(7): 73-77, 82.
|
4 |
蔡英浩, 张英朝, 孙沁, 等. 指挥信息系统韧性评估方法综述[J]. 系统仿真技术, 2021, 17(1): 22-27.
|
|
CAI Yinghao, ZHANG Yingchao, SUN Qin, et al. Review of Command Information System Resilience Evaluation Methods[J]. System Simulation Technology, 2021, 17(1): 22-27.
|
5 |
Strategic Technology Office. System of Systems Integration Technology and Experimentation(SoSITE) Broad Agency Announcement: DARPA-BAA-14-40[R]. Washington, DC, USA : DARPA, 2014,4: 1-57.
|
6 |
Defense Sciences Office. Complex Adaptive System Composition And Design Environment(CASCADE)Broad Agency Announcement: DARPA-BAA-16-11[R]. [S.l.]: [s.n.], 2015,11: 1-47.
|
7 |
Tactical Technology Office. Collaborative Operations in Denied Environment(CODE) Program Broad Agency Announcement: DARPA-BAA-14-33[R]. Washington, DC, USA: DARPA, 2014,4: 1-50.
|
8 |
Defense Advanced Research Projects Agency. Department of Defense Fiscal Year(FY)2020 Budget Estimates: PE0604541A[R]. [S.l.]: [s.n.], 2019,3: 616-617.
|
9 |
Strategic Technology Office. Adapting Cross-Domain Kill-Webs (ACK) Broad Agency Announcement: HR001118S0043[R]. Washington, DC, USA: DARPA, 2018,8: 1-51.
|
10 |
赵靖, 黄松华. 软件定义网络技术及其军事应用[J]. 指挥信息系统与技术, 2016, 7(2): 73-77.
|
|
ZHAO Jing, HUANG Songhua. Software Defined Network Technology and Its Military Application[J]. Command Information System and Technology, 2016, 7(2): 73-77.
|
11 |
王海, 秦蓁, 熊飞, 等. 全分布式软件定义网络架构在无人集群系统中的应用[J]. 陆军工程大学学报, 2022, 1(1): 16-21.
|
|
WANG Hai, QIN Zhen, XIONG Fei, et al. Application of Fully Distributed Software Defined Network Architecture to Unmanned Swarm System[J]. Journal of Army Engineering University of PLA, 2022, 1(1): 16-21.
|
12 |
GULDEN T R, LAMB J, HAGEN J, et al. Modeling Rapidly Composable, Heterogeneous, and Fractionated Forces: Findings on Mosaic Warfare from an Agent-Based Model[EB/OL]. (2021-01-05)[2022-11-30]. .
|
13 |
SHANAHAN J, MULCHANDANI N. Software-Defined Warfare: Architecting the DOD’s Transition to the Digital Age[EB/OL]. (2022-10-18)[2022-11-30]. .
|
14 |
张青春, 张兴. 基于DoDAF的C2BMC系统体系结构建模[J]. 指挥信息系统与技术, 2019, 10(3): 50-56.
|
|
ZHANG Qingchun, ZHANG Xing. Architecture Modeling for C2BMC System Based on DoDAF[J]. Command Information System and Technology, 2019, 10(3): 50-56.
|
15 |
Center for Strategic & International Studies. Battle Networks and the Future Force: Part 2[R]. Washington, DC, USA : CSIS, 2021,11: 1-19.
|