1 |
PALMER D, FAZZARI S. Defense systems and IoT: security issues in an era of distributed command and control[C]//Proc. of the 26th International Great Lakes Symposium on VLSI, 2016: 175-179.
|
2 |
HUANG H Y, SHI J, BAO G Y, et al. A consensus model for conflict problems in distributed command and control decision making[C]//Proc. of the 26th Chinese Control and Decision Conference, 2014.
|
3 |
DOMDOUZIS K, ANDREWS S, GIBSON H, et al. Service-oriented design of a command and control intelligence dashboard for crisis management[C]//Proc. of the IEEE/ACM 7th International Conference on Utility and Cloud Computing, 2014: 702-707.
|
4 |
STODOLA P, MAZAL J. Architecture of the advanced command and control system[C]//Proc. of the International Confe-rence on Military Technologies, 2017.
|
5 |
SUN Y, YAO P Y, WAN L J, et al. A quantitative method to design command and control structure of distributed military organization[C]//Proc. of the International Conference on Information System and Artificial Intelligence, 2016.
|
6 |
LIU G, SU Y. Study on big data visualization of joint operation command and control system[C]//Proc. of the 7th International Conference on Big Data, 2018: 372-380.
|
7 |
BEERY P, ENLOE M, KUMMER G, et al. Command and control for distributed lethality[C]//Proc. of the 13th IEEE International Systems Conference, 2019.
|
8 |
WANG Y Q, GAO J, FANG L, et al. Research on distributed collaborative fire distribution technology based on multi-agent[C]//Proc. of the 3rd International Conference on Unmanned Systems, 2020: 76-80.
|
9 |
ZHU D F , XING X X , MIAO X Y . Application research of intelligent speech technology in maritime command and control system[J]. Evolutionary Intelligence, 2024, 17 (2): 67- 72.
|
10 |
WENNERGREN D M. The DoD architecture framework (Dodaf) version 2.0[EB/OL]. [2023-02-23]. http://www.s.army.mil/suite/page/454707.
|
11 |
HAUSE M , BLEAKLEY G , MORKEVICIUS A . Technology update on the unified architecture framework[J]. Insight, 2017, 20 (2): 71- 78.
doi: 10.1002/inst.12153
|
12 |
ANDA A A, AMYOT D. Traceability management of GRL and SysML models[C]//Proc. of the 12th System Analysis and Modelling Conferenec, 2020.
|
13 |
PRIEBE M , VICK A J , HEIM J L , et al. Distributed operations in a contested environment implications for USAF force presentation[M]. Santa Monica: Rand Corporation, 2019.
|
14 |
YANG D S , LI Q , ZHU F H , et al. Parallel emergency mana-gement of incidents by integrating OODA and PREA loops: the C2 mechanism and modes[J]. IEEE Trans.on Systems, Man, and Cybernetics: Systems, 2023, 53 (4): 2160- 2172.
doi: 10.1109/TSMC.2022.3229036
|
15 |
BUCKLEY F , LEWINTER M . A friendly introduction to graph theory[M]. London: Pearson Higher Education, 2003.
|
16 |
JOUBBEH M E . Minimum separators and Menger's theorem[J]. Graphs and Combinatorics, 2023, 39 (3): 61- 75.
doi: 10.1007/s00373-023-02657-5
|
17 |
SONG J , HUANG L Y , KARIMI H R , et al. ADP-based security decentralized sliding mode control for partially unknown large-scale systems under injection attacks[J]. IEEE Trans.on Circuits and Systems, 2020, 67 (12): 5290- 5301.
doi: 10.1109/TCSI.2020.3014253
|
18 |
GUO C X , LU G H , LI D , et al. BCube: a high performance, server-centric network architecture for modular data centers[J]. ACM SIGCOMM Computer Communication Review, 2009, 39 (4): 63- 74.
doi: 10.1145/1594977.1592577
|
19 |
GUO C X, WU H T, TAN K, et al. DCell: a scalable and fault-tolerant network structure for data centers[C]//Proc. of the ACM SIGCOMM Conference on Data Communication, 2008: 75-86.
|
20 |
HANEEFA N K , PRAMOD S , MANIVASAKAN R , et al. An analytical framework for comparing flat and hierarchical architectures in fog computing networks[J]. Advances in Communication Systems and Networks, 2020, 65 (6): 763- 774.
|