Mission-Oriented Scheme Generation Method for Weapon System of Systems

被引:5
作者
Zhao, Qingsong [1 ]
Ding, Junyi [1 ]
Li, Jichao [1 ]
Hu, Weitao [1 ]
机构
[1] Natl Univ Def Technol, Coll Syst Engn, Changsha 410073, Peoples R China
来源
IEEE ACCESS | 2020年 / 8卷
基金
中国国家自然科学基金;
关键词
Task analysis; Weapons; Resource management; System of systems; Complexity theory; Atmospheric modeling; Force; WSoS; mission; scheme generation; fuzzy weighted network; TARGET-ASSIGNMENT;
D O I
10.1109/ACCESS.2020.2987062
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
The scheme for weapon system of systems (WSoS) is a combination of equipment systems that supports the mission completion. Modern warfare combat missions tend to be complex, short-lived, and costly, which poses new challenges to the generation of the schema of WSoS. The structures of both missions and WSoS are analyzed in this paper. The subtask decomposition relationship of the mission and the system decomposition relationship of the equipment system are defined. A fuzzy quantitative description of the system function implementation is formed in terms of supportiveness, time and cost. On this basis, the mission-oriented WSoS scheme is transformed into a fuzzy weighted network, and the scheme generation algorithm and scheme evaluation index are proposed. Finally, the feasibility of the proposed approach is demonstrated using an illustrative example.
引用
收藏
页码:70981 / 70996
页数:16
相关论文
共 50 条
[41]   On-machine Measurement Scheme Generation and Optimization Method for Multi-axis CNC Machine Tool [J].
Gao F. ;
Zhao B. ;
Li Y. ;
Wang C. .
Jixie Gongcheng Xuebao/Journal of Mechanical Engineering, 2017, 53 (20) :13-19
[42]   Decision Support Framework for Resilience-Oriented Cost-Effective Distributed Generation Expansion in Power Systems [J].
Kushal, Tazim Ridwan Billah ;
Illindala, Mahesh S. .
IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, 2021, 57 (02) :1246-1254
[43]   A Novel Weapon System Effectiveness Assessment Method Based on the Interval-Valued Evidential Reasoning Algorithm and the Analytical Hierarchy Process [J].
Bi, Wenhao ;
Gao, Fei ;
Zhang, An .
IEEE ACCESS, 2021, 9 :53480-53490
[44]   Toward a Watershed- and System of Systems-Oriented Perspective of Stormwater Management Enterprise Performance [J].
Meyers, Thomas J. ;
Hester, Patrick T. ;
Pyne, James C. .
PUBLIC WORKS MANAGEMENT & POLICY, 2014, 19 (03) :235-254
[45]   Re-framing "The AMN": A case study eliciting and modelling a System of Systems using the Afghan Mission Network [J].
Ki-Aries, Duncan ;
Faily, Shamal ;
Dogan, Huseyin ;
Williams, Christopher .
2017 11TH INTERNATIONAL CONFERENCE ON RESEARCH CHALLENGES IN INFORMATION SCIENCE (RCIS), 2017, :103-108
[46]   Lifecycle simulation method for system of systems focusing on interaction modeling [J].
Murata, Hidenori ;
Kobayashi, Hideki ;
Fukushige, Shinichi .
25TH CIRP LIFE CYCLE ENGINEERING (LCE) CONFERENCE, 2018, 69 :838-842
[47]   An Inclusive Method for Connecting System-of-Systems Architectures with Stakeholders [J].
Zimdahl, Rosanna ;
Knoos Franzen, Ludvig .
SYSTEMS, 2025, 13 (06)
[48]   A fuzzy evaluation method for system of systems meta-architectures [J].
Pape, Louis ;
Giammarco, Kristin ;
Colombi, John ;
Dagli, Cihan ;
Kilicay-Ergin, Nil ;
Rebovich, George .
2013 CONFERENCE ON SYSTEMS ENGINEERING RESEARCH, 2013, 16 :245-254
[49]   A system-of-systems framework for the reliability analysis of distributed generation systems accounting for the impact of degraded communication networks [J].
Mo, Hua-Dong ;
Li, Yan-Fu ;
Zio, Enrico .
APPLIED ENERGY, 2016, 183 :805-822
[50]   Service-Oriented Architecture approach for Industrial "System of Systems": State-of-the-Art for Energy Management [J].
Mora, D. ;
Taisch, M. ;
Colombo, A. W. ;
Mendes, J. M. .
2012 10TH IEEE INTERNATIONAL CONFERENCE ON INDUSTRIAL INFORMATICS (INDIN), 2012, :1246-1251
12345