Analysis on Warship Technology Supportability Equipment System-of-Systems Based on System Dynamics

被引:2
|
作者
Wang, Le [1 ]
Yang, Chun-hui [2 ]
Deng, Ming-ran [1 ]
机构
[1] Wuhan Univ Technol, Sch Management, Wuhan 430070, Hubei, Peoples R China
[2] Naval Univ Engn, Dept Management, Wuhan 430033, Hubei, Peoples R China
来源
PROCEEDINGS OF THE 23RD INTERNATIONAL CONFERENCE ON INDUSTRIAL ENGINEERING AND ENGINEERING MANAGEMENT 2016: THEORY AND APPLICATION OF INDUSTRIAL ENGINEERING | 2017年
关键词
warship technology supportability; WTSE system-of-systems; system dynamics;
D O I
10.2991/978-94-6239-255-7_21
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The configuration of Warship Technology Supportability Equipment(WTSE) is complex systems engineering, so it should comprehensively takes into account the impacts of warship system, organization, process, task, equipment and resource, etc., and be optimized based on overall input and demand to improve the capabilities considerably. First, this paper analyzes the structure of WTSE and builds a multi-view model for WTSE system-of-systems. Subsequently, a model based on system dynamics is constructed after analyzing the causal relations of index with input and task demand for warship technology supportability capabilities, while a growth curve is employed to elaborate the development and evolution process of capabilities. By means of simulation, this paper eventually analyzes the strategy for optimization configuration of WTSE system-of-systems.
引用
收藏
页码:115 / 118
页数:4
相关论文
共 50 条
  • [41] A new paradigm for requirements specification and analysis of system-of-systems
    Caffall, DS
    Michael, JB
    RADICAL INNOVATIONS OF SOFTWARE AND SYSTEMS ENGINEERING IN THE FUTURE, 2004, 2941 : 108 - 121
  • [42] Dependency Analysis of System-of-Systems Operational and Development Networks
    Guariniello, Cesare
    DeLaurentis, Daniel
    2013 CONFERENCE ON SYSTEMS ENGINEERING RESEARCH, 2013, 16 : 265 - 274
  • [43] An Empirical Study of Reliability Analysis for Platooning System-of-Systems
    Hyun, Sangwon
    Liu, Lingjun
    Kim, Hansu
    Cho, Esther
    Bae, Doo-Hwan
    2021 21ST INTERNATIONAL CONFERENCE ON SOFTWARE QUALITY, RELIABILITY AND SECURITY COMPANION (QRS-C 2021), 2021, : 506 - 515
  • [44] Architectural framework for a system-of-systems
    Caffall, DS
    Michael, JB
    INTERNATIONAL CONFERENCE ON SYSTEMS, MAN AND CYBERNETICS, VOL 1-4, PROCEEDINGS, 2005, : 1876 - 1881
  • [45] An Equipment Offering Degree Evaluation Method for Weapon System-of-Systems Combat Network Based on Operation Loop
    Chi, Yan
    Li, Ji-chao
    Yang, Ke-wei
    Tan, Yue-jin
    PROCEEDINGS OF THE 22ND INTERNATIONAL CONFERENCE ON INDUSTRIAL ENGINEERING AND ENGINEERING MANAGEMENT: CORE THEORY AND APPLICATIONS OF INDUSTRIAL ENGINEERING (VOL 1), 2016, : 477 - 488
  • [46] SIMVA-SoS: Simulation-based Verification and Analysis for System-of-Systems
    Park, Sumin
    Shin, Yong-jun
    Hyun, Sangwon
    Bae, Doo-Hwan
    2020 IEEE 15TH INTERNATIONAL CONFERENCE OF SYSTEM OF SYSTEMS ENGINEERING (SOSE 2020), 2020, : 575 - 580
  • [47] System-of-Systems Design Optimization Based on Coevolutionary Game
    Ye, Guo-qing
    Ge, Bing-feng
    2020 5TH INTERNATIONAL CONFERENCE ON ELECTROMECHANICAL CONTROL TECHNOLOGY AND TRANSPORTATION (ICECTT 2020), 2020, : 391 - 398
  • [48] A "system-of-systems" risk approach
    Andrew, M
    Hampshire, E
    Webb, J
    QUALITY OF WORK AND PRODUCTS IN ENTERPRISES OF THE FUTURE, 2003, : 204 - 207
  • [49] System-of-Systems Platform Scoping
    Klein, John
    McGregor, John D.
    2013 4TH INTERNATIONAL WORKSHOP ON PRODUCT LINE APPROACHES IN SOFTWARE ENGINEERING (PLEASE), 2013, : 1 - 4
  • [50] EMERGING PERSPECTIVES ON SYSTEM-OF-SYSTEMS
    Madni, Azad M.
    JOURNAL OF INTEGRATED DESIGN & PROCESS SCIENCE, 2007, 11 (02) : 1 - 2
12345