Journal of Guangdong University of Technology ›› 2021, Vol. 38 ›› Issue (04): 35-40.doi: 10.12052/gdutxb.210003

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A Research on the Analysis Method of System Income Based on the Behavior Game Between Operators and Managers

Li Sha-sha1, Cui Tie-jun2   

  1. 1. College of Business Administration, Liaoning Technical University, Huludao 125105, China;
    2. College of Safety Science and Engineering, Liaoning Technical University, Huludao 125105, China
  • Received:2021-01-06 Online:2021-07-10 Published:2021-05-25

Abstract: To study the influence of different behaviors of operators and managers in similar engineering management systems on the system level profit, an analysis method of system profit based on space fault network (SFN) and game theory is proposed. Firstly, the significance, definition and relationship of operators and managers in the system are discussed. The feasibility of SFN representing game process is shown. The basic parameters of the method, the relationship between the basic parameters and the event comprehensive profit, the game logic relationship and the system profit are determined. Operators have safe and unsafe behaviors, and managers have punishment and reward behaviors. After the operators and managers act on the event comprehensive profit, the system profit is finally obtained through and/or logical evolution, and the winner of the profit game is judged. Finally, the flow, function and applicability of the method are illustrated by an example. A method is provided for studying the process of system profit game.

Key words: safety system engineering, game theory, two game, space fault network, system profit analysis

CLC Number: 

  • F224
[1] 徐杰, 李果林. 风险收益动态视角下政府与社会资本合作演化博弈分析[J]. 软科学, 2020, 34(6): 126-130.
XU J, LI G L. An evolutionary game analysis of government and social capital cooperation under the dynamic perspective of risk-benefit [J]. Soft Science, 2020, 34(6): 126-130.
[2] 陈艳, 吕云翔, 柴访, 等. 动态激励视角下建筑工人不安全行为演化博弈分析[J]. 安全与环境工程, 2020, 27(1): 197-203.
CHEN Y, LYU Y X, CHAI F, et al. Evolutionary game analysis of unsafe behavior of construction workers from the perspective of dynamic incentives [J]. Safety and Environmental Engineering, 2020, 27(1): 197-203.
[3] 于晓辉, 杜志平, 张强, 等. 一种资源投入不确定情形下的合作博弈形式及收益分配策略[J]. 运筹学学报, 2019, 23(4): 71-85.
YU X H, DU Z P, ZHANG Q, et al. A generalized form of fuzzy cooperative game and its solution [J]. Operations Research Transactions, 2019, 23(4): 71-85.
[4] 刘佳, 王先甲. 网络博弈合作剩余收益分配的协商方法[J]. 系统工程理论与实践, 2019, 39(11): 2760-2770.
LIU J, WANG X J. A bargaining method for cooperative surplus income allocation in network game [J]. Systems Engineering-Theory & Practice, 2019, 39(11): 2760-2770.
[5] 杨柏林. 基于博弈论的新零售模式下供应链收益优化研究[D]. 吉林: 吉林大学, 2019.
[6] 何长全, 贾广社, 孙继德. 三方博弈视角下项目安全行为治理策略分析[J]. 软科学, 2019, 33(1): 87-90.
HE C Q, JIA G S, SUN J D. Governance strategy analysis of project safety behavior from the perspective of three-party game theory [J]. Soft Science, 2019, 33(1): 87-90.
[7] 杨雪, 田阳, 仝凤鸣. 基于进化博弈的矿工情绪监管与不安全行为研究[J]. 煤矿安全, 2018, 49(8): 299-302.
YANG X, TIAN Y, TONG F M. Research on miners' emotional supervision and unsafe behavior based on evolutionary game [J]. Safety in Coal Mines, 2018, 49(8): 299-302.
[8] 郑霞忠, 史高阳, 陈述. 多方博弈下起重作业人员有意不安全行为致因分析[J]. 中国安全生产科学技术, 2017, 13(5): 175-181.
ZHENG X Z, SHI G Y, CHEN S. Causation analysis on intentional unsafe behavior of crane operator under multi-parties game [J]. Journal of Safety Science and Technology, 2017, 13(5): 175-181.
[9] 盖丽丽. 基于动态博弈的矿工不安全行为研究[J]. 煤矿安全, 2016, 47(9): 251-253.
GAI L L. Research on miners' unsafe behavior based on dynamic game theory [J]. Safety in Coal Mines, 2016, 47(9): 251-253.
[10] 田水承, 赵雪萍, 黄欣, 等. 基于进化博弈论的矿工不安全行为干预研究[J]. 煤矿安全, 2013, 44(8): 231-234.
TIAN S C, ZHAO X P, HUANG X, et al. Research on miner unsafe behavior intervention based on evolutionary game theory [J]. Safety in Coal Mines, 2013, 44(8): 231-234.
[11] 高云莉, 王庆春, 王楠楠. 工程项目主体在风险管理合作中的演化博弈分析[J]. 数学的实践与认识, 2012, 42(9): 33-37.
GAO Y L, WANG Q C, WANG N N. An evolutionary game model for the risk management cooperation among the project management parties [J]. Mathematics in Practice and Theory, 2012, 42(9): 33-37.
[12] 王敏, 王卓甫, 肖建红. 建设工程管理的合作博弈决策[J]. 统计与决策, 2007(16): 65-67.
WANG M, WANG Z F, XIAO J H. Cooperative game decision of construction project management [J]. Statistics and Decision, 2007(16): 65-67.
[13] 李莎莎, 崔铁军. 基于SFN故障模式的最终事件故障概率分布确定方法[J]. 广东工业大学学报, 2020, 37(6): 9-16.
LI S S, CUI T J. The determination method for fault probability distribution of target event based on fault mode of SFN [J]. Journal of Guangdong University of Technology, 2020, 37(6): 9-16.
[14] 崔铁军, 李莎莎. 基于因素驱动的东方思维人工智能理论研究[J]. 广东工业大学学报, 2021, 38(1): 1-4.
CUI T J, LI S S. Research on the intelligent science theory of oriental thinking based on factor driven [J]. Journal of Guangdong University of Technology, 2021, 38(1): 1-4.
[15] 崔铁军, 李莎莎. 系统故障演化过程的可拓学原理[J]. 广东工业大学学报, 2020, 37(5): 1-6.
CUI T J, LI S S. An extension theory of system fault evolution process [J]. Journal of Guangdong University of Technology, 2020, 37(5): 1-6.
[16] 崔铁军. 系统故障演化过程描述方法研究[J]. 计算机应用研究, 2020, 37(10): 3006-3009.
CUI T J. Research on description method of system fault evolution process [J]. Application Research of Computers, 2020, 37(10): 3006-3009.
[17] CUI T J, LI S S. Research on complex structures in space fault network for fault data mining in system fault evolution process [J]. IEEE Access, 2019, 7(1): 121881-121896.
[18] 崔铁军, 李莎莎. 空间故障树与空间故障网络理论综述[J]. 安全与环境学报, 2019, 19(2): 399-405.
CUI T J, LI S S. A Survey of space fault tree and space fault network [J]. Journal of Safety and Environment, 2019, 19(2): 399-405.
[19] 崔铁军, 李莎莎, 朱宝岩. 含有单向环的多向环网络结构及其故障概率计算[J]. 中国安全科学学报, 2018, 28(7): 19-24.
CUI T J, LI S S, ZHU B Y. Multidirectional ring network structure with one-way ring and its fault probability calculation [J]. China Safety Science Journal, 2018, 28(7): 19-24.
[20] CUI T J, LI S S. System movement space and system mapping theory for reliability of IoT [J]. Future Generation Computer Systems, 2020, 107: 70-81.
[21] 何华灿. 重新找回人工智能的可解释性[J]. 智能系统学报, 2019, 14(3): 393-412.
HE H C. Refinding the interpretability of artificial intelligence [J]. CAAI Transactions on Intelligent Systems, 2019, 14(3): 393-412.
[22] 何华灿. 泛逻辑学理论——机制主义人工智能理论的逻辑基础[J]. 智能系统学报, 2018, 13(1): 19-36.
HE H C. Universal logic theory — logical foundation of mechanism-based artificial intelligence theory [J]. CAAI Transactions on Intelligent Systems, 2018, 13(1): 19-36.
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