Abstract:Faced with the historical process of the superimposition of high-quality infrastructure development and digital transformation,intelligent operation and maintenance is an adaptive way between megaprojects physical facilities and services,and plays an irreplaceable role in the increasingly complex situation.This paper studies the intelligent operation and maintenance management mode of megaprojects through the logic system of“why-what-how”.Firstly,this paper analyzes the relationship between the operation and maintenance management of megaprojects and the intelligence from the perspective of the demands of the times,high-quality development situation.Secondly,based on clarifying the basic theory of intelligent operation and maintenance management mode of megaprojects,this paper reconstructs the elements of intelligent operation and maintenance management and elaborates on the service function emergence,the fusion between gathered“Data”and scattered“People”,and the transformation between the normal and the emergency.Finally,this paper analyzes the realization paths of intelligent operation and maintenance management mode of megaprojects from the aspects of the technology,application,and benefit.The revealed intrinsic connection between the operation and maintenance mode of megaprojects and the intelligence,the developed intelligent operation and maintenance management mode,and the analyzed realization paths in this article all contribute to the formation of the theoretical system of promoting intelligent operation and maintenance management of megaprojects.
[1]何清华,田子丹,罗岚.基于扎根理论的中国重大工程复杂性维度模型构建[J].中国科技论坛,2021(8):126-134. [2]SHENG Z H.Fundamental theories of mega infrastructure construction management[M].Cham:Springer International Publishing,2018. [3]BRUNET M.Making sense of a governance framework for megaprojects:the challenge of finding equilibrium[J].International Journal of Project Management,2021,39(4):406-416. [4]JIN Z Z,ZENG S X,CHEN H Q,et al.Creating value from diverse knowledge in megaproject innovation ecosystems[J].International Journal of Project Management,2022,40(6):646-657. [5]AHN S,SHOKRI S,LEE S,et al.Exploratory study on the effectiveness of interface-management practices in dealing with project complexity in large-scale engineering and construction projects[J].Journal of Management in Engineering,2017,33(2):04016039. [6]JENNINGS W.Why costs overrun:risk,optimism and uncertainty in budgeting for the London 2012 Olympic games[J].Construction Management and Economics,2012,30(6):455-462. [7]朱建波,时茜茜,张劲文,等.考虑保险机构参与的重大工程风险管理激励模型[J].中国管理科学,2022,30(6):1-10. [8]BROCKMANNC,BREZINSKI H,ERBE A.Innovation in construction megaprojects[J].Journal of Construction Engineering and Management,2016,142(11):1-9. [9]乐云,李永奎,胡毅,等.“政府-市场”二元作用下我国重大工程组织模式及基本演进规律[J].管理世界,2019,35(4):17-27. [10]金治州,陈宏权,曾赛星.重大工程创新生态系统共生逻辑及治理[J].管理科学学报,2022,22(5):29-45. [11]MAHALINGAM A.How Institutional intermediaries handle institutional complexity in vanguard megaproject settings[J].International Journal of Project Management,2022,40(4):320-331. [12]刘娜娜,周国华.基于前景理论的重大工程协同创新资源共享演化分析[J].管理工程学报,2023,37(3):69-79. [13]SOHAIL M,CAVILL S,COTTON A P.Sustainable operation and maintenance of urban infrastructure:myth or reality?[J].Journal of Urban Planning and Development,2005,131(1):39-49. [14]薛小龙,王璐琪.重大工程管理理论演化与发展路径[J].系统管理学报,2018,27(1):192-199. [15]“都江堰水利工程的管理学问题研究”课题组.都江堰千年延续的管理解码:重大工程可持续发展视角[J].管理世界,2023,39(4):175-191. [16]王鹏飞,王安格,宗恒山,等.道路新建与养护的动态最优投资分配模型[J].管理工程学报,2022,36(6):244-252. [17]VAN D D,TUNG P N,VAN D T,et al.Optimal cost structure in operation and maintenance management of the irrigation systems in the Red River Delta,Vietnam[J].Journal of Irrigation and Drainage Engineering,2023,149(2):04022050. [18]张鸣功,薛小龙,魏焕哲.重大工程全生命周期运营保障体系构建[J].建筑经济,2022,43(S1):305-308. [19]ZHANG M G,XUE X L,LUO T,et al.The supportability evaluation of cross-regional major infrastructure projects based on the combination weighting of the game theory-cloud model[J].Engineering Construction and Architectural Management,2023,ahead-of-print. [20]WANG N,ZHANG C,MA T,et al.Multi-scale insight into key factors affecting stress perception of smart aggregates[J].Smart Materials and Structures,2023,32(10):105002. [21]王红卫,钟波涛,李永奎,等.大型复杂工程智能建造与运维的管理理论和方法[J].管理科学,2022,35(1):55-59. [22]盛昭瀚,霍红,陈晓田,等.笃步前行 创新不止——我国管理科学与工程学科70年回顾、反思与展望[J].管理世界,2021,37(2):185-202,213,13. [23]余玉刚,郑圣明,李建平,等.管理科学与工程学科“十四五”重点前沿领域的顶层布局与具体内容:面向基础科学理论与国家重大需求[J].中国管理科学,2022,30(5):1-8. [24]薛小龙,张鸣功,王亮,等.重大工程由建设转向运维的过渡机制——港珠澳大桥的实践创新[J].管理世界,2023,39(7):158-180. [25]王维嘉.暗知识 机器认知如何颠覆商业和社会[M].北京:中信出版社,2019. [26]贾鹏,胡燕,袁爽,等.中国省域综合交通运输效率及空间关联性研究[J].科研管理,2020,41(9):219-229. [27]唐升,李红昌,郝璐璐,等.交通基础设施与区域经济增长:基于多种运输方式的分析[J].中国软科学,2021(5):145-157. [28]程书萍.重大基础设施工程管理中的适应性选择原理与策略[J].运筹与管理,2017,26(2):153-157. [29]赵泽斌,满庆鹏.基于前景理论的重大基础设施工程风险管理行为演化博弈分析[J].系统管理学报,2018,27(1):109-117. [30]盛昭瀚,薛小龙,安实.构建中国特色重大工程管理理论体系与话语体系[J].管理世界,2019,35(4):2-16,51,195. [31]郑和平.企业管理模式理论及中国企业管理模式方向分析[J].区域经济评论,2003(1):60-64. [32]杨扬,刘圣,李宜威,等.大数据营销:综述与展望[J].系统工程理论与实践,2020,40(8):2150-2158. [33]黄丽华,朱海林,刘伟华,等.企业数字化转型和管理:研究框架与展望[J].管理科学学报,2021,24(8):26-35. [34]王芳,郭雷.积极应对人机融合社会系统治理挑战[J].科学与社会,2021,11(4):12-17. [35]瞿晶晶,王迎春,赵延东.人工智能社会实验:伦理规范与运行机制[J].中国软科学,2022(11):74-82. [36]中共中央办公厅,国务院办公厅.关于加强科技伦理治理的意见[EB/OL].(2022-03-20).https://www.gov.cn/zhengce/2022-03/20/content_5680105.htm. [37]吴俊杰,刘冠男,王静远,等.数据智能:趋势与挑战[J].系统工程理论与实践,2020,40(8):2116-2149. [38]江小涓,靳景.数字技术提升经济效率:服务分工、产业协同和数实孪生[J].管理世界,2022,38(12):9-26. [39]孔祥利.数据技术赋能城市基层治理的趋向、困境及其消解[J].中国行政管理,2022(10):39-45. [40]张维,曾大军,李一军,等.混合智能管理系统理论与方法研究[J].管理科学学报,2021,24(8):10-17. [41]SKITKA L J,MOSIER K,BURDICK M D.Accountability and automation bias[J].International Journal of Human-Computer Studies,2000,52(4):701-717. [42]CITRON D K,PASQUALE F.The scored society:due process for automated predictions[J].Washington Law Review,2014,89(1):1-33. [43]昌诚,张毅,王启飞.面向公共价值创造的算法治理与算法规制[J].中国行政管理,2022(10):12-20. [44]MOORE J F.Predators and prey:a new ecology of competition[J].Harvard Business Review,1993,71(3):75-86. [45]张海波.应急管理的全过程均衡:一个新议题[J].中国行政管理,2020(3):123-130.