2020
DOI: 10.1002/sys.21537
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Exploring and managing the complexity of large infrastructure projects with network theory and model‐based systems engineering—The example of radioactive waste disposal

Abstract: Given that model‐based systems engineering (MBSE) captures the structure and behavior of an engineered system in an overarching system model, MBSE appears to be a promising approach to managing large infrastructure projects (LIPs). However, it is not apparent how to most appropriately organize the associated system model—and hence the infrastructure project itself. Furthermore, MBSE may today not be readily accepted by the civil engineering industry. In this research, a hypothetical project for the geological … Show more

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Cited by 4 publications
(5 citation statements)
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“…An analysis of the application of the approach shows that it is important to provide a hierarchy, which involves dividing a system of systems into different levels of decomposition and nesting components within each other [84][85][86][87][88]. Hierarchical modeling involves integrating validated subcomponent-level, component-level, or subsystem-level models into a large-scale system-level model [85].…”
Section: Resultsmentioning
confidence: 99%
See 2 more Smart Citations
“…An analysis of the application of the approach shows that it is important to provide a hierarchy, which involves dividing a system of systems into different levels of decomposition and nesting components within each other [84][85][86][87][88]. Hierarchical modeling involves integrating validated subcomponent-level, component-level, or subsystem-level models into a large-scale system-level model [85].…”
Section: Resultsmentioning
confidence: 99%
“…Hierarchical modeling involves integrating validated subcomponent-level, component-level, or subsystem-level models into a large-scale system-level model [85]. To determine the boundary conditions of a complex technical system, it is necessary to rise to the level of a hierarchically higher complex technical system and identify the incoming and outgoing data in the complex technical system under consideration, and vice versa to the hierarchical level of the lower complex technical system, and repeat this process iteratively [84][85][86][87][88]. As the model and structure of the system are built, these operations must be repeated and, if necessary, move along the chain to even higher and lower levels of complex technical systems.…”
Section: Resultsmentioning
confidence: 99%
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“…In the early 20th century, Ludwig von Bertalanffy, an Austrian biologist of American nationality, was the founder of General Systems Theory (GST, 1968) [33]. He defined a system as "a complex composed of several interacting elements", thus defining the three basic characteristics of purposefulness, dynamics, and orderliness of systems theory and emphasizing the importance of system thinking [34]. Bertalanffy's work inspired other scholars, including Bertalanffy's work inspired other scholars, including Talcott Parsons and Niklas Luhmann, who applied systems theory to the study of social systems [35].…”
Section: System Theorymentioning
confidence: 99%
“…They require bridging between different worldviews and research paradigms, between positivist approaches present in engineering sciences and constrained relativist approaches of value for transition thinking, policy-making, and governance [78]. However, initial efforts are visible in the field to start engaging with these challenges [79], e.g., by addressing sociotechnical systems (e.g., [77,[80][81][82][83][84]), stakeholders' goals and agency (e.g., [18,85]), complex systems and systems-of-systems (e.g., [86][87][88][89]), conceptual modelling (e.g., [90,91]), and systems thinking (e.g., [75,76,82,92]).…”
Section: Systems Engineering Of Sociotechnical Systemsmentioning
confidence: 99%