A1 Refereed original research article in a scientific journal
A Dynamic Model of Embeddedness in Digital Infrastructures
Authors: Daniel Fürstenau, Abayomi Baiyere, Natalia Kliewer
Publisher: INFORMS
Publication year: 2019
Journal: Information Systems Research
Journal name in source: INFORMATION SYSTEMS RESEARCH
Journal acronym: INFORM SYST RES
Volume: 30
Issue: 4
First page : 1319
Last page: 1342
Number of pages: 24
ISSN: 1047-7047
eISSN: 1526-5536
DOI: https://doi.org/10.1287/isre.2019.0864
Abstract
Digital infrastructures are a result of individual yet interdependent systems evolving in relation to each other. In this paper, we identify three processes by which individual systems become embedded into digital infrastructures. First, there are parallel processes, in which systems become embedded independently of each other. Second, there are competitive processes, in which the embeddedness of one system increases at the expense of another. Finally, there are spanning processes, in which bridges are built between different embedded systems. The three processes, synthesized into a dynamic model of digital infrastructure embeddedness, offer much-needed conceptual clarity to the area of digital infrastructure evolution. They also provide insight into the emergence of three forms of digital infrastructures: silofied, regenerated, and unified. Reflecting an interconnection view, our research further facilitates an understanding of infrastructure inertia and its associated consequence.
Digital infrastructures are a result of individual yet interdependent systems evolving in relation to each other. In this paper, we identify three processes by which individual systems become embedded into digital infrastructures. First, there are parallel processes, in which systems become embedded independently of each other. Second, there are competitive processes, in which the embeddedness of one system increases at the expense of another. Finally, there are spanning processes, in which bridges are built between different embedded systems. The three processes, synthesized into a dynamic model of digital infrastructure embeddedness, offer much-needed conceptual clarity to the area of digital infrastructure evolution. They also provide insight into the emergence of three forms of digital infrastructures: silofied, regenerated, and unified. Reflecting an interconnection view, our research further facilitates an understanding of infrastructure inertia and its associated consequence.
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