Paper Info
Title
Modeling interferences in information systems design for cyberphysical systems: Insights from a smart grid application
Abstract
In this paper, we analyze possible interferences that occur when developing information systems for cyberphysical systems – hybrids containing legacy technical components and added IT modules. In particular, the enhancement of electricity systems through IT components, resulting in smart grid and smart home solutions, is experiencing increasing adoption rates in advanced and developing countries alike. Due to the substantial interdependence with and reliance on often decades-old legacy infrastructure, these cyberphysical systems present particular opportunities and challenges for the associated information systems. We propose that one channel through which information systems improve cyberphysical systems is by enhancing the components of the legacy system with new features. Introducing the Design–Interference Model, we conceptualize IS design for cyberphysical systems and outline possible obstacles and interferences associated with it. Using a simulation experiment for a smart grid application as a showcase, we derive insights into how to address these challenges. We condense these results into actionable advice that, first, seeks to validate existing guidelines for design-oriented research, second, extends and focuses them on cyberphysical system applications and, third, provides guidance to researchers and practitioners in this increasingly relevant area of information system development.
Year
DOI
Venue
2018
10.1057/s41303-016-0030-1
European Journal of Information Systems
Keywords
Field
DocType
design science, cyberphysical Systems, Design–Interference model, smart grid, sustainability
Information system,Smart grid,Computer science,Electricity,Communication channel,Home automation,Design science,Sustainability,Legacy system,Management science
Journal
Volume
Issue
ISSN
27
2
1476-9344
Citations 
PageRank 
References 
3
0.36
19
Authors
3
Name
Order
Citations
PageRank
Tobias Brandt17717.84
Stefan Feuerriegel221931.91
Dirk Neumann329437.29