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Blockchain for the IoT: Privacy-Preserving Protection of Sensor Data
Journal
Journal of the Association for Information Systems
ISSN
1536-9323
Type
journal article
Author(s)
Abstract
A constantly growing pool of smart, connected Internet of Things (IoT) devices poses completely new challenges for business regarding security and privacy. In fact, the widespread adoption of smart products might depend on the ability of organizations to offer systems that ensure adequate sensor data integrity while guaranteeing sufficient user privacy. In light of these challenges, previous research indicates that blockchain technology may be a promising means to mitigate issues of data security arising in the IoT. Building upon the existing body of knowledge, we propose a design theory, including requirements, design principles, and features, for a blockchain-based sensor data protection system (SDPS) that leverages data certification. We then design and develop an instantiation of an SDPS (CertifiCar) in three iterative cycles that prevents the fraudulent manipulation of car mileage data. Furthermore, we provide an ex-post evaluation of our design theory considering CertifiCar and two additional use cases in the realm of pharmaceutical supply chains and energy microgrids. The evaluation results suggest that the proposed design ensures the tamper-resistant gathering, processing, and exchange of IoT sensor data in a privacy-preserving, scalable, and efficient manner.
Language
English
Keywords
Internet of Things
Big Data
Privacy
Security
Blockchain
Certification
Design Science Research
Design Theory
HSG Classification
contribution to scientific community
HSG Profile Area
SoM - Business Innovation
Refereed
Yes
Publisher
Assoc. of Information Systems
Volume
Vol. 20, Issue 9
Number
Article 10
Start page
1271
End page
1307
Subject(s)
Eprints ID
259708
File(s)
Loading...
open access
Name
IoT_Data_Certification_Chanson_2019.pdf
Size
1.34 MB
Format
Adobe PDF
Checksum (MD5)
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