From zero to fog: Efficient engineering of fog‐based Internet of Things applications

In Internet of Things (IoT) data processing, cloud computing alone does not suffice due to latency constraints, bandwidth limitations, and privacy concerns. By introducing intermediary nodes closer to the edge of the network that offer compute services in proximity to IoT devices, fog computing can...

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Bibliographic Details
Published inSoftware, practice & experience Vol. 51; no. 8; pp. 1798 - 1821
Main Authors Pfandzelter, Tobias, Hasenburg, Jonathan, Bermbach, David
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.08.2021
Subjects
application design
Best practice
Cloud computing
Computer architecture
Convergence
Data processing
Design
fog computing
Internet of Things
IoT
Network latency
Nodes
simulation
Systems design
testbed
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Summary:In Internet of Things (IoT) data processing, cloud computing alone does not suffice due to latency constraints, bandwidth limitations, and privacy concerns. By introducing intermediary nodes closer to the edge of the network that offer compute services in proximity to IoT devices, fog computing can reduce network strain and high access latency to application services. While this is the only viable approach to enable efficient IoT applications, the issue of component placement among cloud and intermediary nodes in the fog adds a new dimension to system design. State‐of‐the‐art solutions to this issue rely on simulation or solving a formalized assignment problem through heuristics only, which both have their drawbacks. In this article, we present a five‐step process for designing practical fog‐based IoT applications that combines best practices, simulation, and testbed analysis to converge towards an efficient system architecture. We then apply this process in a smart factory case study. By deploying filtered options to a physical testbed, we show that each step of our process converges towards more efficient application designs.
ISSN:0038-0644
1097-024X
DOI:10.1002/spe.3003