Fog Computing in IoT Smart Environments via Named Data Networking: A Study on Service Orchestration Mechanisms

Fog Computing in IoT Smart Environments via Named Data Networking: A Study on Service Orchestration Mechanisms

By offering low-latency and context-aware services, fog computing will have a peculiar role in the deployment of Internet of Things (IoT) applications for smart environments. Unlike the conventional remote cloud, for which consolidated architectures and deployment options exist, many design and impl...

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Bibliographic Details
Published in:Future internet Vol. 11; no. 11; p. 222
Main Authors: Amadeo, Marica, Ruggeri, Giuseppe, Campolo, Claudia, Molinaro, Antonella, Loscrí, Valeria, Calafate, Carlos T.
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-11-2019
MDPI
Subjects:
Ambient intelligence
Cloud computing
Cognitive science
Communication
Computer science
Computer simulation
Consumers
fog computing
information centric networking
Internet of Things
named data networking
Names
Nodes
Provisioning
Routers
Sensors
service orchestration
smart environments
Smartphones
service orchestration
fog computing
Internet of Things
smart environments
named data networking
information centric networking
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Description
Summary:By offering low-latency and context-aware services, fog computing will have a peculiar role in the deployment of Internet of Things (IoT) applications for smart environments. Unlike the conventional remote cloud, for which consolidated architectures and deployment options exist, many design and implementation aspects remain open when considering the latest fog computing paradigm. In this paper, we focus on the problems of dynamically discovering the processing and storage resources distributed among fog nodes and, accordingly, orchestrating them for the provisioning of IoT services for smart environments. In particular, we show how these functionalities can be effectively supported by the revolutionary Named Data Networking (NDN) paradigm. Originally conceived to support named content delivery, NDN can be extended to request and provide named computation services, with NDN nodes acting as both content routers and in-network service executors. To substantiate our analysis, we present an NDN fog computing framework with focus on a smart campus scenario, where the execution of IoT services is dynamically orchestrated and performed by NDN nodes in a distributed fashion. A simulation campaign in ndnSIM, the reference network simulator of the NDN research community, is also presented to assess the performance of our proposal against state-of-the-art solutions. Results confirm the superiority of the proposal in terms of service provisioning time, paid at the expenses of a slightly higher amount of traffic exchanged among fog nodes.
ISSN:1999-5903
1999-5903
DOI:10.3390/fi11110222