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A Cognitive Routing Framework for Reliable Communication in IoT for Industry 5.0

Saptarshi Ghosh, Tasos Dagiuklas, Muddesar Iqbal, Xinheng Wang

2022IEEE Transactions on Industrial Informatics39 citationsDOIOpen Access PDF

Abstract

Industry 5.0 requires intelligent self-organi- zed, self-managed, and self-monitoring applications with ability to analyze and predict the human as well as machine behaviors across interconnected devices. Tackling dynamic network behavior is a unique challenge for Internet of Things applications in Industry 5.0. Knowledge-defined networks (KDN) bridge this gap by extending software-defined networking architecture with knowledge plane, which learns the network dynamics to avoid suboptimal decisions. Cognitive routing leverages the sixth-generation (6G) self-organized networks with self-learning feature. This article presents a self-organized cognitive routing framework for a KDN which uses link-reliability as a routing metric. It reduces end-to-end latency by choosing the most reliable path with minimal probability of route-flapping. The proposed framework precalculates all possible paths between every pair of nodes and ensures self-healing with a constant-time convergence. An experimental test-bed has been developed to benchmark the proposed framework against the industry-stranded link-state and distance-vector routing algorithms SPF and DUAL, respectively.

Topics & Concepts

Computer scienceComputer networkLink-state routing protocolDistributed computingBenchmark (surveying)Routing (electronic design automation)Routing protocolStatic routingCognitive networkCognitive radioWirelessGeodesyTelecommunicationsGeographyMolecular Communication and NanonetworksSoftware-Defined Networks and 5GIoT and Edge/Fog Computing
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