An optimal resource allocation scheme for Fog based P2P IoT Network

The concept of IoT kindles numerous prospects to the heterogeneous IoT devices to blend within a network of cohesive intelligent systems. As the number of smart devices grows rapidly, edge computing is becoming a necessity to support the decentralized and distributed computing at the edge of the network to lessen the dependency on the core of the network. Moreover, the envision of Fog computing has also uncovered the possibility of providing edge computing to the end user in order to ensure better QoS. However, a context-aware optimal resource allocation scheme for P2P IoT network is crucial to achieve the application specific demand of the IoT devices with dynamic QoS requirements. Therefore, this paper addresses the context-aware and optimal resource allocation scheme for the decentralized hybrid P2P IoT network to achieve the stringent QoS requirement of the P2P IoT based applications. The simulation result shows a higher utility gain due to the proposed optimal resource allocation scheme in one-to-many peer association.

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