Litcius/Paper detail

Delay-Aware Caching in Internet-of-Vehicles Networks

Xiaoge Huang, Ke Xu, Qianbin Chen, Jie Zhang

2021IEEE Internet of Things Journal41 citationsDOI

Abstract

With the emergence of a large number of computational resource-intensive applications and various content delivery services, there is an explosion of data growth in the Internet of Vehicles (IoV). To improve the transmission performance of the IoV, caching content on the edge of the network is considered as a potential solution to reduce the content transmission delay. In this article, we investigate the content caching decisions optimization method in the IoV to minimize the content fetching delay for vehicles, which is based on the vehicle-to-vehicle (V2V) collaboration. A delay-aware content caching (DCC) algorithm in the IoV is proposed, which consists of vehicle associations, content caching, and precaching decisions optimization. First, a delay-aware vehicle associations (DVAs) algorithm is proposed to optimize the vehicle associations. Consequently, based on the vehicle associations results, the content caching decisions are optimized in two network scenarios according to the existence of the handover vehicles. Finally, a practical scenario of Shanghai with time-varying traffic flow is used for simulations and the effectiveness of the proposed DCC algorithm is verified.

Topics & Concepts

Computer scienceComputer networkThe InternetHandoverEnhanced Data Rates for GSM EvolutionTransmission (telecommunications)Transmission delayContent deliveryVehicular ad hoc networkEdge computingReal-time computingDistributed computingWirelessWireless ad hoc networkArtificial intelligenceNetwork packetWorld Wide WebTelecommunicationsCaching and Content DeliveryPeer-to-Peer Network TechnologiesOpportunistic and Delay-Tolerant Networks