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Device–Edge Collaborative Differentiated Data Caching Strategy Toward AIoT

Puning Zhang, Meiyu Sun, Yanli Tu, Xuefang Li, Zhigang Yang, Ruyan Wang

2023IEEE Internet of Things Journal12 citationsDOI

Abstract

Caching AI of Things (AIoT) data at the edge can reduce the load on cloud centers while providing real-time services for AIoT users. Existing static caching strategies based on popularity prediction fail to meet users’ demands for time-varying entity data, while dynamic caching strategies focus only on evaluating the time-varying state characteristics of entity data, but ignore the differences in popularity among entities, resulting in poor service experience. To this end, a device–edge collaborative differentiated data caching strategy considering static entity popularity as well as dynamic system state is proposed. First, a hot entity recognition method centered on user interests is designed to achieve individual preference estimation by mining users’ long short-term interests, and then achieve group interest prediction based on social computing. Based on this, a dynamic caching optimization method is designed, which considers the timeliness of entity data and communication cost of the system to design the objective function of optimal cache decision and then solve it based on reinforcement learning. Simulation results demonstrate that the proposed caching strategy achieves better performance than other benchmark strategies in terms of cache hit rate and search cost.

Topics & Concepts

Computer scienceCachePopularityBenchmark (surveying)Enhanced Data Rates for GSM EvolutionCloud computingService providerService (business)Distributed computingData miningComputer networkArtificial intelligenceOperating systemGeographyEconomicsSocial psychologyPsychologyGeodesyEconomyCaching and Content DeliveryIoT and Edge/Fog ComputingPrivacy-Preserving Technologies in Data
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