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Cloud-Edge Collaboration in Industrial Internet of Things: A Joint Offloading Scheme Based on Resource Prediction

Zhengjie Sun, Hui Yang, Chao Li, Qiuyan Yao, Danshi Wang, Jie Zhang, Athanasios V. Vasilakos

2021IEEE Internet of Things Journal84 citationsDOI

Abstract

With the continuous addition of an abundant of heterogeneous devices, the limitation of task delay has become an obstacle to the development of the Industrial Internet of Things (IIoT). Task offloading based on edge computing can provide low-latency computing services for these tasks. However, in the actual IIoT scenario, in contrast to cloud computing, edge computing has limited resources and computing capabilities. Resource-constrained edge resources cannot meet the offloading requirements of massive industrial devices. In this article, we propose an optimal joint offloading scheme based on resource occupancy prediction for the problem of computing offloading with limited edge resources. The scheme is divided into two parts, including edge resource occupancy prediction and task offloading. Simultaneously, considering multitask and the limitations of edge resources, gate recurrent unit (GRU) is used to predict the occupancy of edge resources. Formulating an optimal strategy of task offloading by using a reinforcement learning algorithm according to the network state and predicted results. The simulation results show that the scheme can effectively reduce the average delay of tasks, while minimizing the task offloading failure rate.

Topics & Concepts

Computer scienceCloud computingEdge computingEnhanced Data Rates for GSM EvolutionEdge deviceDistributed computingMobile edge computingComputer networkTask (project management)Resource allocationThe InternetArtificial intelligenceOperating systemManagementEconomicsIoT and Edge/Fog ComputingBlockchain Technology Applications and SecurityPrivacy-Preserving Technologies in Data