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Deep Reinforcement Learning for Scheduling in an Edge Computing-Based Industrial Internet of Things - 2021

Deep Reinforcement Learning for Scheduling in an Edge Computing-Based Industrial Internet of Things

Research Area:  Internet of Things

Abstract:

The demand for improving productivity in manufacturing systems makes the industrial Internet of things (IIoT) an important research area spawned by the Internet of things (IoT). In IIoT systems, there is an increasing demand for different types of industrial equipment to exchange stream data with different delays. Communications between massive heterogeneous industrial devices and clouds will cause high latency and require high network bandwidth. The introduction of edge computing in the IIoT can address unacceptable processing latency and reduce the heavy link burden. However, the limited resources in edge computing servers are one of the difficulties in formulating communication scheduling and resource allocation strategies. In this article, we use deep reinforcement learning (DRL) to solve the scheduling problem in edge computing to improve the quality of services provided to users in IIoT applications. First, we propose a hierarchical scheduling model considering the central-edge computing heterogeneous architecture. Then, according to the model characteristics, a deep intelligent scheduling algorithm (DISA) based on a double deep network (DDQN) framework is proposed to make scheduling decisions for communication. We compare DISA with other baseline solutions using various performance metrics. Simulation results show that the proposed algorithm is more effective than other baseline algorithms.

Keywords:  

Author(s) Name:  Jingjing Wu , Guoliang Zhang ,Jiaqi Nie , Yuhuai Peng ,and Yunhou Zhang

Journal name:  Wireless Communications and Mobile Computing

Conferrence name:  

Publisher name:  Hindawi

DOI:  10.1155/2021/8017334

Volume Information: