基于双 Q 网络深度强化学习的工业物联网计算卸载方法

Ruizhong Du, Jinru Wu, Yan Gao
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摘要

在工业物联网(IIoT)的发展过程中,移动边缘计算(MEC)的应用大大提高了任务计算卸载的效率。然而,在计算卸载过程中,数据隐私泄露的风险依然存在。考虑到任务数据敏感性的多样性和服务器安全保护能力的差异性,本文提出了一种隐私满意度评估方法。为了在保证卸载效率的同时有效提升隐私安全,我们提出了一种基于双Q网络深度强化学习的IIoT云端-边缘-设备计算卸载算法,命名为D2PCO,用于优化IIoT任务中的计算卸载过程。双Q网络的加入显著增强了算法的学习能力和处理复杂决策问题的效率。实验结果表明,所提出的D2PCO算法在确保低延迟的同时,显著提高了用户隐私满意度。与MA3MCO、DDPG、最短距离优先和随机调度算法相比,它分别降低了4.15%、9.98%、13.2%和26.47%的平均卸载延迟,提高了0.8%、4.26%、10.15%和30.30%的隐私满意度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Dual-Q network deep reinforcement learning-based computation offloading method for industrial internet of things

In the development of industrial internet of things (IIoT), the application of mobile edge computing (MEC) has significantly enhanced the efficiency of task computation offloading. However, the risk of data privacy leakage persists during the computation offloading process. Considering the diversity of task data sensitivity and the variability in server security protection capabilities, this paper proposes a method for assessing privacy satisfaction. To ensure offloading efficiency while effectively enhancing privacy security, we have proposed an IIoT cloud-edge-device computation offloading algorithm based on dual-Q network deep reinforcement learning, named D2PCO, to optimize the computation offloading process in IIoT tasks. The incorporation of the dual-Q network notably enhances the algorithm’s learning ability and efficiency in dealing with complex decision-making problems. Experimental results show that the proposed D2PCO algorithm significantly improves user privacy satisfaction while ensuring low delay. Compared with MA3MCO, DDPG, shortest distance priority, and random scheduling algorithms, it reduces the average offloading delay by 4.15%, 9.98%, 13.2%, and 26.47% and increases privacy satisfaction by 0.8%, 4.26%, 10.15%, and 30.30%, respectively.

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