Deep Reinforcement Learning techniques for dynamic task offloading in the 5G edge-cloud continuum

Gorka Nieto, Idoia de la Iglesia, Unai Lopez-Novoa, Cristina Perfecto
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Abstract

The integration of new Internet of Things (IoT) applications and services heavily relies on task offloading to external devices due to the constrained computing and battery resources of IoT devices. Up to now, Cloud Computing (CC) paradigm has been a good approach for tasks where latency is not critical, but it is not useful when latency matters, so Multi-access Edge Computing (MEC) can be of use. In this work, we propose a distributed Deep Reinforcement Learning (DRL) tool to optimize the binary task offloading decision, this is, the independent decision of where to execute each computing task, depending on many factors. The optimization goal in this work is to maximize the Quality-of-Experience (QoE) when performing tasks, which is defined as a metric related to the battery level of the UE, but subject to satisfying tasks’ latency requirements. This distributed DRL approach, specifically an Actor-Critic (AC) algorithm running on each User Equipment (UE), is evaluated through the simulation of two distinct scenarios and outperforms other analyzed baselines in terms of QoE values and/or energy consumption in dynamic environments, also demonstrating that decisions need to be adapted to the environment’s evolution.
用于 5G 边缘-云连续体动态任务卸载的深度强化学习技术
由于物联网设备的计算和电池资源有限,新的物联网(IoT)应用和服务的集成在很大程度上依赖于将任务卸载到外部设备。到目前为止,云计算(CC)模式对于延迟不重要的任务来说是一种很好的方法,但当延迟很重要时,这种方法就不适用了,因此多访问边缘计算(MEC)可以派上用场。在这项工作中,我们提出了一种分布式深度强化学习(DRL)工具,用于优化二进制任务卸载决策,即根据多种因素独立决定在哪里执行每个计算任务。这项工作的优化目标是在执行任务时最大限度地提高体验质量(QoE),QoE 被定义为与 UE 电池电量相关的指标,但必须满足任务的延迟要求。这种分布式 DRL 方法,特别是在每个用户设备(UE)上运行的行为批评(AC)算法,通过模拟两种不同的场景进行了评估,在动态环境中的 QoE 值和/或能耗方面优于其他分析基线,同时也证明了决策需要适应环境的演变。
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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