A Cache-assisted Computing Offloading Strategy Based on Deep Q Network

2023 7th International Conference on Management Engineering, Software Engineering and Service Sciences (ICMSS) Pub Date : 2023-01-06 DOI:10.1109/ICMSS56787.2023.10117668

Qiaofeng Song, J. Wang, Jiahao Liu

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Abstract

Mobile edge computing (MEC) provides users with abundant wireless resources and cloud computing capabilities to meet their computing demand. Existing works tend to consider caching and computing offloading separately, so it is difficult to achieve overall optimization of system performance. To further improve system performance in smart home scenario, a novel collaborative caching and computing offloading scheme (CCCO) was proposed in this paper. First, a new collaborative caching strategy is designed in this paper to improve the cache hit rate, i.e., smart devices cache the task's computation results and edge servers collaboratively cache the related data of the sub-tasks after task division, Then, sub-tasks are collaboratively offloaded to servers for processing. Finally, Deep Q Network algorithm is used to obtain the optimal offloading and caching decisions for minimizing system latency. Simulation results show that the proposed algorithm significantly outperforms the traditional computing offloading scheme in terms of latency.

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基于深度Q网络的缓存辅助计算卸载策略

移动边缘计算(MEC)为用户提供丰富的无线资源和云计算能力，满足用户的计算需求。现有的工作倾向于将缓存和计算卸载分开考虑，因此难以实现系统性能的整体优化。为了进一步提高智能家居场景下的系统性能，本文提出了一种新的协同缓存和计算卸载方案。首先，为了提高缓存命中率，本文设计了一种新的协同缓存策略，即在任务划分后，智能设备缓存任务的计算结果，边缘服务器协同缓存子任务的相关数据，然后将子任务协同卸载到服务器进行处理。最后，利用Deep Q Network算法获得最优的卸载和缓存决策，以最小化系统延迟。仿真结果表明，该算法在延迟方面明显优于传统的计算卸载方案。

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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来源期刊

2023 7th International Conference on Management Engineering, Software Engineering and Service Sciences (ICMSS)

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