Formulating Interference-aware Data Delivery Strategies in Edge Storage Systems

Proceedings of the 51st International Conference on Parallel Processing Pub Date : 2022-08-29 DOI:10.1145/3545008.3545078

Xiaoyu Xia, Feifei Chen, Qiang He, Guangming Cui, John C. Grundy, Mohamed Abdelrazek, Fang Dong

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引用次数: 1

Abstract

Networked edge servers constitute an edge storage system in edge computing (EC). Upon users’ requests, data must be delivered from edge servers in the system or from the cloud to users. Existing studies of edge storage systems have unfortunately neglected the fact that an excessive number of users accessing the same edge server for data may impact users’ data rates seriously due to the wireless interference. Thus, users must first be allocated to edge servers properly for ensuring their data rates. After that, requested data can be delivered to users to minimize their average data delivery latency. In this paper, we formulate this Interference-aware Data Delivery at the network Edge (IDDE) problem, and demonstrate its NP-hardness. To tackle it effectively and efficiently, we propose IDDE-G, a novel approach that first finds a Nash equilibrium as the strategy for allocating users. Then, it finds an approximate strategy for delivering requested data to allocated users. We analyze the performance of IDDE-G theoretically and evaluate its performance experimentally to demonstrate the effectiveness and efficiency of IDDE-G on solving the IDDE problem.

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边缘存储系统中干扰感知数据传输策略的制定

网络边缘服务器构成了边缘计算中的边缘存储系统。根据用户的请求，数据必须从系统中的边缘服务器或从云交付给用户。遗憾的是，现有的边缘存储系统研究忽略了一个事实，即过多的用户访问同一台边缘服务器获取数据可能会由于无线干扰而严重影响用户的数据速率。因此，必须首先将用户正确分配到边缘服务器，以确保其数据速率。之后，可以将请求的数据交付给用户，以最小化他们的平均数据交付延迟。在本文中，我们提出了这种干扰感知数据传输在网络边缘(IDDE)问题，并证明了其np -硬度。为了有效和高效地解决这个问题，我们提出了IDDE-G，一种新的方法，首先找到纳什均衡作为分配用户的策略。然后，它找到一种近似的策略，将请求的数据交付给已分配的用户。我们从理论上分析了IDDE- g的性能，并对其性能进行了实验评估，以证明IDDE- g在解决IDDE问题上的有效性和效率。

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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Proceedings of the 51st International Conference on Parallel Processing

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