Intelligent Resource Allocation in Dynamic Fog Computing Environments

2019 IEEE 8th International Conference on Cloud Networking (CloudNet) Pub Date : 2019-11-01 DOI:10.1109/CloudNet47604.2019.9064110

Amina Mseddi, Wael Jaafar, H. Elbiaze, W. Ajib

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引用次数: 21

Abstract

Fog computing emerged as a new paradigm that pushes cloud applications to the network edge. The fog infrastructure contains mainly distributed and heterogeneous fog nodes that are characterized by their complex distribution, high mobility and sporadic resources availability. This dynamic fog nodes behavior triggers new challenges in the resource management process, such as resources coordination for continuous quality-of-service satisfaction. In this paper, we propose a smart online resource allocation approach adapted for dynamic fog computing environments, aiming at maximizing the number of satisfied user requests within a predefined delay threshold. We model the fog computing environment as a Markov discrete process, where dynamic fog node behavior / mobility and resources availability are considered. Then, we present our smart deep-reinforcement-learning resource allocation algorithm. Considering real-world mobility data sets, the near-optimal performance of the proposed solution is illustrated through simulations, and its superiority over heuristic state-of-the-art approaches is exposed.

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动态雾计算环境下的智能资源分配

雾计算作为一种新的范例出现，将云应用程序推向网络边缘。雾基础设施主要包含分布式和异构雾节点，具有分布复杂、移动性强、资源可用性零散等特点。这种动态雾节点行为在资源管理过程中引发了新的挑战，例如为持续的服务质量满意度进行资源协调。在本文中，我们提出了一种适用于动态雾计算环境的智能在线资源分配方法，旨在在预定义的延迟阈值内最大化满足用户请求的数量。我们将雾计算环境建模为马尔可夫离散过程，其中考虑了动态雾节点行为/移动性和资源可用性。然后，我们提出了我们的智能深度强化学习资源分配算法。考虑到现实世界的移动数据集，通过仿真说明了所提出的解决方案的接近最优性能，并且暴露了其优于启发式最先进方法的优越性。

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

2019 IEEE 8th International Conference on Cloud Networking (CloudNet)

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