Distributed Slot Allocation in Capillary Gateways for Internet of Things Networks

Fatima Hussain, A. Ferworn
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引用次数: 2

Abstract

The applications and usage of the internet is expanding on a daily basis and the Internet of Things (IoT) is fast becoming the new approach for incorporating the internet into our personal, professional and social lives. IoT enables a wide variety of devices to inter-operate through the existing internet infrastructure. Capillary networks are proposed as a fundamental part of loT development, and will enable local sensor and devices to connect efficiently with other ubiquitous communication networks such as cellular systems. In this paper, we apply the Q-learning algorithm for the scheduling of capillary gateways for (M2M) communication in IoT networks. Q-learning algorithm is used to select conflict- free slot assignment for these gateways in a self-organizing manner. We analyze the performance of the proposed algorithm with respect to learning rates and rewards.
物联网毛细管网关中的分布式槽位分配
互联网的应用和使用每天都在扩大,物联网(IoT)正迅速成为将互联网融入我们的个人、职业和社交生活的新途径。物联网使各种各样的设备能够通过现有的互联网基础设施进行互操作。毛细网络被认为是loT发展的基本组成部分,它将使本地传感器和设备能够有效地与其他无处不在的通信网络(如蜂窝系统)连接。在本文中,我们将q -学习算法应用于物联网网络中(M2M)通信的毛细管网关调度。采用q -学习算法以自组织的方式为这些网关选择无冲突的槽位分配。我们从学习率和奖励方面分析了所提出算法的性能。
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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