A practical design of multi-channel MAC for cluster-tree WSN

Hong Zhang, Shuyu Li
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引用次数: 6

Abstract

Multi-channel media access control (MAC) now has been well understood in wireless sensor network (WSN) with the development of sensor device which is equipped with a single half-duplex transceiver with multiple-frequency support. However, peer-to-peer WSN causes much attention by researchers, while it is not suitable for lots of practical applications. In this paper, a new design of multi-channel MAC special for cluster-tree WSN, a typical asymmetric network, is introduced. Cluster-tree WSN has many special features in nodes distribution and data direction. According to these features, phase hopping (control channel and data channel coexist) is used to achieve multi-channel assignment and channel switch and time division multiple address (TDMA) mechanism is utilized to avoid data collision in the period of nodes' communication. The simulation results show that the scheme presented has advantages in providing higher maximum effective data transmission and smaller average packet delay and reducing energy consumption.
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簇树WSN多通道MAC的实用设计
随着支持多频半双工收发器的传感器设备的发展,多通道媒体访问控制(MAC)在无线传感器网络(WSN)中得到了广泛的应用。然而,点对点无线传感器网络受到了研究人员的广泛关注,但它并不适合大量的实际应用。本文针对典型的非对称网络簇树WSN,提出了一种新的多通道MAC设计方案。聚类树WSN在节点分布和数据方向上具有许多独特的特点。根据这些特点,采用跳相(控制信道和数据信道共存)实现多信道分配,采用信道切换和时分多址(TDMA)机制避免节点通信期间的数据冲突。仿真结果表明,该方案具有较高的最大有效数据传输率、较小的平均分组延迟和较低的能耗等优点。
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