摘要当今世界人们利用互联网可以获得大量文字、图像、声音等数字信息,将数量巨大的传感器组建成网络可使探测感知技术延伸到更广阔的领域。传感器网络是集成传感器、微机电系统和网络三大技术而形成的一种全新的信息获取和处理技术。66373
ZigBee技术是一种短距离、低复杂度、低功耗、低数据速率、低成本的双向无线通信技术或无线网络技术,是一组基于IEEE802.15.4无线标准研制开发的组网、安全和应用软件方面的通信技术。
本文首先介绍了无线传感网络和ZigBee技术的相关基础知识,然后在现有的ZigBee硬件方案中选择了美国德州仪器TI公司提供的ZigBee SOC解决方案:CC2530芯片并在Z-Stack协议栈的基础上,设计出满足技术指标要求的网络节点模块,对ZigBee技术和无线传感器网络研究具有一定的参考意义。
毕业论文关键词 无线传感器网络 ZigBee IEEE802.15.4 CC2530 Z-Stack协议栈
毕 业 论 文 外 文 摘 要
Title The research of ZigBee wireless sensor networks technology
Abstract
Nowadays people can obtain large numbers of digital information such as letters, images, sounds, etc through Internet. By building a network out of numerous sensors, the technology of probing and sensing could be extended to a larger area. Sensor network is a brand-new technology of information acquisition and processing by combining integrated sensor, MEMS and network together.
ZigBee is a two-way wireless telecommunication or network technology with short distance, low complexity, low power consumption, low data rate, and low cost. It is complex of network deployment, security and application software based on the wireless standard of IEE802.15.4.
This article first gave a introduction of basic knowledge about wireless sensor network and ZigBee technology. Then among contemporary ZigBee hardware solutions we chose the ZigBee SOC solution provided by Texas Instrument TI Company Of USA: CC2530 Chip. Based on the Z-Stack Protocol Stack, we successfully designed qualified network node module, which would have some reference significance to ZigBee technology and wireless sensor network research.
Keywords wireless sensor network ZigBee IEEE802.15.4 CC2530 Z-Stack
目 次
1 绪论 1
1.1 无线传感器网络简介 1
1.1.1 无线传感器网络的定义 1
1.1.2 无线传感器网络的发展历程 1
1.1.3 无线传感器网络的特点 2
1.2 Zigbee技术简介 2
1.2.1 ZigBee技术定义 3
1.2.2 ZigBee技术的发展历程 3
1.2.3 ZigBee技术特点 3
1.2.4 ZigBee的应用前景 4
1.3 本文主要研究内容和章节安排 6
1.3.1 研究内容 6
1.3.2 章节安排 6
2 Zigbee标准和体系结构 8
2.1 ZigBee无线传感网络的组成 8
2.1.1 设备类型(Device Types) 8
2.1.2 协议栈规范(Stack Profile) ZigBee无线传感网络技术研究:http://www.youerw.com/tongxin/lunwen_74298.html