无线个域网

低速无线个域网MAC协议的仿真与性能分析

Simulation and Performance Analysis of MAC Protocols for Wireless Sensor Networks

IPv6低速无线个域网的路由设计与实现

Design and implementation of IPv6 routing services for LR WPAN

IEEE已经将超宽带技术作为高速无线个域网物理层的实现方案。

IEEE proposes ultra-wideband as the realizing scheme of physical layer in wireless personal area network .

超宽带（UWB：ultrawideband）技术属于802.15下的一支，以其高速率、低功耗、抗干扰、兼容性强等多种优势将取代蓝牙（Bluetooth）成为下一代无线个域网的标准。

UWB ( Ultra Wide Band ) technology belongs to the 802.15 series . It outperforms Bluetooth in its high transmission rate , low power consuming , strong anti-interference ability and compatibility .

超宽带（UWB）是实现高速无线个域网（WPAN）多媒体传输的关键技术。

Ultra-Wideband ( UWB ) is a radio technology to accomplish multimedia transmitting for HR-WPAN ( high-rate wireless personal area network ) .

无线个域网是当前无线通信研究的热点之一，UWB超宽带技术在无线通信领域中有着巨大的潜在应用市场。

Wireless Personal Network is one of the key technologies in the research field of wireless communication . UWB system possesses a large potential in the application market .

随着无线个域网和物联网的发展，UWB技术已经被认定作为下一代通信技术的主要技术之一。

With the development of wireless personal area networks and the Internet of Things , UWB technology has been identified as one of the next generation of communications technology .

无线个域网（WPAN）是当前计算机网络发展最为迅速的领域之一。

Wireless personal area network ( WPAN ) is one of the most mushroom fields in current computer networks .

提出了一种基于无线个域网（WPAN）的传感器应用设计方法。

This paper presents a Sensor Applications Design ( SAD ) method for Wireless Personal Area Networks ( WPAN ) .

超宽带（UWB）技术是目前热点研究的一种无线个域网（WPAN）技术，而其MAC协议对网络的整体性能有着极重要的作用。

UWB is one of the hottest research topics in the area of WPAN ( Wireless Personal Area Network ), and the MAC Protocol is vital to the global network performance .

分析了将IPv6与IEEE802.15.4结合，在硬件平台上实现使用此协议的无线个域网（WPAN）。

This paper introduces the IEEE 802.15 . 4 protocol , combines it with IPv6 , sets up a Wireless Personal Area Network ( WPAN ) on hardware platform .

针对发送-参考（TR）接收机噪声影响较敏感的缺点，提出一种适用于低速率无线个域网的新型超宽带（UWB）TR接收机设计方案。

Aiming at the coherent disadvantage of transmitted reference ( TR ) receiver , a new TR-UWB ( ultra-wideband ) receiver design scheme for low-data-rate wireless personal area network ( WPAN ) is proposed .

WMNs可为无线个域网、局域网、校园网、城域网的一系列应用提供高速无线宽带接入服务。

WMNs will deliver wireless broadband services access for a large variety of applications in personal , local , campus , and metropolitan areas .

然后根据无线个域网的两种典型应用环境的特点，给出了进一步提高数据传输速率的思想。最后，对蓝牙adhoc多跳网络的路由进行了研究。

Based on former analysis , ideas of improving data transmission rate on two representative applications of WPAN are proposed after abstracting the characters of the two applications . Finally , the routing problem of multi-hop mobile Ad Hoc networks based on Bluetooth system is studied .

针对基于BOK的chirp扩频调制方案无法为低速无线个域网提供较高的链路容量的问题，提出一种对数据进行M进制编码并利用多个chirp信号对其进行对应传输的调制方案。

BOK modulation scheme fails to provide high link capacity for LR-WPAN , A new modulation scheme is proposed to improve the link capacity , where data is encoded by M-ray and transmitted by several chirp signals respectively .

本学位论文深入研究基于无线个域网（WPAN）技术构建的无线家庭网络电磁兼容性能以及通信设备的关键射频技术。

The electromagnetic compatibility characters of the wireless home network constructed with WPAN ( Wireless Personal Area Network ) and the key RF ( Radio Frequency ) technologies are studied in this thesis .

超宽带（Ultra-wideband，UWB）是一种新兴的无线电技术，具有传输速率高、功耗低，安全性好、抗多径能力强、以及成本低廉等优点，已经成为解决无线个域网的最佳方案。

Ultra-wideband ( UWB ) is a new type of wireless communication technology . It has many advantages compares to the normal wireless communications , for example high transmission rate , low power consumption , good security , robustness to multipath and low cost .

无线个域网（WPAN）的应用越来越广泛，但为了满足用户更高的需求，还需要在保证QoS的前提下进一步提高系统的覆盖范围和数据传输速率。

The application of wireless personal area network ( WPAN ) is more and more widely . However , in order to meet the more needs of users , the data transfer rate and network coverage need to be further improved under the premise of guaranteeing QoS .

802.15.3无线个域网媒体接入控制协议分析

Analysis on 802.15.3 Wireless Personal Area Network Medium Access Control Sub-layer

基于超宽带无线个域网的调度算法研究

Research on Scheduling Algorithm of Ultra-wideband Wireless Personal Area Network

高速无线个域网中一种基于效用公平的机会调度算法

A Utility Fairness Based Opportunistic Scheduling Algorithm in High-Rate WPANs

无线个域网应用环境下速率自适应算法的研究

Study on adaptive rate control scheme in WPAN system

无线个域网的传感器应用设计

Sensor Application Design for Wireless Personal Area Networks

无线个域网技术及相关协议

Wireless Personal Area Network Techniques and Related Protocols

基于无线个域网的新型语音通信系统

Implementation of voice over WPAN communication system

在众多的无线个域网技术中，最受人们关注的当数蓝牙技术。

There are many WPAN technologies , and among them Bluetooth technology wins the maximum attention .

基于蓝牙技术的无线个域网

WPAN Based on Bluetooth Technology

超宽带技术在下一代无线个域网、无线家庭互联等领域拥有广泛的应用前景。

UWB technology is widely applied to the next generation WPAN as well as the wireless access of consumer electronics at home .

最后分析了无线个域网两种典型应用环境的特点，并根据前面的结果分别给出了这两种应用环境下提高数据传输速率的方法。

Based on these analysis , methods for improving data transmission rates in two representative applications of WPAN are proposed based on characteristics of these applications .

本文第一章介绍了超宽带技术的发展现状，其中包括在超宽带无线个域网物理层技术方面的进展。

In Chapter 1 , we introduce the history and research status UWB radio , including the development of wireless personal network physical layer standard based on UWB .