Design issues of ultra-wideband systems for high-rate wireless PANs: modulation schemes and coexistence with WLANs

Jeong-Heon Lee, Tae-Jin Lee
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引用次数: 5

Abstract

Summary form only given. We adopt a general Gaussian function shifted in time by 0.5 ns and truncated at /spl plusmn/0.25 ns and its derivatives for a UWB waveform and its shaping, and employ a TH-SS (time hopping spread spectrum) technique. Three types of typical data modulation schemes - PPM, BPSK and BPAM - are used. It is important to choose an appropriate modulation scheme that has a smooth spectrum reducing the spectral lines to result in maximum power efficiency because of possible limits on the UWB transmit power emission level for wireless network applications. The adopted UWB systems are designed to consume extremely low AC power. We describe some UWB features which attract many battery operated mobile applications such as WPANs. The UWB signal can be seen as random noise to the IEEE 802.11 WLAN signal, whose bandwidth is 22 MHz. The bandwidth of the WLAN interference signal is only a small fraction of the UWB signal bandwidth, which means that the UWB system has robust noise performance. The transmitted average power of the UWB signal is extremely low. Therefore, the WLAN and WPAN systems can coexist in the same 2.4 GHz ISM band.
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高速无线广域网的超宽带系统设计问题:调制方案及与广域网的共存
只提供摘要形式。我们采用一个随时间移位0.5 ns,截断于/spl plusmn/0.25 ns的一般高斯函数及其导数来实现UWB波形及其整形,并采用TH-SS(跳时扩频)技术。三种典型的数据调制方案- PPM, BPSK和BPAM -被使用。由于无线网络应用的UWB发射功率发射水平可能受到限制,因此选择具有平滑频谱的适当调制方案以减少谱线以获得最大的功率效率是很重要的。所采用的超宽带系统被设计为消耗极低的交流功率。我们描述了一些UWB特性,这些特性吸引了许多电池供电的移动应用,如广域网。对于带宽为22mhz的IEEE 802.11 WLAN信号,UWB信号可以看作是随机噪声。WLAN干扰信号的带宽仅为UWB信号带宽的一小部分,这意味着UWB系统具有鲁棒的噪声性能。超宽带信号的发射平均功率极低。因此,WLAN和WPAN系统可以在同一个2.4 GHz ISM频段内共存。
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