近远自抗CDMA无线网络

12th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications. PIMRC 2001. Proceedings (Cat. No.01TH8598) Pub Date : 2001-09-30 DOI:10.1109/PIMRC.2001.965454

S. Glisic, Z. Nikolic, N. Milosevic, Fan Wang

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引用次数: 1

摘要

我们引入了一种新的多址概念，称为/spl /-CDMA。缩写是指具有延迟(或)调制和跳频的码分多址。该概念基于直接序列扩频(DSSS)系统的改进，其中传输波形包括DSSS信号的多个幅度和延迟副本。一般来说，amM/spl tau/-DSDH用于DS信号，该信号包括m个不同幅度(a)的延迟(/spl tau/)副本，以m个芯片间隔的有限延迟窗口发送。延迟窗口的位置在代码长度n的范围内跳变(delay hops - dh)，这提供了对远近效应的抵抗，而不需要复杂的多用户检测器。通过交错处理，可以同时降低远近效应对延迟窗口和衰落的不同位置的影响。如果将信号能量拆分为m>1个独立分量，使其更容易受到噪声和衰落的影响，那么有用信息的总体流量仍然会增加。结果表明，在较大的信号、信道和干扰参数范围下，该系统具有较好的性能。该系统结合了直接决策支持系统和快速决策支持系统的优点。在不需要复杂的多用户检测器的情况下减轻了远近效应，同时保持了DSSS系统的简单性。不需要频率合成器。相干RAKE接收的相干性保持比跳频系统简单得多。实现了比标准DSSS系统更高的多径分量抑制。对于上述信号格式，本文提供了许多接收器配置，从非常简单到更复杂的配置，提供了越来越好的性能。该应用程序是能量感知软件无线电，其中配置控制算法将选择最简单的配置，以便以最小的处理能力为给定环境提供所需的QoS，从而产生最小的能耗。

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Near far self resistant CDMA wireless network

We introduce a new concept of multiple access called /spl tau/-CDMA. The abbreviation stands for code division multiple access with delay (or) modulation and hopping. The concept is based on a modification of direct sequence spread spectrum (DSSS) system where transmitted waveform includes multiple amplitude and delay replicas of DSSS signal. In general notation amM/spl tau/-DSDH is used for the DS signal that includes m delayed (/spl tau/) replicas of different amplitudes (a), sent in a limited delay window of M chip intervals. The position of the delay window is hopped (delay hopping-DH) in the range of the code length N. This provides resistance to near far effect without the need for complex multiuser detectors. The variable impacts of the near far effect, for different positions of the delay window and fading, are simultaneously reduced by interleaving. If the signal energy is split to m>1 separate components, making it more vulnerable to noise and fading, the overall flow of useful information will be still increased. The results demonstrate that under the large range of the signal, channel and interference parameters this system offers better performance. This system combines the good characteristics of DSSS and FHSS systems. The near far effect is mitigated without need for complicated multiuser detectors and at the same time the simplicity of the DSSS system is preserved. There is no need for a frequency synthesizer. The coherency for coherent RAKE reception is maintained in a much simpler way than in the FH system. Higher suppression of the multipath component is achieved than in a standard DSSS system. For the above signal formats this paper offers a number of receiver configurations ranging from very simple to more complex ones providing better and better performance. The application is energy aware software radio where a configuration control algorithm would chose the simplest configuration in order to provide the required QoS for the given environment with the minimum processing power resulting in minimum energy consumption.

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12th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications. PIMRC 2001. Proceedings (Cat. No.01TH8598)

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