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引用次数: 5
摘要
移动WiMAX是一种基于OFDM/OFDMA技术的宽带无线接入,采用自适应调制和编码(AMC)方案来实现更高的数据速率。在AWGN和瑞利衰落信道中,采用一种基于信道估计参数的选择策略来确定调制和编码方案(MCS)的电平。通过改变通道模型和FFT大小,对不同的阈值进行了MCS电平选择。利用卷积编码器、RMG (Reed-Muller- golay)编码器和RM (Reed-Muller)编码器在AWGN和二进制对称信道上通过改变每个字节的比特数和GNU Radio Companion中的调制方案来研究WiMAX物理层的误码率(BER)执行。本文分析了在数字调制和卷积码率下的各种2×2 MIMO框架。本文的目的是提供一个关于使用GNU Radio部署多天线系统比单天线系统的好处的想法。
Adaptive modulation coding in MIMO-OFDM for WiMAX using GNU Radio
Mobile WiMAX is a broadband wireless access based on OFDM/OFDMA technology which employs Adaptive Modulation and Coding (AMC) scheme to attain higher data rates. In this paper, a selection strategy is incorporated with GNU Radio for the determination of Modulation and Coding Scheme (MCS) level dependent upon channel estimation parameter over AWGN and Rayleigh fading channels. MCS level choice has been done for different threshold values by varying channel model and FFT size. BER (Bit Error Rate) execution of WiMAX physical layer is investigated utilizing Convolutional coder, RMG (Reed-Muller-Golay) coder and RM (Reed-Muller) coders over AWGN and Binary Symmetric Channels by changing number of bits for every byte and modulation schemes in GNU Radio Companion. In this paper, various 2×2 MIMO frameworks are analysed under digital modulations and Convolutional code rates. The aim of this paper is to provide a thought about the benefits of multiple antenna systems over single antenna systems deployments using GNU Radio.
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