用于软件定义无线电的高效、高性能可重新配置的正则符号数字架构

Vijaya Bhaskar Chalampalem, Munaswamy Pidugu
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引用次数: 0

摘要

与其他无线设计方案相比,软件定义无线电(SDR)具有灵活性和可扩展性,因此在无线设备建模方面备受推崇。有限脉冲响应(FIR)滤波器的演化结构是为一种拟议的可重构典型符号位数(CSD)方法而设计的。考虑到复杂的权衡问题,需要使用许多 FIR 抽头来完成这项具有挑战性的任务。在基带处理方面,通过参数化控制的 FIR 滤波器抽头选择进行设计。为克服与多标准无线通信系统根余弦滤波器标准的 SDR 系统相关的可重新配置设计问题,优化处理模型通常用于实现多个 FIR 信道化拓扑结构,其中每个拓扑结构都与特定的同相和正交 (IQ) 符号相关联。此外,它还证明了在下一代无线通信系统的 SDR 系统中使用多调制基带调制器的可行性,从而以最小的计算复杂度开销实现最大的适应性。根据实验结果,所提出的基于无乘法器 FIR 滤波器的可重构基带调制器比目前的 SDR 系统降低了 6% 的复杂度,性能效率提高了 47%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An efficient high performance reconfigurable canonical sign digit architecture for software defined radio
Software defined radios (SDRs) are highly motivated for wireless device modelling due to their flexibility and scalability over alternative wireless design options. The evolutionary structure of finite impulse response (FIR) filters was designed for a proposed reconfigurable canonical sign digit (CSD) approach. Considering the complex trade-off, this is accomplished with many FIR taps, which is a challenging assignment. On the baseband processing side, design is given with parameterization-controlled FIR filter tap selection. Optimal processing models to overcome the reconfigurable design issues associated with the SDR system for a multi-standard wireless communication system root cosine filter standard are often used to implement multiple FIR channelization topologies, each of which is tied to a particular in-phase and quadrature (IQ) symbol. Additionally, it demonstrates the viability of using a multi-modulation baseband modulator in the SDR system for next-generation wireless communication systems to maximise adaptability with the least amount of computational complexity overhead. The proposed multiplier-less FIR filter-based reconfigurable baseband modulator, according to the experimental results, offers a 6% complexity reduction and a 47% improvement in performance efficiency over the current SDR system.
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