基于改进变步长的数字自干扰消除优化自适应算法

2015 IEEE 9th International Conference on Anti-counterfeiting, Security, and Identification (ASID) Pub Date : 2015-09-01 DOI:10.1109/ICASID.2015.7405687

Lingyun Sun, Yujie Li, Yifeng Zhao, Lianfeng Huang, Zhibin Gao

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引用次数: 9

摘要

全双工无线通信系统在同一频段、同一时间收发信号，解决了有限的无线电频谱资源利用效率低的问题，使信道容量翻倍。但是，它也带来了一个新问题，即全双工节点会产生较强的自干扰信号。而对于自干扰信号，利用现有的负自干扰抵消和模拟自干扰抵消技术是不够的，需要有效的数字自干扰抵消来进一步消除。提出了一种基于改进变步长的数字自干扰消除优化自适应算法。通过使用迭代阈值，在阶跃因子与误差信号之间建立了新的非线性关系，克服了误差信号趋近于零时变化缓慢的问题，加快了收敛速度。

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Optimized adaptive algorithm of digital self-interference cancellation based on improved variable step

Full-duplex wireless communication system transmits and receives signals in a same frequency band and at a same time, which solves the problem of the low using efficiency of limited radio spectrum resource, and doubles the channel capacity. However, it also brings a new problem that the full-duplex node will generate a strong self-interference signal. And to deal with the self-interference signal, using existing negative self-interference cancellation and analog self-interference cancellation technology are not enough, effective digital self-interference cancellation is needed for further cancellation. This paper proposes an optimized adaptive algorithm of digital self-interference cancellation based on improved variable step. By using a iteration threshold, we establish a new nonlinear relationship between the step factor and the error signal, which overcomes the slow change problem when the error signal is getting closed to zero, and accelerates the convergence rate.

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来源期刊

2015 IEEE 9th International Conference on Anti-counterfeiting, Security, and Identification (ASID)

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