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Frequency Locator Polynomial for Wideband Sparse Spectrum Sensing With Multichannel Subsampling | IEEE Journals & Magazine | IEEE Xplore

Frequency Locator Polynomial for Wideband Sparse Spectrum Sensing With Multichannel Subsampling


Abstract:

BigBand is a technique for wideband spectrum sensing (WSS) that can capture gigahertz of sparse spectrum in real time by using shifted multiple channels without sampling ...Show More

Abstract:

BigBand is a technique for wideband spectrum sensing (WSS) that can capture gigahertz of sparse spectrum in real time by using shifted multiple channels without sampling the signal at GS/s. In this paper, we focus on enforcing BigBand with the proposed improved algorithm, namely, AD-BigBand, for efficient and robust computation. AD-BigBand converts the nonlinear process (locating frequency and computing the spectrum value) of sparse WSS into two steps of solving linear equations. In particular, we define an r-degree frequency locator polynomial to rapidly locate nonzero frequencies. The computing complexity of the proposed method decreases from O(Klog2 K (n\log K\K)log K) of shifted sampling based BigBand to O(K log2 K), where the K-sparse signals of bandwitdth n are subsampled with arithmetic time-shifted sensing channels. We implement AD-BigBand on a commercial four-channel acquisition card. Experimental results show that AD-BigBand improves the WSS capabilities and exhibits higher processing speed and lower error spectrum construction rate than BigBand, especially in the case of relative low signal-to-noise ratio.
Published in: IEEE Transactions on Signal Processing ( Volume: 66, Issue: 3, 01 February 2018)
Page(s): 789 - 803
Date of Publication: 24 November 2017

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