基于动态组稀疏重构的频谱感知算法

针对认知无线电网络中宽带频谱感知问题，提出了一种基于主用户信号频谱结构的频谱感知算法，简称为DGS-SS算法.该算法首先利用压缩感知理论对信号进行欠采样，然后利用主用户信号频谱的组稀疏结构修正重构过程中的频谱和残差支撑集，从而能够加快重构主用户信号频谱的收敛速度，而且也能够提高主用户信号频谱的重构精度，最后利用重构信号频谱给出频谱空穴的有效检测.仿真结果表明，所提算法不仅能在低压缩比下精确重建信号频谱，而且对噪声变化具有更强的鲁棒性，从而有效地提高了频谱感知性能.

Spectrum Sensing Algorithm Based on Dynamic Group Sparsity Reconstruction

To solve the problem of wideband spectrum sensing in cognitive radio networks， a spectrum sensing algorithm based on the spectrum structure of primary user signals was proposed， which is called DGS-SS algorithm. Firstly， compressed sensing theory was applied to signal acquisition to achieve a sub-Nyquist rate. Secondly， the group sparsity structure of primary user spectrum was used to modify the spectrum and residual support set during the reconstruction process， which can speed up the convergence and improve the accuracy of the reconstruction of primary user spectrum. Finally， effective detection of spectrum holes was given by the reconstructed signal spectrum. Simulation results show that the proposed algorithm can accurately reconstruct the spectrum at low compression ratio and have stronger robustness to noise variation， which makes the spectrum sensing performance significantly improved.