We propose a novel deep neural network, coined DeepFPC-$\ell_2$, for solving the 1-bit compressed sensing problem. The network is designed by unfolding the iterations of the fixed-point continuation (FPC) algorithm with one-sided $\ell_2$-norm (FPC-$\ell_2$). The DeepFPC-$\ell_2$ method shows higher signal reconstruction accuracy and convergence speed than the traditional FPC-$\ell_2$ algorithm. Furthermore, we compare its robustness to noise with the previously proposed DeepFPC network---which stemmed from unfolding the FPC-$\ell_1$ algorithm---for different signal to noise ratio (SNR) and sign-flipped ratio (flip ratio) scenarios. We show that the proposed network has better noise immunity than the previous DeepFPC method. This result indicates that the robustness of a deep-unfolded neural network is related with that of the algorithm it stems from.
翻译:我们提出一个新的深心神经网络,用深心FCC-$\ ell_2美元创制,以解决1位压缩感测问题。这个网络的设计方法是以单面$\ell_2$-norm(FCC-$\ell_2$2$)对固定点继续算法进行迭代。深心FPC-$\ell_2$的方法显示信号重建精确度和趋同速度高于传统的FPC-$\ell_2$算法。此外,我们将其坚固度和噪音与先前提议的深心FPC-$\ell_1$的网络 -- -- 进行对比,后者源于开发的FPC-$\ell_1$运算法- 不同信号对噪音比和信号-反射率(flip比率)设想。我们表明,拟议的网络比前一个深心FCC方法有更好的噪音免疫力。这个结果显示,深心外神经网络的坚固度与它产生的算法有关。
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