Image recovery from compressive measurements requires a signal prior for the images being reconstructed. Recent work has explored the use of deep generative models with low latent dimension as signal priors for such problems. However, their recovery performance is limited by high representation error. We introduce a method for achieving low representation error using generators as signal priors. Using a pre-trained generator, we remove one or more initial blocks at test time and optimize over the new, higher-dimensional latent space to recover a target image. Experiments demonstrate significantly improved reconstruction quality for a variety of network architectures. This approach also works well for out-of-training-distribution images and is competitive with other state-of-the-art methods. Our experiments show that test-time architectural modifications can greatly improve the recovery quality of generator signal priors for compressed sensing.
翻译:从压缩测量中恢复图像需要事先发出信号,才能重建图像。最近的工作探索了使用低潜值的深基因模型作为这类问题的信号前置。然而,它们的恢复性能受到高代表率错误的限制。我们引入了一种方法,利用发电机作为信号前置,实现低代表率错误。我们使用预先培训的发电机,在测试时移除一个或一个以上的初始区块,并优化新的高维潜层空间,以恢复目标图像。实验显示,各种网络结构的重建质量显著提高。这种方法对于培训外分配图像也效果良好,与其他最先进的方法具有竞争力。我们的实验表明,测试时建筑改造可以大大提高压缩感应前发电机信号的恢复质量。
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