适应与扩散:通过潜在扩散模型进行样本适应性重建。

Zalan Fabian, Berk Tinaz, Mahdi Soltanolkotabi
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引用次数: 0

摘要

在许多应用中都会出现逆问题,其目标是从嘈杂的、可能是(非)线性的观测数据中恢复干净的信号。重建问题的难度取决于多种因素,如地面实况信号的结构、退化的严重程度以及上述因素之间复杂的相互作用。这就导致了重建任务难度的自然逐样变化,而当代技术往往忽视了这一点。我们观察到的主要问题是,大多数现有的逆问题求解器缺乏根据重建任务的难度调整计算能力的能力,从而导致性能不佳和资源分配浪费。我们提出了一种称为 "严重度编码 "的新方法,用于在自动编码器的潜空间中估计噪声、降级信号的降级严重度。我们的研究表明,估计的严重程度与真实的劣化程度有很强的相关性,并能在逐个样本的基础上为重构问题的难度提供有用的提示。此外,我们还提出了一种基于潜在扩散模型的重建方法,该方法利用预测的损坏严重程度来微调反向扩散采样轨迹,从而实现样本自适应推理时间。我们的框架就像一个包装器,可以与任何基于潜扩散的基线求解器相结合,使其具有样本自适应性和加速度。我们对线性和非线性逆问题进行了数值实验,证明我们的技术大大提高了基线求解器的性能,平均采样速度提高了 10 倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adapt and Diffuse: Sample-Adaptive Reconstruction Via Latent Diffusion Models.

Inverse problems arise in a multitude of applications, where the goal is to recover a clean signal from noisy and possibly (non)linear observations. The difficulty of a reconstruction problem depends on multiple factors, such as the structure of the ground truth signal, the severity of the degradation and the complex interactions between the above. This results in natural sample-by-sample variation in the difficulty of a reconstruction task, which is often overlooked by contemporary techniques. Our key observation is that most existing inverse problem solvers lack the ability to adapt their compute power to the difficulty of the reconstruction task, resulting in subpar performance and wasteful resource allocation. We propose a novel method that we call severity encoding, to estimate the degradation severity of noisy, degraded signals in the latent space of an autoencoder. We show that the estimated severity has strong correlation with the true corruption level and can give useful hints at the difficulty of reconstruction problems on a sample-by-sample basis. Furthermore, we propose a reconstruction method based on latent diffusion models that leverages the predicted degradation severities to fine-tune the reverse diffusion sampling trajectory and thus achieve sample-adaptive inference times. Our framework acts as a wrapper that can be combined with any latent diffusion-based baseline solver, imbuing it with sample-adaptivity and acceleration. We perform numerical experiments on both linear and nonlinear inverse problems and demonstrate that our technique greatly improves the performance of the baseline solver and achieves up to 10× acceleration in mean sampling speed.

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