三思而后行:利用 MCMC 改进逆向问题的解决

Yaxuan Zhu, Zehao Dou, Haoxin Zheng, Yasi Zhang, Ying Nian Wu, Ruiqi Gao
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引用次数: 0

摘要

最近的研究表明,扩散模型可以作为解决逆问题的强大先验。一个突出的例子是扩散后验采样(Diffusion PosteriorSampling,DPS),它利用特威迪公式逼近给定主题数据的后验分布。尽管 DPS 具有无需重新训练即可解决各种逆问题的优点,但它的性能却受到了一个事实的阻碍,即这种后验近似可能不准确,尤其是在高噪声水平下。因此,我们提出了基于 Annealed MCMC 的新型推理算法 \textbf{D}iffusion\textbf{P}osterior \textbf{MC}MC (\textbf{DPMC}),用于解决预训练扩散模型的逆问题。我们受 DPS 使用的近似条件分布的启发,定义了一系列中间分布。通过退火 MCMC 采样,我们鼓励样本在转向噪声水平较低的下一个分布之前,更紧密地跟随每个中间分布,从而减少沿路径的累积误差。我们测试了我们的算法,包括超分辨率、高斯去模糊、运动去模糊、内绘制和相位检索等各种逆问题。在几乎所有任务中,我们的算法都以较少的评估次数超越了 DPS,在现有方法中具有很强的竞争力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Think Twice Before You Act: Improving Inverse Problem Solving With MCMC
Recent studies demonstrate that diffusion models can serve as a strong prior for solving inverse problems. A prominent example is Diffusion Posterior Sampling (DPS), which approximates the posterior distribution of data given the measure using Tweedie's formula. Despite the merits of being versatile in solving various inverse problems without re-training, the performance of DPS is hindered by the fact that this posterior approximation can be inaccurate especially for high noise levels. Therefore, we propose \textbf{D}iffusion \textbf{P}osterior \textbf{MC}MC (\textbf{DPMC}), a novel inference algorithm based on Annealed MCMC to solve inverse problems with pretrained diffusion models. We define a series of intermediate distributions inspired by the approximated conditional distributions used by DPS. Through annealed MCMC sampling, we encourage the samples to follow each intermediate distribution more closely before moving to the next distribution at a lower noise level, and therefore reduce the accumulated error along the path. We test our algorithm in various inverse problems, including super resolution, Gaussian deblurring, motion deblurring, inpainting, and phase retrieval. Our algorithm outperforms DPS with less number of evaluations across nearly all tasks, and is competitive among existing approaches.
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