Related papers: Deep Diffusion Image Prior for Efficient OOD Adaptation in 3D Inverse Problems

Deep Diffusion Image Prior for Efficient OOD Adaptation in 3D Inverse Problems

URL: http://arxiv.org/abs/2407.10641v1
Date: Mon, 15 Jul 2024 12:00:46 GMT
Title: Deep Diffusion Image Prior for Efficient OOD Adaptation in 3D Inverse Problems
Authors: Hyungjin Chung, Jong Chul Ye,
Abstract summary: We propose DDIP, which generalizes the recent adaptation method of SCD by introducing a formal connection to the deep image prior. Under this framework, we propose an efficient adaptation method dubbed D3IP, specified for 3D measurements, which accelerates DDIP by orders of magnitude. We show that our method is capable of solving diverse 3D reconstructive tasks from the generative prior trained only with phantom images that are vastly different from the training set.
Score: 61.85478918618346
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Recent inverse problem solvers that leverage generative diffusion priors have garnered significant attention due to their exceptional quality. However, adaptation of the prior is necessary when there exists a discrepancy between the training and testing distributions. In this work, we propose deep diffusion image prior (DDIP), which generalizes the recent adaptation method of SCD by introducing a formal connection to the deep image prior. Under this framework, we propose an efficient adaptation method dubbed D3IP, specified for 3D measurements, which accelerates DDIP by orders of magnitude while achieving superior performance. D3IP enables seamless integration of 3D inverse solvers and thus leads to coherent 3D reconstruction. Moreover, we show that meta-learning techniques can also be applied to yield even better performance. We show that our method is capable of solving diverse 3D reconstructive tasks from the generative prior trained only with phantom images that are vastly different from the training set, opening up new opportunities of applying diffusion inverse solvers even when training with gold standard data is impossible. Code: https://github.com/HJ-harry/DDIP3D

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