DAPS++: Rethinking Diffusion Inverse Problems with Decoupled Posterior Annealing

November 21, 2025 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Hao Chen, Renzheng Zhang, Scott S. Howard arXiv ID 2511.17038 Category cs.AI: Artificial Intelligence Cross-listed stat.ML Citations 0 Venue arXiv.org Last Checked 4 months ago
Abstract
From a Bayesian perspective, score-based diffusion solves inverse problems through joint inference, embedding the likelihood with the prior to guide the sampling process. However, this formulation fails to explain its practical behavior: the prior offers limited guidance, while reconstruction is largely driven by the measurement-consistency term, leading to an inference process that is effectively decoupled from the diffusion dynamics. To clarify this structure, we reinterpret the role of diffusion in inverse problem solving as an initialization stage within an expectation--maximization (EM)--style framework, where the diffusion stage and the data-driven refinement are fully decoupled. We introduce \textbf{DAPS++}, which allows the likelihood term to guide inference more directly while maintaining numerical stability and providing insight into why unified diffusion trajectories remain effective in practice. By requiring fewer function evaluations (NFEs) and measurement-optimization steps, \textbf{DAPS++} achieves high computational efficiency and robust reconstruction performance across diverse image restoration tasks.
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