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[ARTICLE · art-33437] src=arxiv.org ↗ pub= topic=computer-vision verified=true sentiment=↑ positive

Neural Phase Correlation

Researchers introduced a learned generalization of phase correlation that lifts the restriction of fixed basis, enabling direct measurement of inter-image relationships in the Fourier domain for dense non-rigid deformations and unitary dynamics. The framework matched or exceeded prior baselines on ACDC cardiac-MRI and CAMUS echocardiography benchmarks, and recovered eigenstates and energy levels of the 1-D quantum harmonic oscillator from observation pairs alone.

read1 min views17 publishedJun 18, 2026

arXiv:2606.18496v1 Announce Type: new Abstract: Correspondence is fundamentally relational: it seeks the unknown transformation between two observations of a common scene, not the content of either. Yet the dominant learning-based methods do not represent the transformation as a first-class object in the architecture. They encode each image independently and let a learned similarity function or a deep decoder discover the mapping implicitly. Phase correlation is the canonical exception, measuring the inter-image relationship directly in the Fourier domain, but the rigidity of its fixed basis confines it to global translation. We introduce a learned generalization of phase correlation that lifts this restriction by learning the basis on which the transformation decomposes. The same algebraic primitive extends to dense non-rigid deformations and to unitary dynamics. On the ACDC cardiac-MRI benchmark the framework matches or exceeds prior published baselines on both registration directions. On CAMUS echocardiography it matches state-of-the-art without auxiliary scoring or adaptive-smoothness mechanisms. Applied to time-evolved wavefunction pairs of the 1-D quantum harmonic oscillator, the same framework recovers the Hermite-function eigenstates and the quantized energy levels of the unknown Hamiltonian from observation pairs alone.

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