Archivio Istituzionale della RicercaIn computer vision, keypoint detection is a fundamental task, with applications spanning from robotics to image retrieval; however, existing learning-based methods suffer from scale dependency, and lack flexibility. This paper introduces a novel approach that leverages Morse theory and persistent homology, powerful tools rooted in algebraic topology. We propose a novel loss function based on the recent introduction of a notion of subgradient in persistent homology, paving the way towards topological learning. Our detector, MorseDet, is the first topology-based learning model for feature detection, which achieves competitive performance in keypoint repeatability and introduces a principled and theoretically robust approach to the problem.
Scale-Free Image Keypoints Using Differentiable Persistent Homology / Barbarani, Giovanni; Vaccarino, Francesco; Trivigno, Gabriele; Guerra, Marco; Berton, Gabriele; Masone, Carlo. - ELETTRONICO. - 235:(2024), pp. 2990-3002. (Intervento presentato al convegno 41st International Conference on Machine Learning tenutosi a Vienna (AUT) nel 21-27 July 2024).
Scale-Free Image Keypoints Using Differentiable Persistent Homology
Giovanni Barbarani;Francesco Vaccarino;Gabriele Trivigno;Marco Guerra;Gabriele Berton;Carlo Masone
2024
Abstract
In computer vision, keypoint detection is a fundamental task, with applications spanning from robotics to image retrieval; however, existing learning-based methods suffer from scale dependency, and lack flexibility. This paper introduces a novel approach that leverages Morse theory and persistent homology, powerful tools rooted in algebraic topology. We propose a novel loss function based on the recent introduction of a notion of subgradient in persistent homology, paving the way towards topological learning. Our detector, MorseDet, is the first topology-based learning model for feature detection, which achieves competitive performance in keypoint repeatability and introduces a principled and theoretically robust approach to the problem.
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topology_keypoints.pdf
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https://hdl.handle.net/11583/2989658