A Stable Multi-Scale Kernel for Topological Machine Learning

Jan Reininghaus; Stefan Huber; Ulrich Bauer; Roland Kwitt

2015 CVPR CVPR 2015

A Stable Multi-Scale Kernel for Topological Machine Learning

Abstract

Topological data analysis offers a rich source of valuable information to study vision problems. Yet, so far we lack a theoretically sound connection to popular kernel-based learning techniques, such as kernel SVMs or kernel PCA. In this work, we establish such a connection by designing a multi-scale kernel for persistence diagrams, a stable summary representation of topological features in data. We show that this kernel is positive definite and prove its stability with respect to the 1-Wasserstein distance. Experiments on two benchmark datasets for 3D shape classification/retrieval and texture recognition show considerable performance gains of the proposed method compared to an alternative approach that is based on the recently introduced persistence landscapes.

🌉 Interdisciplinary Bridge — Deep Learning and Machine Learning and Mathematics & Optimization

📈 Trend Setter — Theory

🐣 Hot Topic Early Bird — wasserstein distance

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Jan Reininghaus , Stefan Huber , Ulrich Bauer , Roland Kwitt

Topics

Mathematics & Optimization > Mathematics > Statistics Machine Learning > Core Methods > Kernel Methods Deep Learning > Optimization & Theory > Theory Mathematics & Optimization > Optimization > Kernel Methods

Keywords

wasserstein distance topological data analysis kernel pca persistence diagram kernel methods kernel svm

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