🍩 Database of Original & Non-Theoretical Uses of Topology

1. Classifying RGB Images With Multi-Colour Persistent Homology (2019)

   Wolf Byttner

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   • Image classification
   • RGB images
   • Images
   • Persistent homology

2. Topological Regularization for Dense Prediction (2021)

   Deqing Fu, Bradley J. Nelson

   Abstract

   Dense prediction tasks such as depth perception and semantic segmentation are important applications in computer vision that have a concrete topological description in terms of partitioning an image into connected components or estimating a function with a small number of local extrema corresponding to objects in the image. We develop a form of topological regularization based on persistent homology that can be used in dense prediction tasks with these topological descriptions. Experimental results show that the output topology can also appear in the internal activations of trained neural networks which allows for a novel use of topological regularization to the internal states of neural networks during training, reducing the computational cost of the regularization. We demonstrate that this topological regularization of internal activations leads to improved convergence and test benchmarks on several problems and architectures.

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   • Machine learning
   • Pattern recognition
   • computer vision
   • computer vision:dense prediction
   • computer vision:dense prediction:semantic segmentation & depth estimation
   • images
   • images:2D
   • images:2D: RGB images for segmentation/depth tasks
   • Innovate
   • Convolutional neural network
   • Persistent homology
   • Persistent homology:sublebel set filtration
   • topological regularization

3. RGB Image-Based Data Analysis via Discrete Morse Theory and Persistent Homology (2018)

   Chuan Du, Christopher Szul, Adarsh Manawa, Nima Rasekh, Rosemary Guzman, Ruth Davidson

   Abstract

   Understanding and comparing images for the purposes of data analysis is currently a very computationally demanding task. A group at Australian National University (ANU) recently developed open-source code that can detect fundamental topological features of a grayscale image in a computationally feasible manner. This is made possible by the fact that computers store grayscale images as cubical cellular complexes. These complexes can be studied using the techniques of discrete Morse theory. We expand the functionality of the ANU code by introducing methods and software for analyzing images encoded in red, green, and blue (RGB), because this image encoding is very popular for publicly available data. Our methods allow the extraction of key topological information from RGB images via informative persistence diagrams by introducing novel methods for transforming RGB-to-grayscale. This paradigm allows us to perform data analysis directly on RGB images representing water scarcity variability as well as crime variability. We introduce software enabling a a user to predict future image properties, towards the eventual aim of more rapid image-based data behavior prediction.

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   • Image analysis
   • RGB images
   • Images
   • images
   • images:2d
   • Discrete Morse theory
   • Persistent homology