Holographic Neural Architectures

Abstract

Representation learning is at the heart of what makes deep learning effective. In this work, we introduce a new framework for representation learning that we call Holographic Neural Architectures (HNAs). In the same way that an observer can experience the 3D structure of a holographed object by looking at its hologram from several angles, HNAs derive Holographic Representations from the training set. These representations can then be explored by moving along a continuous bounded single dimension. We show that HNAs can be used to make generative networks, state-of-the-art regression models and that they are inherently highly resistant to noise. Finally, we argue that because of their denoising abilities and their capacity to generalize well from very few examples, models based upon HNAs are particularly well suited for biological applications where training examples are rare or noisy.,

Tariq Daouda
Tariq Daouda
Étudiant au doctorat en bio-informatique (2011-2018 avec Claude Perrault, IRIC)
Jérémie Zumer
Jérémie Zumer
PhD student in Computer Science

Doctoral student in Computer Science | Improving peptide mass spectrometry using deep learning

Sébastien Lemieux
Sébastien Lemieux
Principal Investigator

Principal Investigator, Functional and Structural Bioinformatics Research Unit, IRIC | Scientific direction of the Bioinformatics platform | Associate Professor, Department of Biochemistry and Molecular Medicine, Université de Montréal