Scale equivariance in CNNs with vector fields

D. Marcos Gonzalez; B.A. Kellenberger; Sylvain Lobry; D. Tuia

Scale equivariance in CNNs with vector fields

D. Marcos Gonzalez
, B.A. Kellenberger
, Sylvain Lobry
, D. Tuia

Research output: Contribution to conference › Conference paper › Academic

Abstract

We study the effect of injecting local scale equivariance into Convolutional Neural Networks. This is done by applying each convolutional filter at multiple scales. The output is a vector field encoding for the maximally activating scale and the scale itself, which is further processed by the following convolutional layers. This allows all the intermediate representations to be locally scale equivariant. We show that this improves the performance of the model by over 20% in the scale equivariant task of regressing the scaling factor applied to randomly scaled MNIST digits. Furthermore, we find it also useful for scale invariant tasks, such as the actual classification of randomly scaled digits. This highlights the usefulness of allowing for a compact representation that can also learn relationships between different local scales by keeping internal scale equivariance.

Original language	English
Number of pages	5
Publication status	Published - 31 Jul 2018
Event	FAIM/ICML Workshop on Towards learning with limited labels: Equivariance, Invariance, and Beyond - Stockholm, Sweden Duration: 13 Jul 2018 → 13 Jul 2018

Conference/symposium

Conference/symposium	FAIM/ICML Workshop on Towards learning with limited labels: Equivariance, Invariance, and Beyond
Country/Territory	Sweden
City	Stockholm
Period	13/07/18 → 13/07/18

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https://arxiv.org/abs/1807.11783

Cite this

@conference{ca5fcffce5dd4ce99e62299841019f96,

title = "Scale equivariance in CNNs with vector fields",

abstract = "We study the effect of injecting local scale equivariance into Convolutional Neural Networks. This is done by applying each convolutional filter at multiple scales. The output is a vector field encoding for the maximally activating scale and the scale itself, which is further processed by the following convolutional layers. This allows all the intermediate representations to be locally scale equivariant. We show that this improves the performance of the model by over 20\% in the scale equivariant task of regressing the scaling factor applied to randomly scaled MNIST digits. Furthermore, we find it also useful for scale invariant tasks, such as the actual classification of randomly scaled digits. This highlights the usefulness of allowing for a compact representation that can also learn relationships between different local scales by keeping internal scale equivariance.",

author = "\{Marcos Gonzalez\}, D. and B.A. Kellenberger and Sylvain Lobry and D. Tuia",

year = "2018",

month = jul,

day = "31",

language = "English",

note = "FAIM/ICML Workshop on Towards learning with limited labels:<br/>Equivariance, Invariance, and Beyond ; Conference date: 13-07-2018 Through 13-07-2018",

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TY - CONF

T1 - Scale equivariance in CNNs with vector fields

AU - Marcos Gonzalez, D.

AU - Kellenberger, B.A.

AU - Lobry, Sylvain

AU - Tuia, D.

PY - 2018/7/31

Y1 - 2018/7/31

N2 - We study the effect of injecting local scale equivariance into Convolutional Neural Networks. This is done by applying each convolutional filter at multiple scales. The output is a vector field encoding for the maximally activating scale and the scale itself, which is further processed by the following convolutional layers. This allows all the intermediate representations to be locally scale equivariant. We show that this improves the performance of the model by over 20% in the scale equivariant task of regressing the scaling factor applied to randomly scaled MNIST digits. Furthermore, we find it also useful for scale invariant tasks, such as the actual classification of randomly scaled digits. This highlights the usefulness of allowing for a compact representation that can also learn relationships between different local scales by keeping internal scale equivariance.

AB - We study the effect of injecting local scale equivariance into Convolutional Neural Networks. This is done by applying each convolutional filter at multiple scales. The output is a vector field encoding for the maximally activating scale and the scale itself, which is further processed by the following convolutional layers. This allows all the intermediate representations to be locally scale equivariant. We show that this improves the performance of the model by over 20% in the scale equivariant task of regressing the scaling factor applied to randomly scaled MNIST digits. Furthermore, we find it also useful for scale invariant tasks, such as the actual classification of randomly scaled digits. This highlights the usefulness of allowing for a compact representation that can also learn relationships between different local scales by keeping internal scale equivariance.

M3 - Conference paper

T2 - FAIM/ICML Workshop on Towards learning with limited labels:<br/>Equivariance, Invariance, and Beyond

Y2 - 13 July 2018 through 13 July 2018

ER -

Scale equivariance in CNNs with vector fields

Abstract

Conference/symposium

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Cite this