1 research outputs found
Learning to Convolve: A Generalized Weight-Tying Approach
Recent work (Cohen & Welling, 2016) has shown that generalizations of
convolutions, based on group theory, provide powerful inductive biases for
learning. In these generalizations, filters are not only translated but can
also be rotated, flipped, etc. However, coming up with exact models of how to
rotate a 3 x 3 filter on a square pixel-grid is difficult. In this paper, we
learn how to transform filters for use in the group convolution, focussing on
roto-translation. For this, we learn a filter basis and all rotated versions of
that filter basis. Filters are then encoded by a set of rotation invariant
coefficients. To rotate a filter, we switch the basis. We demonstrate we can
produce feature maps with low sensitivity to input rotations, while achieving
high performance on MNIST and CIFAR-10.Comment: Accepted to ICML 201