Rotation invariance has been studied in the computer vision community
primarily in the context of small in-plane rotations. This is usually achieved
by building invariant image features. However, the problem of achieving
invariance for large rotation angles remains largely unexplored. In this work,
we tackle this problem by directly compensating for large rotations, as opposed
to building invariant features. This is inspired by the neuro-scientific
concept of mental rotation, which humans use to compare pairs of rotated
objects. Our contributions here are three-fold. First, we train a Convolutional
Neural Network (CNN) to detect image rotations. We find that generic CNN
architectures are not suitable for this purpose. To this end, we introduce a
convolutional template layer, which learns representations for canonical
'unrotated' images. Second, we use Bayesian Optimization to quickly sift
through a large number of candidate images to find the canonical 'unrotated'
image. Third, we use this method to achieve robustness to large angles in an
image retrieval scenario. Our method is task-agnostic, and can be used as a
pre-processing step in any computer vision system.Comment: Accepted at Indian Conference on Computer Vision, Graphics and Image
Processing (ICVGIP) 201
