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ELASTIC: Improving CNNs with Dynamic Scaling Policies
Scale variation has been a challenge from traditional to modern approaches in
computer vision. Most solutions to scale issues have a similar theme: a set of
intuitive and manually designed policies that are generic and fixed (e.g. SIFT
or feature pyramid). We argue that the scaling policy should be learned from
data. In this paper, we introduce ELASTIC, a simple, efficient and yet very
effective approach to learn a dynamic scale policy from data. We formulate the
scaling policy as a non-linear function inside the network's structure that (a)
is learned from data, (b) is instance specific, (c) does not add extra
computation, and (d) can be applied on any network architecture. We applied
ELASTIC to several state-of-the-art network architectures and showed consistent
improvement without extra (sometimes even lower) computation on ImageNet
classification, MSCOCO multi-label classification, and PASCAL VOC semantic
segmentation. Our results show major improvement for images with scale
challenges. Our code is available here: https://github.com/allenai/elasticComment: CVPR 2019 oral, code available https://github.com/allenai/elasti
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