When approaching a novel visual recognition problem in a specialized image
domain, a common strategy is to start with a pre-trained deep neural network
and fine-tune it to the specialized domain. If the target domain covers a
smaller visual space than the source domain used for pre-training (e.g.
ImageNet), the fine-tuned network is likely to be over-parameterized. However,
applying network pruning as a post-processing step to reduce the memory
requirements has drawbacks: fine-tuning and pruning are performed
independently; pruning parameters are set once and cannot adapt over time; and
the highly parameterized nature of state-of-the-art pruning methods make it
prohibitive to manually search the pruning parameter space for deep networks,
leading to coarse approximations. We propose a principled method for jointly
fine-tuning and compressing a pre-trained convolutional network that overcomes
these limitations. Experiments on two specialized image domains (remote sensing
images and describable textures) demonstrate the validity of the proposed
approach.Comment: BMVC 2017 ora