ConvMix: Combining Intermediate Latent Features in Deep Convolutional Neural Networks

In traditional deep learning models, latent features to the downstream task are received only from the terminal layer of the feature extractor. The intermediate layers of a feature extractor contain significant spatially salient information which, when pooled by the interleaved pooling operations, is lost. These intermediate latent embeddings can improve the overall performance for vision tasks when leveraged properly. Recently, more complex combination schemes leveraging the intermediate embeddings directly for the downstream task have been proposed, but often require additional hyperparameters, increasing their computational cost and have limited generalizability between datasets. In this paper, we propose, ConvMix, a novel, learned combination scheme for intermediate latent features of a deep convolutional neural network which can be trained without incurring additional training cost and can be readily transferred between datasets. ConvMix leverages features at multiple stages of a CNN to distill spatial information in images, and create a richer embedding for the downstream task. Giving the network a ‘wider view’ by leveraging multi-level spatially pooled features of the image enables better regularization by preventing learning specific indentifying features but rather focusing on the wider image itself. We visually confirm this ‘wider view’ via GradCam and show that ConvMix ensure that spatially salient features are prioritized in the latent embeddings. In our experiments on CIFAR10-100, CINIC10, STL10, SVHN and TinyImageNet datasets, we show that our approach not only achieves better performance compared to state-of-the-art approaches but more importantly the percentage gain in performance scales with the increase in model/problem complexity due to the internal regularization effect of ConvMix.