TASK-DRIVEN DEEP TRANSFER LEARNING FOR IMAGE CLASSIFICATION

Transfer learning tends to be a powerful tool that can mitigate the divergence across different domains through knowledge transfer. Recent research efforts on transfer learning have exploited deep neural network (NN) structures for discriminative feature representation to better tackle cross-domain disparity. However, few of these techniques are able to jointly learn deep features and train a classifier in a unified transfer learning framework. To this end, we design a task-driven deep transfer learning framework for image classification, where the deep feature and classifier are obtained simultaneously for optimal classification performance. Therefore, the proposed deep structure can generate more discriminative features by using the classifier performance as a guide. Furthermore, the classifier performance is increased since it is optimized on a more discriminative deep feature. The developed supervised formulation is a task-driven scheme, which will provide better learned features for the classification task. By giving pseudo labels for target data, we can facilitate the knowledge transfer from source to target through the deep structures. Experimental results witness the superiority of our proposed algorithm by comparing with other ones.