Few Shot Learning For Infra-Red Object Recognition Using Analytically Designed Low Level Filters For Data Representation

• Published in: 2021 IEEE International Conference on Image Processing (ICIP) pp. 1079 - 1083
• Main Authors: Arif, Maliha, Mahalanobis, Abhijit
• Format: Conference Proceeding
• Language: English
• Published: IEEE 19.09.2021
• Subjects: Conferences; eigen representation; few shot learning; Image processing; infra-red datasets; manifold; Manifolds; Object recognition; sparse learning; Training; Training data; Transfer learning
• ISSN: 2381-8549
• DOI: 10.1109/ICIP42928.2021.9506246

It is well known that deep convolutional neural networks (CNNs) generalize well over large number of classes when ample training data is available. However, training with smaller datasets does not always achieve robust performance. In such cases, we show that using analytically derived filters in the lowest layer enables a network to achieve better performance than learning from scratch using a relatively small dataset. These class-agnostic filters represent the underlying manifold of the data space, and also generalize to new or unknown classes which may occur on the same manifold. This directly enables new classes to be learned with very few images by simply fine-tuning the final few layers of the network. We illustrate the advantages of our method using the publicly available set of infra-red images of vehicular ground targets. We compare a simple CNN trained using our method with transfer learning performed using the VGG-16 network, and show that when the number of training images is limited, the proposed approach not only achieves better results on the trained classes, but also outperforms a standard network for learning a new object class.