Beyond One-Hot-Encoding: Injecting Semantics to Drive Image Classifiers
This addresses the issue of semantic ignorance in classifiers for computer vision practitioners, but it is incremental as it builds on existing loss function modifications.
The paper tackles the problem of one-hot-encoded labels in image classification ignoring semantic similarities between classes, proposing a method to integrate semantic knowledge into the loss function. It results in improved model interpretability and trade-offs in accuracy and mistake severity, though specific numerical gains are not detailed.
Images are loaded with semantic information that pertains to real-world ontologies: dog breeds share mammalian similarities, food pictures are often depicted in domestic environments, and so on. However, when training machine learning models for image classification, the relative similarities amongst object classes are commonly paired with one-hot-encoded labels. According to this logic, if an image is labelled as 'spoon', then 'tea-spoon' and 'shark' are equally wrong in terms of training loss. To overcome this limitation, we explore the integration of additional goals that reflect ontological and semantic knowledge, improving model interpretability and trustworthiness. We suggest a generic approach that allows to derive an additional loss term starting from any kind of semantic information about the classification label. First, we show how to apply our approach to ontologies and word embeddings, and discuss how the resulting information can drive a supervised learning process. Second, we use our semantically enriched loss to train image classifiers, and analyse the trade-offs between accuracy, mistake severity, and learned internal representations. Finally, we discuss how this approach can be further exploited in terms of explainability and adversarial robustness. Code repository: https://github.com/S1M0N38/semantic-encodings