Deconfounded hierarchical multi-granularity classification

Hierarchical multi-granularity classification (HMC) assigns labels at varying levels of detail to images using a structured hierarchy that categorizes labels from coarse to fine, such as [“Suliformes”, “Fregatidae”, “Frigatebird”]. Traditional HMC methods typically integrate hierarchical label information into either the model’s architecture or its loss function. However, these approaches often overlook the spurious correlations between coarse-level semantic information and fine-grained labels, which can lead models to rely on these non-causal relationships for making predictions. In this paper, we adopt a causal perspective to address the challenges in HMC, demonstrating how coarse-grained semantics can serve as confounders in fine-grained classification. To comprehensively mitigate confounding bias in HMC, we introduce a novel framework, Deconf-HMC, which consists of three main components: (1) a causal-inspired label prediction module that combines fine-level features with coarse-level prediction outcomes to determine the appropriate labels at each hierarchical level; (2) a representation disentanglement module that minimizes the mutual information between representations of different granularities; and (3) an adversarial training module that restricts the predictive influence of coarse-level representations on fine-level labels, thereby aiming to eliminate confounding bias. Extensive experiments on three widely used datasets demonstrate the superiority of our approach over existing state-of-the-art HMC methods.