Uncertainty-Aware Decomposed Hybrid Networks
This work addresses robustness issues in image recognition for data-constrained applications, but it appears incremental as it builds on existing hybrid methods.
The paper tackles the challenge of robustness in image recognition by proposing a hybrid approach that combines neural networks with domain-specific operators, resulting in improved performance in low-data regimes, as demonstrated in traffic sign detection experiments.
The robustness of image recognition algorithms remains a critical challenge, as current models often depend on large quantities of labeled data. In this paper, we propose a hybrid approach that combines the adaptability of neural networks with the interpretability, transparency, and robustness of domain-specific quasi-invariant operators. Our method decomposes the recognition into multiple task-specific operators that focus on different characteristics, supported by a novel confidence measurement tailored to these operators. This measurement enables the network to prioritize reliable features and accounts for noise. We argue that our design enhances transparency and robustness, leading to improved performance, particularly in low-data regimes. Experimental results in traffic sign detection highlight the effectiveness of the proposed method, especially in semi-supervised and unsupervised scenarios, underscoring its potential for data-constrained applications.