AD-Aligning: Emulating Human-like Generalization for Cognitive Domain Adaptation in Deep Learning
This work addresses domain adaptation for deep learning models, offering a solution for real-world applications requiring robustness to domain shifts, but it appears incremental as it builds on existing adversarial and alignment techniques.
The paper tackles the problem of domain adaptation in deep learning by introducing AD-Aligning, which combines adversarial training and domain alignment to enhance generalization, achieving superior performance over methods like Deep Coral and ADDA in experiments on diverse datasets and domain shift scenarios.
Domain adaptation is pivotal for enabling deep learning models to generalize across diverse domains, a task complicated by variations in presentation and cognitive nuances. In this paper, we introduce AD-Aligning, a novel approach that combines adversarial training with source-target domain alignment to enhance generalization capabilities. By pretraining with Coral loss and standard loss, AD-Aligning aligns target domain statistics with those of the pretrained encoder, preserving robustness while accommodating domain shifts. Through extensive experiments on diverse datasets and domain shift scenarios, including noise-induced shifts and cognitive domain adaptation tasks, we demonstrate AD-Aligning's superior performance compared to existing methods such as Deep Coral and ADDA. Our findings highlight AD-Aligning's ability to emulate the nuanced cognitive processes inherent in human perception, making it a promising solution for real-world applications requiring adaptable and robust domain adaptation strategies.