CZL-CIAE: CLIP-driven Zero-shot Learning for Correcting Inverse Age Estimation

Zero-shot age estimation aims to learn feature information about age from input images and make inferences about a given person's image or video frame without specific sample data. The development of zero-shot age estimation can improve the efficiency and accuracy of various applications (e.g., age verification and secure access control, etc.), while also promoting research on multi-modal and zero-shot learning in the social media field. For example, zero-sample age estimation can be used to create social networks focused on specific age groups. However, existing methods mainly focus on supervised, labeled age estimation learning, and the prediction effect of zero-shot learning is very poor. To tackle the above issues, we propose a novel CLIP-driven Zero-shot Learning for Correcting Inverse Age Estimation (CZL-CIAE). Specifically, we first introduce the CLIP model to extract image features and text semantic information respectively, and map them into a highly semantically aligned high-dimensional feature space. Next, we designed a new Transformer architecture (i.e., FourierFormer) to achieve channel evolution and spatial interaction of images, and to fuse image and text semantic information. Finally, we introduce reversible age estimation, which uses end-to-end error feedback to reduce the error rate of age predictions. Through extensive experiments on multiple data sets, CZL-CIAE has achieved better age prediction results.