Cross-modal Zero-shot Hashing by Label Attributes Embedding
This work addresses a practical limitation in cross-modal retrieval for scenarios where training and testing labels differ, offering a solution for applications like multimedia search.
The paper tackles the zero-shot cross-modal hashing problem by introducing LAEH, which embeds label attributes to bridge the gap between isolated attributes and multi-modal data features, resulting in improved performance over existing methods.
Cross-modal hashing (CMH) is one of the most promising methods in cross-modal approximate nearest neighbor search. Most CMH solutions ideally assume the labels of training and testing set are identical. However, the assumption is often violated, causing a zero-shot CMH problem. Recent efforts to address this issue focus on transferring knowledge from the seen classes to the unseen ones using label attributes. However, the attributes are isolated from the features of multi-modal data. To reduce the information gap, we introduce an approach called LAEH (Label Attributes Embedding for zero-shot cross-modal Hashing). LAEH first gets the initial semantic attribute vectors of labels by word2vec model and then uses a transformation network to transform them into a common subspace. Next, it leverages the hash vectors and the feature similarity matrix to guide the feature extraction network of different modalities. At the same time, LAEH uses the attribute similarity as the supplement of label similarity to rectify the label embedding and common subspace. Experiments show that LAEH outperforms related representative zero-shot and cross-modal hashing methods.