Exploring attribute localization and correlation for pedestrian attribute recognition.

Pedestrian Attribute Recognition (PAR) is currently an emerging research topic in the field of video surveillance. For PAR, it usually needs to analyze dozens of attributes simultaneously, e.g., age, gender and Clothing type. However, different attributes may focus on different image regions, which makes it difficult to concurrently extract exhaustive features over all attributes. Moreover, some of these attributes are highly correlated, which is the other challenge for pedestrian attribute recognition. To remedy the aforementioned two issues, we propose two novel modules, namely Attribute Localization Module (ALM) and Attribute Correlation Module (ACM). For ALM, it is constructed based on a multi-stream architecture with each stream processing a specific attribute individually. More specifically, an attention mechanism is employed to discover and enhance the attribute-related features while suppressing less important regions. For ACM, the Transformer structure is employed to effectively explore the correlations among different attributes. In particular, we place the Transformer blocks behind the ALM module, with regarding each attribute-specific feature as an input token. The ALM and ACM modules focus on different aspects, which exploits the interrelated and complementary information. We combine the proposed modules to form a unified network with Exploring Attribute Localization and Correlation (abbreviated as EALC). Our approach is validated on five large-scale pedestrian attribute datasets, including PETA, RAP, PA-100 K, Market-1501 and Duke attribute datasets. Experiments demonstrate the effectiveness and advancement of the proposed EALC. [ABSTRACT FROM AUTHOR]