Pedestrian attribute recognition has been an emerging research topic in the area of video surveillance. To predict the existence of a particular attribute, it is demanded to localize the regions related to the attribute. However, in this task, the region annotations are not available. How to carve out these attribute-related regions remains challenging. Existing methods applied attribute-agnostic visual attention or heuristic body-part localization mechanisms to enhance the local feature representations, while neglecting to employ attributes to define local feature areas. We propose a flexible Attribute Localization Module (ALM) to adaptively discover the most discriminative regions and learns the regional features for each attribute at multiple levels. Moreover, a feature pyramid architecture is also introduced to enhance the attribute-specific localization at low-levels with high-level semantic guidance. The proposed framework does not require additional region annotations and can be trained end-to-end with multi-level deep supervision. Extensive experiments show that the proposed method achieves state-of-the-art results on three pedestrian attribute datasets, including PETA, RAP, and PA-100K.
In this paper, we present a novel protocol of annotation and evaluation for visual recognition. Different from traditional settings, the protocol does not require the labeler/algorithm to annotate/recognize all targets (objects, parts, etc.) at once, but instead raises a number of recognition instructions and the algorithm recognizes targets by request. This mechanism brings two beneficial properties to reduce the burden of annotation, namely, (i) variable granularity: different scenarios can have different levels of annotation, in particular, object parts can be labeled only in large and clear instances, (ii) being open-domain: new concepts can be added to the database in minimal costs. To deal with the proposed setting, we maintain a knowledge base and design a query-based visual recognition framework that constructs queries on-the-fly based on the requests. We evaluate the recognition system on two mixed-annotated datasets, CPP and ADE20K, and demonstrate its promising ability of learning from partially labeled data as well as adapting to new concepts with only text labels.Preprint. Under review.
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