CSCNET: Class-Specified Cascaded Network for Compositional Zero-Shot Learning

Yanyi Zhang, Qi Jia, Xin Fan, Yu Liu, Ran He
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Abstract

Attribute and object (A-O) disentanglement is a fundamental and critical problem for Compositional Zero-shot Learning (CZSL), whose aim is to recognize novel A-O compositions based on foregone knowledge. Existing methods based on disentangled representation learning lose sight of the contextual dependency between the A-O primitive pairs. Inspired by this, we propose a novel A-O disentangled framework for CZSL, namely Class-specified Cascaded Network (CSCNet). The key insight is to firstly classify one primitive and then specifies the predicted class as a priori for guiding another primitive recognition in a cascaded fashion. To this end, CSCNet constructs Attribute-to-Object and Object-to-Attribute cascaded branches, in addition to a composition branch modeling the two primitives as a whole. Notably, we devise a parametric classifier (ParamCls) to improve the matching between visual and semantic embeddings. By improving the A-O disentanglement, our framework achieves superior results than previous competitive methods.
CSCNET:用于合成零点学习的分类指定级联网络
属性与对象(A-O)分离是组合零点学习(CZSL)的一个基本而关键的问题,其目的是根据已有知识识别新的 A-O 组合。现有的基于解缠表示学习的方法忽略了 A-O 原始对之间的上下文依赖关系。受此启发,我们为 CZSL 提出了一个新颖的 A-O 分解框架,即分类指定级联网络(CSCNet)。其关键在于首先对一个基元进行分类,然后将预测的类别作为先验类别,以级联方式指导另一个基元的识别。为此,CSCNet 构建了 "属性到对象 "和 "对象到属性 "的级联分支,此外还有一个将两个基元作为整体建模的组合分支。值得注意的是,我们设计了一个参数分类器(ParamCls)来改进视觉嵌入和语义嵌入之间的匹配。通过改进 A-O 解缠,我们的框架取得了优于以往竞争方法的结果。
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