Learning Unseen Concepts via Hierarchical Decomposition and Composition

Muli Yang, Cheng Deng, Junchi Yan, Xianglong Liu, D. Tao
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引用次数: 45

Abstract

Composing and recognizing new concepts from known sub-concepts has been a fundamental and challenging vision task, mainly due to 1) the diversity of sub-concepts and 2) the intricate contextuality between sub-concepts and their corresponding visual features. However, most of the current methods simply treat the contextuality as rigid semantic relationships and fail to capture fine-grained contextual correlations. We propose to learn unseen concepts in a hierarchical decomposition-and-composition manner. Considering the diversity of sub-concepts, our method decomposes each seen image into visual elements according to its labels, and learns corresponding sub-concepts in their individual subspaces. To model intricate contextuality between sub-concepts and their visual features, compositions are generated from these subspaces in three hierarchical forms, and the composed concepts are learned in a unified composition space. To further refine the captured contextual relationships, adaptively semi-positive concepts are defined and then learned with pseudo supervision exploited from the generated compositions. We validate the proposed approach on two challenging benchmarks, and demonstrate its superiority over state-of-the-art approaches.
通过层次分解和组合学习看不见的概念
从已知子概念中组合和识别新概念一直是一项基本且具有挑战性的视觉任务,主要原因是:(1)子概念的多样性;(2)子概念及其相应视觉特征之间复杂的上下文关系。然而,当前的大多数方法只是将上下文视为严格的语义关系,无法捕获细粒度的上下文相关性。我们建议以分层分解和组合的方式学习看不见的概念。考虑到子概念的多样性,我们的方法将每个看到的图像根据其标签分解为视觉元素,并在其各自的子空间中学习相应的子概念。为了模拟子概念及其视觉特征之间复杂的上下文关系,从这些子空间中以三种层次形式生成组合,并在统一的组合空间中学习组合概念。为了进一步细化捕获的上下文关系,我们定义了自适应的半肯定概念,然后利用生成的组合进行伪监督学习。我们在两个具有挑战性的基准上验证了所提出的方法,并证明了其优于最先进的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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