Multiple Structured-Instance Learning for Semantic Segmentation with Uncertain Training Data

2014 IEEE Conference on Computer Vision and Pattern Recognition Pub Date : 2014-06-23 DOI:10.1109/CVPR.2014.53

Feng-Ju Chang, Yen-Yu Lin, Kuang-Jui Hsu

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引用次数: 28

Abstract

We present an approach MSIL-CRF that incorporates multiple instance learning (MIL) into conditional random fields (CRFs). It can generalize CRFs to work on training data with uncertain labels by the principle of MIL. In this work, it is applied to saving manual efforts on annotating training data for semantic segmentation. Specifically, we consider the setting in which the training dataset for semantic segmentation is a mixture of a few object segments and an abundant set of objects' bounding boxes. Our goal is to infer the unknown object segments enclosed by the bounding boxes so that they can serve as training data for semantic segmentation. To this end, we generate multiple segment hypotheses for each bounding box with the assumption that at least one hypothesis is close to the ground truth. By treating a bounding box as a bag with its segment hypotheses as structured instances, MSIL-CRF selects the most likely segment hypotheses by leveraging the knowledge derived from both the labeled and uncertain training data. The experimental results on the Pascal VOC segmentation task demonstrate that MSIL-CRF can provide effective alternatives to manually labeled segments for semantic segmentation.

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训练数据不确定情况下语义分割的多结构实例学习

我们提出了一种将多实例学习(MIL)集成到条件随机场(crf)中的MSIL-CRF方法。利用MIL的原理，将crf推广到具有不确定标签的训练数据上，从而节省了对训练数据进行语义分割标注的人工工作量。具体来说，我们考虑了语义分割的训练数据集是少数对象段和大量对象边界框的混合物的设置。我们的目标是推断出被边界框包围的未知对象片段，从而作为语义分割的训练数据。为此，我们为每个边界框生成多个分段假设，假设至少有一个假设接近基本事实。通过将边界框视为一个袋子，将其分段假设视为结构化实例，MSIL-CRF通过利用从标记和不确定训练数据中获得的知识来选择最可能的分段假设。在Pascal VOC分割任务上的实验结果表明，MSIL-CRF可以为语义分割提供有效的替代人工标注的方法。

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2014 IEEE Conference on Computer Vision and Pattern Recognition

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