一种用于视觉目标检测的最大边缘分割选择

2011 Fourth International Conference on Intelligent Computation Technology and Automation Pub Date : 2011-03-28 DOI:10.1109/ICICTA.2011.370

Yang Yang, Shanping Li

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引用次数: 0

摘要

视觉目标检测是在现实场景中从目标类中预测出每个目标的边界框和标签。以前的检测算法主要是训练模型来拟合预先分割的局部补丁。然而，由于无监督分割错误，补丁本身并不总是有意义的。本文提出了一种最大余量法来同时得到最优斑块和相应的模型。该学习任务被表述为一个二次规划(QP)问题，并以对偶形式实现。在测试时，我们计算每个图像的多个分割，并选择一个具有最大边界的分割来预测它们的标签。我们在Pascal VOC2007挑战数据集上评估了我们的算法的检测性能，并展示了与其他检测算法相比的一些改进结果。

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A Maximum Margin Segmentation Selection for Visual Object Detection

Visual object detection is to predict the bounding box and the label of each object from the target classes in realistic scenes. Previous detection algorithms focus on training models to fit pre-segmented local patches. However, the patches themselves are not always meaningful due to the unsupervised segmentation mistakes. In this paper, a maximum margin method is proposed to get the optimal patches and the corresponding models simultaneously. The learning task is formulated as a quadratic programming (QP) problem and implemented in its dual form. When testing, we compute multiple segmentations of each image and select one segmentation with the maximum margin to predict their labels. We evaluate the detection performance of our algorithm on Pascal VOC2007 challenge data set and show some improved results with other detection algorithms.

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2011 Fourth International Conference on Intelligent Computation Technology and Automation

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