Automatic detection of direct radiation for digital fluoroscopy optimization

2016 IEEE International Conference on Image Processing (ICIP) Pub Date : 2016-09-01 DOI:10.1109/ICIP.2016.7532986
Yongjian Yu, Jue Wang, S. Acton
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Abstract

We present a histogram-based real-time solution to detecting directly irradiated regions in digital fluoroscopic images. Our method leverages the power of model matching, machine learning and domain knowledge to characterize and segment images using histograms. The input image is automatically identified as containing partial, all, or null direct radiation. The regions with direct radiation are segmented out via global thresholding according to image characterizations. The algorithm involves only one-dimensional processing. The test results achieved 99.82% accurate detection rate on a dataset of 9256 clinical images.
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自动检测直接辐射的数字透视优化
我们提出了一种基于直方图的实时解决方案,用于检测数字透视图像中直接照射的区域。我们的方法利用模型匹配、机器学习和领域知识的力量,使用直方图对图像进行表征和分割。输入图像被自动识别为包含部分、全部或零直接辐射。根据图像特征,通过全局阈值分割出有直接辐射的区域。该算法只涉及一维处理。在9256张临床图像的数据集上,测试结果达到99.82%的准确率。
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2016 IEEE International Conference on Image Processing (ICIP)
2016 IEEE International Conference on Image Processing (ICIP)
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