Jumpei Yamaguchi scite author profile

We propose a new method for automatically detecting early esophageal cancer from an endoscopic image. We decompose the original image into four components, namely, the RGB and luminance components, and apply the discrete wavelet transform (DWT) to these components twice. The fractal dimensions are computed at each small block using the box-counting method, and the abnormal regions are detected based on the fractal dimensions. In addition, to process the endoscopic image quickly, we clip the portion that does not contain the esophageal cancer from the original endoscopic image and resize the remaining image to 1024 × 1024 pixels by mirroring. Finally, we show the abnormal region by using the product of the computed fractal dimensions from the four components. Our method is not intended for providing accurate diagnosis of the detected abnormal regions as esophageal cancer, but is intended to provide additional information to help doctors in their diagnosis. Therefore, our method only needs to detect all of the regions suspected of being cancer even if the detect results are false positives. We describe the procedure used in our method in detail and present experimental results demonstrating that our method is able to detect abnormal regions suspected of being early esophageal cancer using practical endoscopic images.

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Development of a real-time data processing system for a prototype of the Tomo-e Gozen wide field CMOS camera

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et al. 2016

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Laboratory performance evaluation of the mid-infrared camera and spectrograph MIMIZUKU for the TAO 6.5-m telescope

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Yamaguchi

et al. 2018

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