A diagnosis system for laryngeal diseases based on deep learning neural network
A technology of disease diagnosis and neural network, which is applied in interdisciplinary fields, can solve the problems of low diagnosis accuracy of laryngoscope image diagnosis, achieve the effect of improving diagnosis efficiency and diagnosis accuracy, good diagnosis, and reducing missed diagnosis and misdiagnosis rate
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specific Embodiment approach 1
[0020] Specific implementation mode 1. Combination figure 1 This embodiment will be described. A laryngeal disease diagnosis system based on a deep learning neural network described in this embodiment, the laryngeal disease diagnosis system includes an image acquisition main module, an image processing main module, a neural network main module, a training main module and a detection main module ;
[0021] The image collection main module is used to collect laryngoscope images, preprocess the collected laryngoscope images, obtain preprocessed images, and input the preprocessed images into the image processing main module;
[0022] The image processing main module is used to process the input image, and randomly divide the processed image into two groups of training sample set and verification sample set;
[0023] The neural network main module is used to build a network model for laryngeal disease diagnosis;
[0024] The training main module uses the training sample set to t...
specific Embodiment approach 2
[0031] Embodiment 2: The difference between this embodiment and Embodiment 1 is that the image acquisition main module scans the laryngoscope paper image output by the instrument or the laryngoscope paper image attached to the patient's medical record into an electronic The format of the image, after obtaining each complete laryngoscope electronic image, split the 4 sub-images on each image, and adjust the angle of the split image to make the split image correct;
[0032] After the white frame of the corrected image is removed, the image is adjusted to a uniform size; the size-adjusted image is input into the image processing main module.
specific Embodiment approach 3
[0033] Embodiment 3: The difference between this embodiment and Embodiment 1 is that the image processing main module is used to process the input image, and the specific process of processing is as follows:
[0034] Perform HSV decomposition on each image input to the image processing main module, wherein H, S and V represent the hue, saturation and brightness of the image respectively;
[0035] Do the following transformation on the points whose luminance value is greater than the luminance threshold l in the V channel (brightness channel):
[0036]
[0037] Among them, v represents the brightness value in the original channel, and l represents the brightness threshold (that is, when the brightness value v in the original channel is greater than the brightness threshold l, it will be transformed), v 1 is an intermediate variable, v 2 Represents the transformed brightness value;
[0038] Then normalize each image input to the image processing main module, so that the val...
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