Layer Segmentation Method of Oct Image Based on Neural Network and Constrained Graph Search Algorithm
A neural network and search algorithm technology, applied in the field of medical image processing algorithms, can solve problems such as easy leakage to the neighborhood, large changes in the retinal layer structure, and low contrast in the image retinal layer.
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Embodiment 1
[0070] This embodiment is based on the OCT image segmentation method of neural network and constraint graph search algorithm, including:
[0071] Obtain OCT image feature training neural network classifier;
[0072] Obtain the final SF1 using a multi-resolution graph search algorithm;
[0073] Extract 24 features of the OCT image, use a neural network classifier to classify and mark the OCT image into 8 regions, and find the upper surface of the marked region from top to bottom as the initial boundaries S1, S2,..., S8 of the 8 retinal regions;
[0074] According to the initial boundaries S2 to S8, use the constraint graph search algorithm to find the precise SF2 to SF8 in sequence;
[0075] Neovascularization and effusion were segmented between SF7 and SF8.
[0076] Among them, the constraint graph search algorithm specifically includes:
[0077] Step 1: The OCT image to be segmented uses the OCT image after anisotropic filtering and respond according to the multiscale br...
Embodiment 2
[0095] This embodiment is based on the OCT image segmentation method of neural network and constraint graph search algorithm, on the basis of embodiment 1, obtains OCT image feature training neural network classifier specifically includes:
[0096] The retinal OCT image of choroidal neovascularization retinopathy was divided into 8 regions; the divisions and the upper surface labels corresponding to each layer structure are as follows: region 1: nerve fiber layer SF1; region 2: ganglion cell layer SF2; region 3: inner plexus SF3; Region 4: Inner core layer SF4; Region 5: Outer plexiform layer SF5; Region 6: Outer nuclear layer + external membrane + sample region SF6; Region 7: Ellipsoid region + outer photoreceptor node layer + staggered region+ RPE / Bruch SF7; area 8: vitreous + choroid SF8.
[0097] Extract 24 features of the OCT image, the specific method is as follows:
[0098]Step 1: Let the upper surface of area 1 in the OCT image be SF1. Find the scan from SF1 to the b...
Embodiment 3
[0114] This embodiment is based on the OCT image segmentation method of the neural network and the constraint graph search algorithm. On the basis of Embodiment 1 and Embodiment 2, the neural network classifier used to obtain the OCT image features specifically includes:
[0115] Extract 24 features of the OCT image, the specific method is as follows:
[0116] Step 1: Set the coordinate vector of the pixel in the OCT image OCT images using a Gaussian filter Filtering is performed, and then the initial shape of Surface1 is found using the canny edge detection algorithm; the precise shape SF1 of Surface1 is based on the initial shape and the multi-resolution graph search algorithm. Find the scan from SF1 to the bottom, and calculate the distance from the pixel below SF1 to SF1 as a distance feature; the horizontal axis coordinate x and vertical axis coordinate y of the OCT image are used as the other two features, where the surface SF of the retinal layer can be determined by...
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