LUNA16-LUng-Nodule-Analysis-2016-Challenge
This is an example of the CT images lung nodule detection and false positive reduction from LUNA16-LUng-Nodule-Analysis-2016-Challenge
Prerequisities
The following dependencies are needed:
- numpy >= 1.11.1
- SimpleITK >=1.0.1
- opencv-python >=3.3.0
- tensorflow-gpu ==1.8.0
- pandas >=0.20.1
- scikit-learn >= 0.17.1
How to Use
1、Preprocess
nodule detection
- convert annotation.csv file to image mask file:run the LUNA_mask_extraction.py
- analyze the ct image,and get the slice thickness and window width and position:run the dataAnaly.py
- generate lung nodule ct image and mask:run the data2dprepare.py
- generate patch(96,96,16) lung nodule image and mask:run the data3dprepare.py
- save lung nodule data and mask into csv file run the utils.py,like this:G:\Data\segmentation\Image/0_161....
nodule classify
- convert candidates.csv file to nodule and not-nodule image(48,48,48):run the LUNA_node_extraction.py
- Augment the nodule image data: run the Augmain.py
- split data into train data(80%) and test data(20%):run the subset.py
- save lung nodule data and label into csv file like this:1,G:\Data\classify\1_aug/0_17.npy
2、Nodule Detection
- train and predict in the script of vnet3d_train.py and vnet3d_predict.py
3、False Positive Reducution
- train and predict in the script of ResNet3d_train.py and ResNet3d_predict.py
4、download trained model
Result
1、Nodule Detection
- train loss and train accuracy
2、False Positive Reducution
- train loss and train accuracy
- ROC,Confusion Matrix and Metrics
Contact