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3rd place algorithm of the Melbourne-University AES-MathWorks-NIH Seizure Prediction Challenge

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EEG Seizure Prediction

Gareth Paul Jones
3rd place Melbourne University AES/MathWorks/NIH Seizure Prediction
2016

See also:

Description

This code is designed to process the raw data from Melbourne University AES/MathWorks/NIH Seizure Prediction, train a seizureModel (train.m), then predict seizure occurrence from a new test set (predict.m).

Data

The raw data contains 16 channel inter-cranial EEG recordings from 3 patients. It's split in to interictal (background) periods and preictal (before-seizure) periods.

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Features

Various feautres are extracted from the raw data, inlcuding:

  • Frequency power in EEG bands
  • Summary statistics in the temporal domain
  • Correlation between channels in the frequency and temporal domains

These features are extracted with various windows sizes (240, 160, and 80s in the 3rd place submission) and are combined in to a single data set before training the models. Processed features are saved to disk for faster subsequent loading.

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Models

Two models are fit to the processed data:

  • An RUS Boosted tree ensemble
  • A Quadratic SVM

These models are handled by the seizureModel object and are fit to all the data, rather than individual models being trained for each subject. The predictions of each model are ensembled with a simple mean, which produces a considerably better score than either model alone.

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Running

Training and prediction stages can be run independently from their respective scripts, or together from testRun.m. If running from testRun.m paths need to be set in predict.m and train.m first. Warning: testRun.m is designed to run entirely from scratch and deletes all .mat files from the working directory when it starts!

Both predict.m and train.m expect the same directory structure as provided for the competition, and training is specifically written to handle the temporal relationships in this dataset - it would need modification to work correctly with new data.

  • Extract the original Kaggle data to a folder, eg. R:\EEG Data\Original\

  • Extract the second test set released on Kaggle into a folder named New, R:\EEG Data\New\
    Folder structure

  • Set paths the paths params.paths.dataDir and params.paths.or in predict.m and train.m

    • params.paths.or should be the path to the "Original" folder created above.
    • params.paths.dataDir should be the "New" folder from above. Data from the original training and test sets will be copied here to create a new training set.
  • Run train.m

    • The first function copyTestLeakToTrain.m creates a new training/test set in params.paths.dataDir. This set will be used for training and the folder structure should look like this:
      Original folder structure
  • Run predict.m

    • params.paths.dataDir should be the "New" directory, eg R:\EEG Data\New\

Processed features and final submission file are saved in to working directory to save time on subsequent runs.

Scripts

train.m script:

  • Processes raw data
    • Creates new test set from original test and training sets
  • Extracts features and saves in featuresObject (featuresTrain)
  • Trains an SVM and RUS boosted tree ensemble, saves the compact version of these.

predict.m script:

  • Loads trained models (SVM and tree ensemble saved as seizureModel objects)
  • Loads new data
    • Extracts features and saves in a featuresObject (featuresTest)
  • Predicts new data
    • Reduces epoch predictions to segment predictions
    • Ensembles SVM and tree ensemble
  • Saves in to .csv submission file as per Kaggle specification

Classes

featuresObject

  • Handles extraction of features and combination of features generated using different window lenghts.
    seizureModel
  • Handles training of SVM or RBT.
    cvPart
  • Used instead of MATLAB's cvpartition object to handle cross-validation. Allows grouping of subject data from consecutive time periods in the training set, preventing data leak that otherwise leads to over optimistic scoring of the model's performance locally.

Requirements

  • Original Kaggle data or trained models
  • MATLAB 2016b:
  • Statistics and Machine Learning Toolbox

Notes

  • If seeds are now setting correctly, should score ~0.8059 (= 2nd place)
  • Uses new version of featuresObject that holds only one dataset, rather than both train and test sets
  • All parallel processing has been removed for hold out testing
  • All figures should be suppressed in prediction stage

To do

  • Save use structure and params.divS to each seizureModel
  • Add feature descriptions

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3rd place algorithm of the Melbourne-University AES-MathWorks-NIH Seizure Prediction Challenge

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