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EZTrack

EZTrack produces electrode weights and heatmap scores from EEG signals in EDF or MEF files.

Python 2.7 Code Run

Date: 11/2/2017

Author: Adam Li

I provide an untested (although individual parts are tested) version of code for the paper in Python 2.7. This is a much more object oriented approach to the code provided in the paper as everything is segmented into its individual parts.

The following modules are provided:

1. Data Conversion

I define a class EDFConverter, which will read in EDF files (if they are incorrectly formatted, try converting EDF+D -> EDF+C within edfbrowser). It has capabability to then process the data into individual files that store different parts of the data:

i) rawdata: stored in a .npy file, which is the CxT channels time series data ii) channels data: stored in a .csv file that stores information about the channels, and each channel label iii) annotations data: stored in a .csv file that stores annotations on the edf file for this recording segment. Can include onset/offset times if there is a seizure present. iv) headers data: stores in a .csv file for any other meta data within the edf file. For example, birth date, gender, equipment, sampling rate, etc. can be stored here.

2. Signal Processing

I define some useful functions for filtering the data. Here I write two functions for notch filtering. The main one I use in my research is the butterworth filter of order 1. This can be adapted to add more filtering functions.

3. Models

This is the meat of the entire paper. It contains the models used.

Currently, these are the models within this section: i) powercoherence: this module defines a parent class 'Model', which provides some basic functions and members for the other classes to use. Then the PowerCoherenceModel is used to provide the user interfacing with the rawdata and computation of the coherence model for certain frequency bands (default is 'gamma'). It computes the crosspower and defines the coherence of each window/step size provided, and then computes and saves the SVD left eigenvector matrix. The EVCModel is used to compute the ranked EVC and perform various normalizations.

Afterwards, the EVCModel can be decomposed using PCA.

ii) gaussianmodels: this module defines the gaussian weighting function used to analyze and estimate 'EZ' likelihood from PCA analysis of the ranked EVC. It defines a GaussianWeightModel to interface and define the gaussian weighting function. It also defines a TrainingModel to perform Leave-One-Out training on a set of patients, and their rankedEVC computations to define the (x,y) coordinates of the origin of the Gaussian weighting function in PCA space.

4. Utility

This defines a module to interface with the datasets and metadata provided through DataConversion. Various useful functions are to extract data and umbrella all the relevant data under 1 object.

Possible Extensions:

Some possible extensions for this work include looking at other frequency bands, moving into 3D PCA space, or defining a different Gaussian weighting function.

This work can be compared with other linear models.


Usage (By: Adam Li)

Extract Signals From EDF Files

Given EDF files from the 4 different centers in this study (Cleveland Clinic, NIH, Johns Hopkins Hospital, University of Maryland Medical Clinic), you will save them in data/edf directory.

  1. Run edf2eeg.sh to extract the signals and channels from the EDF files. For UMMC files: ./edf2eeg.sh pt1sz2 rest For all else, use butlast

This will create output/eeg/pt1sz2/pt1sz2_eeg.csv and output/eeg/pt1sz2/pt1sz2_labels.csv.

patient_id,date,recording_start,onset_time,offset_time,recording_duration,num_channels,included_channels
pt1sz2,4/19/16,19:35:19,19:36:44,19:38:01,269,98,[1:36 42 43 46:54 56:69 72:95]

The fields have the following meaning:

patient_id: matches the file name

date: recording start date in m/dd/yy format. Viewable in EDFbrowser.

recording_start: recording start time in hh:mm:ss format. Viewable in EDFbrowser.

onset_time: clinical onset time in hh:mm:ss format. Provided by clinician.

offset_time: clinical offset time in hh:mm:ss format. Provided by clinician.

recording_duration: the length of the file in seconds. Viewable in EDFbrowser.

num_channels: total number of channels contained in the file. Provided by the length of output/eeg/pt1sz2/pt1sz2_labels.csv.

included_channels: indexes of the channels to include in the heatmap in MATLAB vector notation. Use EDFbrowser to verify which signals to include. Channels to filter out include DC, grounds, channels with missing labels, or channels with noise. "Amplitude -> Fit to Pane" and "Timescale -> 10s/page" are useful settings when viewing channels.

NIH files are in EDF+D vs. EDF+C. Use "Tools->Convert EDF+D to EDF+C" in EDFbrowser to open the files.

Create the Heatmap

Run ./eztrack-main pt1sz2

Output will be saved to output/heatmap/pt1sz2_iEEG_temporal_results_<date>.csv

Make sure iEEG_temporal_CV_results...csv file is in output/heatmap directory. This is the data that was used to generate the PCA space that all other datasets were compared on.

Analysis of Results

In directory Paper Code, there will be code to reproduce and statistically analyze the computed results.


Usage (Bobby)

Extract Signals

Download the EDF files and save in data/edf.

Run edf2eeg.sh to extract signals and channels from the EDF files.

For NIH files: ./edf2eeg.sh pt1sz2 butlast

For UMMC files: ./edf2eeg.sh pt1sz2 rest

The butlast argument means to extract all but the last channel of the signals...in the EDF+ file format used by NIH, the last channel contains annotations. The script can also take the argument rest to handle EDF formats in which the first channel contains annotations, so only the rest of the channels after the first should be retained.

This will create output/eeg/pt1sz2/pt1sz2_eeg.csv and output/eeg/pt1sz2/pt1sz2_labels.csv.

Copy output/eeg/pt1sz2/pt1sz2_labels.csv to data/patients/pt1sz2_channels.csv. Edit the file to remove any channel labels that aren't in the included_channels filter in data/patients/pt1sz2.csv.

Create patient input files to match the EZTrack spec and save in data/patients. For example, data/patients/pt1sz2.csv contains the following columns:

patient_id,date,recording_start,onset_time,offset_time,recording_duration,num_channels,included_channels
pt1sz2,4/19/16,19:35:19,19:36:44,19:38:01,269,98,[1:36 42 43 46:54 56:69 72:95]

The fields have the following meaning:

patient_id: matches the file name

date: recording start date in m/dd/yy format. Viewable in EDFbrowser.

recording_start: recording start time in hh:mm:ss format. Viewable in EDFbrowser.

onset_time: clinical onset time in hh:mm:ss format. Provided by clinician.

offset_time: clinical offset time in hh:mm:ss format. Provided by clinician.

recording_duration: the length of the file in seconds. Viewable in EDFbrowser.

num_channels: total number of channels contained in the file. Provided by the length of output/eeg/pt1sz2/pt1sz2_labels.csv.

included_channels: indexes of the channels to include in the heatmap in MATLAB vector notation. Use EDFbrowser to verify which signals to include. Channels to filter out include DC, grounds, channels with missing labels, or channels with noise. "Amplitude -> Fit to Pane" and "Timescale -> 10s/page" are useful settings when viewing channels.

NIH files are in EDF+D vs. EDF+C. Use "Tools->Convert EDF+D to EDF+C" in EDFbrowser to open the files.

Create the Heatmap

Run ./eztrack-main pt1sz2

Output will be saved to output/heatmap/pt1sz2_iEEG_temporal_results_<date>.csv

Development Guide

Clone the repository

git clone [email protected]:testedminds/eztrack.git
cd eztrack

Access the Server

  • Log in to http://my.jh.edu to ensure your JHED ID and password are correct.

  • Set up Google Authenticator to get access to the server. Ask Kyle for an access code, download Google Authenticator, then create a new entry in the app using that code. You will now have a six-digit verification code that will refresh every minute.

  • Run make ssh. Enter your Google Authenticator code for the Verification Code and use your JHED password for Password.

Change the Code

source .env

make check-deps

If this step succeeds, you are ready to run the tests.

Handling "MATLAB not found" errors

The path to matlab is stored in a variable called matlab_exe.

If the default path doesn't match your path, you can override it. Replace the path below with the path to your matlab executable:

make -e matlab_exe=/Applications/MATLAB_R2014b.app/bin/matlab check-deps

Testing

After making changes to the code, run the tests to ensure things are still working:

make test

Don't forget to source the .env file if you close your terminal: This file sets some environment variables that are used by the rest of the build scripts.

Deploying EZTrack Code Changes to the ICM Server

make deploy-prod

Connecting to Hopkins - Hopkins SSH / sFTP

ssh @128.220.76.216 -p 5527

sftp -oPort=5527 @128.220.76.216

Christophe Jouny's MEF File Server

• MEF file server is mounted at /mnt/smb.

• Test files on local Hackerman eztrack system are in /mnt/disk01/tmp/

• Host operating system cat /etc/redhat-release CentOS Linux release 7.2.1511 (Core)

uname -a
    Linux eztrack01 3.10.0-229.20.1.el7.x86_64 #1 SMP Tue Nov 3 19:10:07 UTC 2015 x86_64 x86_64 x86_64 GNU/Linux

rpm -q --whatprovides /etc/redhat-release
    centos-release-7-2.1511.el7.centos.2.10.x86_64

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