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I am working on ECG signal processing using neural network which involves pattern recognition. As I need to collect all the data from Matlab to use it as test signal, I am finding it difficult to load it on to the Matlab. I am using MIT Arrhythmia database here.

The signal needs to be indexed and stored as data structure in Matlab compatible format. Presently, the signal is in .atr and .dat format.

How can you load MIT-BIH Arrhythmia database onto Matlab?

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I removed you email address. It's better to put such info into your profile page rather than in your post as plain text, even if Gmail spam filtering does quite a good job. –  chl Jun 9 '11 at 5:19
I don't know what exactly you want to detect on the ECG signal but in my opinion the MIT-BIH database has a poor quality and I'd probably recommend you to find a different one. From historical reasons it is some kind of academic standard, but if you don't need to compare your results with previous publications I'd use a different one. For example PTB is a good one (2 minute strips of 500 different patients, 12 lead ECG) –  Polda Jun 15 '11 at 12:45
@Polda How can you describe PTB's quality? Can you confirm it to be AAMI standard? MIT-BIH is AAMI standard in ambulatory setting. –  Masi May 22 at 5:24

4 Answers 4

You need the program rddata.m (MATLab script) from this website. The program can be found here. rddata.m is probably the only program you will need to read the ecg signals. I remember having used this program and database myself not too long ago.

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You can use physionet ATM to get .mat files which are easier to work with.

In the input part select the desired leads, length, database and sample.

In the toolbox select export as .mat:

enter image description here

Then download the '.mat' file,

enter image description here

In order to open the file in MATLAB, here is a sample code:

load ('100m.mat')          % the signal will be loaded to "val" matrix
val = (val - 1024)/200;    % you have to remove "base" and "gain"
ECGsignal = val(1,1:1000); % select the lead (Lead I)
Fs = 360;                  % sampling frequecy
t = (0:length(ECGsignal)-1)/Fs;  % time

and you will get,

enter image description here

However, If you were to read annotation files for arrhythmia or QRS complexes that would be another problem.


The base and gain come from the info file (second picture). This file gives you various information regarding the ECG signal.

enter image description here

In the last sentence it says: To convert from raw units to the physical units shown above, subtract 'base' and divide by 'gain'.

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Can you please explain your "base" and "gain" point more thoroughly. I added my answer below where I show the difference between your and the method where you do not those conversions. –  Masi May 18 at 23:26
Hi @Masi, thanks for your attention, as you want to download the .mat file, there is another file named .info in which it indicates: To convert from raw units to the physical units shown above, subtract 'base' and divide by 'gain'`. –  Rashid May 19 at 12:09
Can you, please, include the link, citation and reference where they exactly say something about base and gain. Through the ATM tool, I cannot extract any info file. There may be a case that they have depreciated the info file here. –  Masi May 21 at 21:55
I think this is the source what are you recalling physionet.org/physiotools/matlab/rddata.m It does this base and gain removals in this code. I cannot find any other source for this thing. –  Masi May 21 at 22:04
@Masi, on my second picture in the post it says: download these files: there is an .info file, please check that file. –  Rashid May 22 at 5:08

Use ATM to extract .mat as described by Kamtal. However, note that to see the .info file in some cases, you need to click the arrow

enter image description here

Then, you should be able to see the list where you can select .info file after the export as described in Kamtal's answer. The .info file instructs to remove so-called base and gain from the data before use

Source: record mitdb/201  Start: [00:02:10.000]
val has 2 rows (signals) and 3600 columns (samples/signal)
Duration:     0:10
Sampling frequency: 360 Hz  Sampling interval: 0.002777777778 sec
Row     Signal  Gain    Base    Units
1       MLII    200     1024    mV
2       V1      200     1024    mV

To convert from raw units to the physical units shown
above, subtract 'base' and divide by 'gain'.

Difference between removal of base and gain and not doing so

# Kamtal's method in considering base and gain
val = (val - 1024)/200;    % you have to remove "base" and "gain"
ECGsignal = val(1,16:950); % select the lead (Lead I)

# Method without considering base and gain
ECGsignal2 = val(1,16:950); 

imshow(imoverlay(ECGsignal, ECGsignal2, uint8([255,0,0])))

and you get the difference between my method and his method

enter image description here

To get a better view, here is the first image is overlayed on top of the other image by overlay function in the File Exchange.

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There is a tutorial for using matlab to read the data. tutorial for matlab user

  1. install "The WFDB Toolbox for Matlab" from the link above. Add the folder of the toolbox to the path in matlab.

  2. Download the ECG signal. Be sure to download '.atr', '.dat' and '.hea' together for the signal you are to deal with.

  3. Command in matlab is as follows : [tm,signal,Fs]=rdsamp( filename , 1 ) ; [ann,type]=rdann( filename , 'atr' ) ; Note: for signal '101', its name is '101'. And you can check the detail information about rdsamp and rdann from the tutorial.

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