Generate K randomly rearranged ECG signals from the extracted beats, where K can be any large integer.

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ECG Signal Information from "data_116_N_V_R.mat":
load data_116_N_V_R.mat
openfig(illustration.fig)
whos -file data_116_N_V_R.mat
Name Size Bytes Class Attributes ECGsignal 649783x1 5198264 double RRinterval 2410x1 19280 double Rpeak 2411x1 19288 double annotation - 2779 categorical
- ECGsignal: MITDB ECG signal sampled at 360 Hz.
- Rpeak: Locations of R-peaks in the ECG signal, provided as sample indices.
- RRinterval: Intervals in samples between consecutive R-peaks based on the Rpeak array.
- annotation: Beat-type annotation centered around each R-peak. In this test data, each beat is labeled as either "N" or "V," but it can represent various other types.
Beat Definition:
Please, refer to the attached figure (illustration.fig).
openfig('illustration.fig');
Each beat is defined by two portions extending around a central R-peak:
- Left portion: 40% of the preceding RR interval, to the left of the R-peak.
- Right portion: 60% of the succeeding RR interval, to the right of the R-peak.
I want to segment every beat and then randomly rearrange segmented beats to form new ECG signals.
Discontinuity Adjustment for Rearranged Beats:
Due to the random reordering, there will be discontinuities between consecutive beats. To minimize these:
- Adjust the first sample of each right-side beat by +1 or -1 relative to the last sample of the preceding left-side beat.
- +1 adjustment if the second sample of the right-side beat is greater than the first, then shift the rest smaples of the beat accordingly.
- -1 adjustment if the second sample of the right-side beat is smaller than the first, then shift the rest smaples of the beat accordingly.
Goal:
- Generate K randomly rearranged ECG signals from the extracted beats, where K can be any large integer (let's say e.g., 10).
- I want to have updated RR-intervals (RRinterval), R-peaks (Rpeak), and annotations in accordance with newly generated ECG signals.
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Image Analyst
Image Analyst il 17 Ott 2024
Because each segment may be a different number of samples (elements) you will have to first go through the signal and store the individual segments in a cell array, say it's called allBeats.
Then you can shuffle the order
randomOrder = randperm(numel(allBeats))
allBeats = allBeats(randomOrder);
Then you can concatenate all the cells together into a single double array.
allBeats = {[1,222,3], [40,55,66,77]} % Sample data with y-values of 2 beats
allBeats = 1x2 cell array
{[1 222 3]} {[40 55 66 77]}
signal = cell2mat(allBeats) % Create single vector signal.
signal = 1×7
1 222 3 40 55 66 77
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