Hello Jeremy,
I understand that you are trying to use "pwelch()" function to extract the power spectral density (PSD) of your EEG signal from individual channels and trials. The issue you are facing, "The length of the segments cannot be greater than the length of the input signal" is because of the format of the data that you are passing as input signal to the "pwelch()" function.
I note that your input signal to the "pwelch()" function is "eeg_ArrowL(chnl,trial,:)" which is of dimension 1x1x1000. From the MathWorks documentation page
of "pwelch()" function, the input signal is expected to be a vector or a matrix. You can extract the data in "eeg_ArrowL(chnl,trial,:)" into a vector using "squeeze()" function
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of "pwelch()" function, the input signal is expected to be a vector or a matrix. You can extract the data in "eeg_ArrowL(chnl,trial,:)" into a vector using "squeeze()" function.Here is an example that performs this operation and obtains PSD of the signal subsequently:
% Generate a random EEG dataset (for demostration purpose)
eeg_ArrowL = rand(1, 1, 1000); % 1x1x1000 random EEG data
% Set the channel and trial indices
chnl = 1;
trial = 1;
% Extract the data as a vector
eegData = squeeze(eeg_ArrowL(chnl, trial, :));
% Set the sampling rate
fs = 250; % Sampling rate in Hz
% Estimate the PSD using pwelch
[psd, freq] = pwelch(eegData, [], [], [], fs);
% Plot the PSD
plot(freq, 10*log10(psd));
grid on;
xlabel('Frequency (Hz)');
ylabel('Power Spectral Density (dB/Hz)');
title('Power Spectral Density Estimate');
By using the "squeeze()" function, you convert the 1x1x1000 data into a 1D vector, allowing you to calculate the PSD using the "pwelch()" function.
You can additionally refer to the MathWorks documentation pages of "pwelch()" and "squeeze()" functions for better understanding of different use cases.
I hope this helps!
