Adaptive filter output using dsp.FrequencyDomain​AdaptiveFilt

Version 1.0.1 (1.95 KB) by Mrutyunjaya Hiremath
A general outline for using the dsp.FrequencyDomainAdaptiveFilter in MATLAB to remove background noise from EMI measurement data.
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Updated 2 Aug 2023

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A general approach to using the `dsp.FrequencyDomainAdaptiveFilter` in MATLAB to remove background noise from EMI measurement data. Here are the key steps:
  1. Load and preprocess the EMI measurement data: Load the data and perform any necessary preprocessing steps, such as normalization or DC removal.
  2. Set up the adaptive filter: Define the filter length and step size for the adaptive filter.
  3. Initialize variables: Create variables to store the output signal (denoised signal) and the error signal (residual noise).
  4. Process the signals in blocks: If the data is large, process it in blocks to manage memory constraints.
  5. Apply the adaptive filter: Use the `dsp.FrequencyDomainAdaptiveFilter` to filter the background noise from the input signal.
  6. Visualize the results: Plot the FFT (Fast Fourier Transform) of the input signal and the denoised signal to compare the frequency content.
  7. Analyze the results: Carefully examine the results and adjust the filter parameters if necessary.
The code provides a starting point and can be adapted to handle specific data and requirements.

Cite As

Mrutyunjaya Hiremath (2024). Adaptive filter output using dsp.FrequencyDomainAdaptiveFilt (https://www.mathworks.com/matlabcentral/fileexchange/133157-adaptive-filter-output-using-dsp-frequencydomainadaptivefilt), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2019b
Compatible with any release
Platform Compatibility
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Version Published Release Notes
1.0.1

Added Description.
1.0.0