Udemy - Master the Fourier transform and its applications (1.2025)

Creation Time	Aug. 3, 2025, 1:03 a.m.
Last Access Time	Aug. 11, 2025, 6:38 p.m.
File Size	1.5 GB
Keywords	and 2025 - transform Udemy 1 applications Master the Fourier its
Total Requests	31
Total Files	112
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07. Aliasing, stationarity, and violations/4. Effects of non-stationarities on the power spectrum.mp4 126.9 MB
08. 2D Fourier transform/2. How the 2D FFT works.mp4 85.8 MB
06. Frequency resolution and zero padding/3. Time-domain zero padding.mp4 73.4 MB
07. Aliasing, stationarity, and violations/5. Solution to understanding nonstationary time series.mp4 70.6 MB
05. The fast Fourier transform/5. Using the fft on matrices.mp4 58.1 MB
03. The discrete Fourier transform/5. Shortcut Converting indices to frequencies.mp4 55.7 MB
04. The discrete inverse Fourier transform/3. Inverse Fourier transform for bandstop filtering.mp4 53.9 MB
02. Foundations of the Fourier transform/5. Sine waves and complex sine waves.mp4 42.4 MB
02. Foundations of the Fourier transform/4. Euler's formula e^ik.mp4 42.2 MB
03. The discrete Fourier transform/2. How the discrete Fourier transform works.mp4 41.0 MB
07. Aliasing, stationarity, and violations/7. Instantaneous frequency.mp4 39.7 MB
03. The discrete Fourier transform/8. Accurate scaling of Fourier coefficients.mp4 38.5 MB
02. Foundations of the Fourier transform/6. Dot product.mp4 37.4 MB
04. The discrete inverse Fourier transform/2. How and why it works.mp4 37.3 MB
06. Frequency resolution and zero padding/2. Sampling and frequency resolution.mp4 37.0 MB
03. The discrete Fourier transform/6. Normalized time vector.mp4 34.4 MB
02. Foundations of the Fourier transform/7. Complex dot product.mp4 33.7 MB
02. Foundations of the Fourier transform/2. Complex numbers.mp4 31.9 MB
05. The fast Fourier transform/4. The perfection of the Fourier transform.mp4 31.5 MB
07. Aliasing, stationarity, and violations/2. Aliasing.mp4 31.3 MB
07. Aliasing, stationarity, and violations/6. Windowing and Welch's method.mp4 31.1 MB
03. The discrete Fourier transform/4. Converting indices to frequencies part 2.mp4 30.4 MB
01. Introduction to the Fourier transform/4. MATLAB, Octave, Python, or just watch.mp4 28.0 MB
06. Frequency resolution and zero padding/5. Sampling rate vs. signal length.mp4 26.8 MB
03. The discrete Fourier transform/10. Averaging Fourier coefficients.mp4 26.5 MB
01. Introduction to the Fourier transform/5. Using Udemy like a pro.mp4 25.7 MB
03. The discrete Fourier transform/3. Converting indices to frequencies.mp4 25.6 MB
09. Applications of the Fourier transform/3. Rhythmicity in electrical brain waves.mp4 25.2 MB
01. Introduction to the Fourier transform/3. Examples of Fourier transform applications.mp4 22.8 MB
05. The fast Fourier transform/2. How it works, speed tests.mp4 22.7 MB
07. Aliasing, stationarity, and violations/3. Signal stationarity and non-stationarities.mp4 22.6 MB
06. Frequency resolution and zero padding/4. Frequency-domain zero padding.mp4 20.8 MB
09. Applications of the Fourier transform/5. Narrowband temporal filtering.mp4 20.6 MB
09. Applications of the Fourier transform/6. 2D image filtering.mp4 20.0 MB
03. The discrete Fourier transform/11. The DC (zero frequency) component.mp4 17.7 MB
09. Applications of the Fourier transform/2. Rhythmicity in walking (gait).mp4 17.2 MB
09. Applications of the Fourier transform/7. Image narrowband filtering.mp4 17.1 MB
03. The discrete Fourier transform/12. Amplitude spectrum vs. power spectrum.mp4 16.3 MB
03. The discrete Fourier transform/13. A note about terminology of Fourier features.mp4 15.4 MB
01. Introduction to the Fourier transform/2. Nontechnical description of Fourier transform.mp4 10.4 MB
03. The discrete Fourier transform/9. Interpreting phase values.mp4 10.0 MB
06. Frequency resolution and zero padding/6. Course tangent self-accountability in online learning.mp4 9.5 MB
03. The discrete Fourier transform/7. Positive and negative frequencies.mp4 8.8 MB
09. Applications of the Fourier transform/8. Real data from trends.google.com!.mp4 8.1 MB
05. The fast Fourier transform/3. The fast inverse Fourier transform.mp4 8.1 MB
09. Applications of the Fourier transform/4. Time series convolution.mp4 7.1 MB
02. Foundations of the Fourier transform/1. Fourier_foundations.zip 1.4 MB
07. Aliasing, stationarity, and violations/1. Fourier_aliasStation.zip 1.3 MB
09. Applications of the Fourier transform/1. Fourier_apps.zip 1.2 MB
01. Introduction to the Fourier transform/1. Fourier_intro.zip 682.4 KB
03. The discrete Fourier transform/1. Fourier_DTFT.zip 276.0 KB
06. Frequency resolution and zero padding/1. Fourier_freqres0pad.zip 193.0 KB
05. The fast Fourier transform/1. Fourier_FFT.zip 190.8 KB
04. The discrete inverse Fourier transform/1. Fourier_inverse.zip 178.0 KB
08. 2D Fourier transform/1. Fourier_2D.zip 109.8 KB
06. Frequency resolution and zero padding/2. Sampling and frequency resolution.vtt 19.4 KB
02. Foundations of the Fourier transform/6. Dot product.vtt 19.2 KB
07. Aliasing, stationarity, and violations/4. Effects of non-stationarities on the power spectrum.vtt 19.0 KB
03. The discrete Fourier transform/4. Converting indices to frequencies part 2.vtt 16.6 KB
07. Aliasing, stationarity, and violations/5. Solution to understanding nonstationary time series.vtt 16.1 KB
02. Foundations of the Fourier transform/2. Complex numbers.vtt 15.7 KB
02. Foundations of the Fourier transform/5. Sine waves and complex sine waves.vtt 15.4 KB
01. Introduction to the Fourier transform/3. Examples of Fourier transform applications.vtt 14.7 KB
03. The discrete Fourier transform/2. How the discrete Fourier transform works.vtt 14.1 KB
07. Aliasing, stationarity, and violations/7. Instantaneous frequency.vtt 14.0 KB
06. Frequency resolution and zero padding/3. Time-domain zero padding.vtt 13.1 KB
03. The discrete Fourier transform/5. Shortcut Converting indices to frequencies.vtt 13.1 KB
08. 2D Fourier transform/2. How the 2D FFT works.vtt 12.9 KB
04. The discrete inverse Fourier transform/2. How and why it works.vtt 12.5 KB
07. Aliasing, stationarity, and violations/6. Windowing and Welch's method.vtt 12.0 KB
03. The discrete Fourier transform/6. Normalized time vector.vtt 11.8 KB
07. Aliasing, stationarity, and violations/2. Aliasing.vtt 11.4 KB
06. Frequency resolution and zero padding/5. Sampling rate vs. signal length.vtt 11.0 KB
03. The discrete Fourier transform/10. Averaging Fourier coefficients.vtt 10.7 KB
01. Introduction to the Fourier transform/5. Using Udemy like a pro.vtt 10.6 KB
02. Foundations of the Fourier transform/7. Complex dot product.vtt 10.3 KB
02. Foundations of the Fourier transform/4. Euler's formula e^ik.vtt 10.2 KB
09. Applications of the Fourier transform/5. Narrowband temporal filtering.vtt 10.0 KB
03. The discrete Fourier transform/3. Converting indices to frequencies.vtt 9.8 KB
06. Frequency resolution and zero padding/4. Frequency-domain zero padding.vtt 9.2 KB
03. The discrete Fourier transform/11. The DC (zero frequency) component.vtt 8.9 KB
05. The fast Fourier transform/5. Using the fft on matrices.vtt 8.8 KB
09. Applications of the Fourier transform/6. 2D image filtering.vtt 8.7 KB
04. The discrete inverse Fourier transform/3. Inverse Fourier transform for bandstop filtering.vtt 8.7 KB
09. Applications of the Fourier transform/3. Rhythmicity in electrical brain waves.vtt 8.7 KB
05. The fast Fourier transform/2. How it works, speed tests.vtt 8.5 KB
03. The discrete Fourier transform/12. Amplitude spectrum vs. power spectrum.vtt 7.8 KB
03. The discrete Fourier transform/8. Accurate scaling of Fourier coefficients.vtt 7.7 KB
01. Introduction to the Fourier transform/2. Nontechnical description of Fourier transform.vtt 7.5 KB
05. The fast Fourier transform/4. The perfection of the Fourier transform.vtt 7.5 KB
09. Applications of the Fourier transform/2. Rhythmicity in walking (gait).vtt 7.2 KB
09. Applications of the Fourier transform/7. Image narrowband filtering.vtt 6.7 KB
07. Aliasing, stationarity, and violations/3. Signal stationarity and non-stationarities.vtt 6.4 KB
01. Introduction to the Fourier transform/4. MATLAB, Octave, Python, or just watch.vtt 6.4 KB
03. The discrete Fourier transform/13. A note about terminology of Fourier features.vtt 6.0 KB
03. The discrete Fourier transform/9. Interpreting phase values.vtt 5.7 KB
03. The discrete Fourier transform/7. Positive and negative frequencies.vtt 5.4 KB
10. Bonus section/1. Bonus lecture.html 4.7 KB
09. Applications of the Fourier transform/8. Real data from trends.google.com!.vtt 4.4 KB
09. Applications of the Fourier transform/4. Time series convolution.vtt 3.8 KB
06. Frequency resolution and zero padding/6. Course tangent self-accountability in online learning.vtt 3.7 KB
05. The fast Fourier transform/3. The fast inverse Fourier transform.vtt 2.7 KB
02. Foundations of the Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html 138 bytes
02. Foundations of the Fourier transform/3. xkcd explanation of why we need complex numbers.html 121 bytes
05. The fast Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html 93 bytes
09. Applications of the Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html 75 bytes
03. The discrete Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html 69 bytes
07. Aliasing, stationarity, and violations/1. Course materials (reader, MATLAB code, Python code, exercises).html 69 bytes
08. 2D Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html 69 bytes
06. Frequency resolution and zero padding/1. Course materials (reader, MATLAB code, Python code, exercises).html 59 bytes
04. The discrete inverse Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html 50 bytes
01. Introduction to the Fourier transform/1. Course materials (reader, MATLAB code, Python code).html 30 bytes

Udemy - Master the Fourier transform and its applications (1.2025)

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