Skip to content

Udemy - Master the Fourier Transform and Its Applications (1.2025)

Sign up to create lists
Report Udemy - Master the Fourier Transform and Its Applications (1.2025)
Unverified source. This magnet is from an unverified source. The content may be unsafe or mislabeled. Proceed with caution.
Title: UdemyGroup: NOGRPSource: Udemy
Info Hash
36C1FD48213838113DB50BAE373F254D893E3DBE
Source
Unverified
Total Size
1.47 GB
Total Files
100
Seeders
1
Leechers
0
Health
1.00
Score
2
Type
Bookware

File List

FileSize
01. Introduction to the Fourier transform/1. Course materials (reader, MATLAB code, Python code).html30 B
01. Introduction to the Fourier transform/1. Fourier_intro.zip682.41 KB
01. Introduction to the Fourier transform/2. Nontechnical description of Fourier transform.mp410.35 MB
01. Introduction to the Fourier transform/2. Nontechnical description of Fourier transform.vtt7.54 KB
01. Introduction to the Fourier transform/3. Examples of Fourier transform applications.mp422.75 MB
01. Introduction to the Fourier transform/3. Examples of Fourier transform applications.vtt14.66 KB
01. Introduction to the Fourier transform/4. MATLAB, Octave, Python, or just watch.mp427.97 MB
01. Introduction to the Fourier transform/4. MATLAB, Octave, Python, or just watch.vtt6.35 KB
01. Introduction to the Fourier transform/5. Using Udemy like a pro.mp425.68 MB
01. Introduction to the Fourier transform/5. Using Udemy like a pro.vtt10.63 KB
02. Foundations of the Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html138 B
02. Foundations of the Fourier transform/1. Fourier_foundations.zip1.36 MB
02. Foundations of the Fourier transform/2. Complex numbers.mp431.94 MB
02. Foundations of the Fourier transform/2. Complex numbers.vtt15.74 KB
02. Foundations of the Fourier transform/3. xkcd explanation of why we need complex numbers.html121 B
02. Foundations of the Fourier transform/4. Euler's formula e^ik.mp442.19 MB
02. Foundations of the Fourier transform/4. Euler's formula e^ik.vtt10.21 KB
02. Foundations of the Fourier transform/5. Sine waves and complex sine waves.mp442.43 MB
02. Foundations of the Fourier transform/5. Sine waves and complex sine waves.vtt15.44 KB
02. Foundations of the Fourier transform/6. Dot product.mp437.36 MB
02. Foundations of the Fourier transform/6. Dot product.vtt19.17 KB
02. Foundations of the Fourier transform/7. Complex dot product.mp433.67 MB
02. Foundations of the Fourier transform/7. Complex dot product.vtt10.29 KB
03. The discrete Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html69 B
03. The discrete Fourier transform/1. Fourier_DTFT.zip276.01 KB
03. The discrete Fourier transform/10. Averaging Fourier coefficients.mp426.48 MB
03. The discrete Fourier transform/10. Averaging Fourier coefficients.vtt10.73 KB
03. The discrete Fourier transform/11. The DC (zero frequency) component.mp417.69 MB
03. The discrete Fourier transform/11. The DC (zero frequency) component.vtt8.91 KB
03. The discrete Fourier transform/12. Amplitude spectrum vs. power spectrum.mp416.34 MB
03. The discrete Fourier transform/12. Amplitude spectrum vs. power spectrum.vtt7.79 KB
03. The discrete Fourier transform/13. A note about terminology of Fourier features.mp415.38 MB
03. The discrete Fourier transform/13. A note about terminology of Fourier features.vtt5.97 KB
03. The discrete Fourier transform/2. How the discrete Fourier transform works.mp441.04 MB
03. The discrete Fourier transform/2. How the discrete Fourier transform works.vtt14.07 KB
03. The discrete Fourier transform/3. Converting indices to frequencies.mp425.55 MB
03. The discrete Fourier transform/3. Converting indices to frequencies.vtt9.81 KB
03. The discrete Fourier transform/4. Converting indices to frequencies part 2.mp430.41 MB
03. The discrete Fourier transform/4. Converting indices to frequencies part 2.vtt16.6 KB
03. The discrete Fourier transform/5. Shortcut Converting indices to frequencies.mp455.7 MB
03. The discrete Fourier transform/5. Shortcut Converting indices to frequencies.vtt13.08 KB
03. The discrete Fourier transform/6. Normalized time vector.mp434.35 MB
03. The discrete Fourier transform/6. Normalized time vector.vtt11.8 KB
03. The discrete Fourier transform/7. Positive and negative frequencies.mp48.78 MB
03. The discrete Fourier transform/7. Positive and negative frequencies.vtt5.39 KB
03. The discrete Fourier transform/8. Accurate scaling of Fourier coefficients.mp438.5 MB
03. The discrete Fourier transform/8. Accurate scaling of Fourier coefficients.vtt7.69 KB
03. The discrete Fourier transform/9. Interpreting phase values.mp410.02 MB
03. The discrete Fourier transform/9. Interpreting phase values.vtt5.66 KB
04. The discrete inverse Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html50 B
04. The discrete inverse Fourier transform/1. Fourier_inverse.zip178.04 KB
04. The discrete inverse Fourier transform/2. How and why it works.mp437.35 MB
04. The discrete inverse Fourier transform/2. How and why it works.vtt12.5 KB
04. The discrete inverse Fourier transform/3. Inverse Fourier transform for bandstop filtering.mp453.88 MB
04. The discrete inverse Fourier transform/3. Inverse Fourier transform for bandstop filtering.vtt8.71 KB
05. The fast Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html93 B
05. The fast Fourier transform/1. Fourier_FFT.zip190.78 KB
05. The fast Fourier transform/2. How it works, speed tests.mp422.68 MB
05. The fast Fourier transform/2. How it works, speed tests.vtt8.5 KB
05. The fast Fourier transform/3. The fast inverse Fourier transform.mp48.06 MB
05. The fast Fourier transform/3. The fast inverse Fourier transform.vtt2.65 KB
05. The fast Fourier transform/4. The perfection of the Fourier transform.mp431.46 MB
05. The fast Fourier transform/4. The perfection of the Fourier transform.vtt7.47 KB
05. The fast Fourier transform/5. Using the fft on matrices.mp458.08 MB
05. The fast Fourier transform/5. Using the fft on matrices.vtt8.81 KB
06. Frequency resolution and zero padding/1. Course materials (reader, MATLAB code, Python code, exercises).html59 B
06. Frequency resolution and zero padding/1. Fourier_freqres0pad.zip192.96 KB
06. Frequency resolution and zero padding/2. Sampling and frequency resolution.mp436.98 MB
06. Frequency resolution and zero padding/2. Sampling and frequency resolution.vtt19.4 KB
06. Frequency resolution and zero padding/3. Time-domain zero padding.mp473.39 MB
06. Frequency resolution and zero padding/3. Time-domain zero padding.vtt13.14 KB
06. Frequency resolution and zero padding/4. Frequency-domain zero padding.mp420.84 MB
06. Frequency resolution and zero padding/4. Frequency-domain zero padding.vtt9.18 KB
06. Frequency resolution and zero padding/5. Sampling rate vs. signal length.mp426.76 MB
06. Frequency resolution and zero padding/5. Sampling rate vs. signal length.vtt11.05 KB
06. Frequency resolution and zero padding/6. Course tangent self-accountability in online learning.mp49.45 MB
06. Frequency resolution and zero padding/6. Course tangent self-accountability in online learning.vtt3.72 KB
07. Aliasing, stationarity, and violations/1. Course materials (reader, MATLAB code, Python code, exercises).html69 B
07. Aliasing, stationarity, and violations/1. Fourier_aliasStation.zip1.28 MB
07. Aliasing, stationarity, and violations/2. Aliasing.mp431.27 MB
07. Aliasing, stationarity, and violations/2. Aliasing.vtt11.44 KB
07. Aliasing, stationarity, and violations/3. Signal stationarity and non-stationarities.mp422.59 MB
07. Aliasing, stationarity, and violations/3. Signal stationarity and non-stationarities.vtt6.39 KB
07. Aliasing, stationarity, and violations/4. Effects of non-stationarities on the power spectrum.mp4126.88 MB
07. Aliasing, stationarity, and violations/4. Effects of non-stationarities on the power spectrum.vtt18.98 KB
07. Aliasing, stationarity, and violations/5. Solution to understanding nonstationary time series.mp470.6 MB
07. Aliasing, stationarity, and violations/5. Solution to understanding nonstationary time series.vtt16.13 KB
07. Aliasing, stationarity, and violations/6. Windowing and Welch's method.mp431.13 MB
07. Aliasing, stationarity, and violations/6. Windowing and Welch's method.vtt12.03 KB
07. Aliasing, stationarity, and violations/7. Instantaneous frequency.mp439.71 MB
07. Aliasing, stationarity, and violations/7. Instantaneous frequency.vtt14.02 KB
08. 2D Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html69 B
08. 2D Fourier transform/1. Fourier_2D.zip109.83 KB
08. 2D Fourier transform/2. How the 2D FFT works.mp485.82 MB
08. 2D Fourier transform/2. How the 2D FFT works.vtt12.88 KB
09. Applications of the Fourier transform/1. Course materials (reader, MATLAB code, Python code, exercises).html75 B
09. Applications of the Fourier transform/1. Fourier_apps.zip1.15 MB
09. Applications of the Fourier transform/2. Rhythmicity in walking (gait).mp417.19 MB
09. Applications of the Fourier transform/2. Rhythmicity in walking (gait).vtt7.2 KB
09. Applications of the Fourier transform/3. Rhythmicity in electrical brain waves.mp425.22 MB

Trackers

No trackers found.