Udemy Digital Signal Processing DSP From Ground Up in 2021 En | D66D0A8C5BEB7722A32DE056B281243941F4379E

Udemy Digital Signal Processing DSP From Ground Up in 2021 En

Name	[Udemy] Digital Signal Processing (DSP) From Ground Up in C (2021) [En]	DOWNLOAD Copy Link
Total Size	5.6 GB
Total Files	229
Hash	D66D0A8C5BEB7722A32DE056B281243941F4379E

/2. Getting started with gnuplot/
1. Plotting signals with gnuplot.vtt	0.0 KB
1. Plotting signals with gnuplot.mp4	19.0 MB
1.1 output_rex.zip.zip	1.1 KB
1.2 output_imx.zip.zip	1.2 KB
2. Plotting multiple signals in the same window.mp4	41.3 MB
2. Plotting multiple signals in the same window.vtt	7.7 KB
/14. Designing Windowed-Sinc Filters/
7. Coding Developing the Low-pass Windowed-Sinc Filter Algorithm (Part II).mp4	227.0 MB
1. Introduction to Windowed-Sinc Filters.mp4	13.8 MB
1. Introduction to Windowed-Sinc Filters.vtt	0.9 KB
2. The Sinc Function and the Truncated Sinc Filter.mp4	58.1 MB
2. The Sinc Function and the Truncated Sinc Filter.vtt	3.8 KB
3. The Blackman window.mp4	17.3 MB
3. The Blackman window.vtt	1.2 KB
4. The Hamming and Blackman window equations.mp4	45.6 MB
4. The Hamming and Blackman window equations.vtt	3.0 KB
5. Designing the Windowed Sinc filter.mp4	45.8 MB
5. Designing the Windowed Sinc filter.vtt	2.9 KB
6. Coding Developing the Low-pass Windowed-Sinc Filter Algorithm (Part I).mp4	112.6 MB
6. Coding Developing the Low-pass Windowed-Sinc Filter Algorithm (Part I).vtt	11.9 KB
7. Coding Developing the Low-pass Windowed-Sinc Filter Algorithm (Part II).vtt	24.3 KB
8. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part I).mp4	80.1 MB
8. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part I).vtt	9.5 KB
9. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part II).mp4	53.4 MB
9. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part II).vtt	5.1 KB
10. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part III).mp4	68.3 MB
10. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part III).vtt	7.2 KB
11. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part IV).mp4	105.2 MB
11. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part IV).vtt	12.9 KB
12. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part V).mp4	34.1 MB
12. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part V).vtt	4.6 KB
/1. Set up/
2. Overview of CodeBlocks.mp4	23.9 MB
2. Overview of CodeBlocks.vtt	5.0 KB
3. Downloading gnuplot.mp4	19.3 MB
3. Downloading gnuplot.vtt	3.2 KB
4. Installing gnuplot.mp4	16.0 MB
4. Installing gnuplot.vtt	3.2 KB
5. Overview of gnuplot.mp4	20.7 MB
5. Overview of gnuplot.vtt	5.1 KB
5.1 input_signal.zip.zip	0.3 KB
1. Setting up an Integrated Development Environment (IDE).mp4	16.5 MB
1. Setting up an Integrated Development Environment (IDE).vtt	3.3 KB
/3. Signal Statistics and Noise/
1. Nature of a signal.mp4	44.8 MB
1. Nature of a signal.vtt	2.6 KB
2. Mean and Standard Deviation.mp4	76.7 MB
2. Mean and Standard Deviation.vtt	4.7 KB
3. Signal-to-Noise ratio.mp4	17.4 MB
3. Signal-to-Noise ratio.vtt	1.1 KB
4. Coding Developing the Signal Mean algorithm.mp4	71.0 MB
4. Coding Developing the Signal Mean algorithm.vtt	9.1 KB
4.1 waveforms.zip.zip	0.5 KB
5. Coding Computing the Signal Mean.mp4	32.9 MB
5. Coding Computing the Signal Mean.vtt	4.3 KB
5.1 Signal_Mean.zip.zip	14.4 KB
6. Coding Developing the Signal Variance algorithm.mp4	84.7 MB
6. Coding Developing the Signal Variance algorithm.vtt	10.4 KB
6.1 SignalVariance.zip.zip	15.6 KB
7. Coding Developing the Signal Standard Deviation algorithm.mp4	32.5 MB
7. Coding Developing the Signal Standard Deviation algorithm.vtt	4.7 KB
7.1 Signal_Standard_deviation.zip.zip	16.3 KB
/4. Quantization and The Sampling Theorem/
1. Quantization.mp4	46.1 MB
1. Quantization.vtt	2.8 KB
2. Nyquist Theorem ( Sampling Theorem ).mp4	41.3 MB
2. Nyquist Theorem ( Sampling Theorem ).vtt	2.6 KB
3. The Passive Low-Pass Filter.mp4	72.2 MB
3. The Passive Low-Pass Filter.vtt	6.9 KB
4. The Passive High-Pass Filter.mp4	30.3 MB
4. The Passive High-Pass Filter.vtt	2.8 KB
5. The Modified Sallen-Key Filter.mp4	43.0 MB
5. The Modified Sallen-Key Filter.vtt	2.7 KB
6. The Bessel, Chebyshev and Butterworth filters.mp4	58.0 MB
6. The Bessel, Chebyshev and Butterworth filters.vtt	3.8 KB
7. Comparing the performance of the Bessel, Chebyshev and Butterworth filters.mp4	44.4 MB
7. Comparing the performance of the Bessel, Chebyshev and Butterworth filters.vtt	3.2 KB
8. Information encoding Time-domain and frequency-domain encoding.mp4	27.1 MB
8. Information encoding Time-domain and frequency-domain encoding.vtt	1.6 KB
/5. Linear Systems and Superposition/
1. Notice.html	0.3 KB
2. Signal naming conventions.mp4	23.9 MB
2. Signal naming conventions.vtt	1.6 KB
3. System Homogeneity.mp4	28.4 MB
3. System Homogeneity.vtt	1.7 KB
4. System Additivity.mp4	10.1 MB
4. System Additivity.vtt	0.6 KB
5. System Shift Invariance.mp4	20.3 MB
5. System Shift Invariance.vtt	1.3 KB
6. Synthesis and Decomposition.mp4	39.8 MB
6. Synthesis and Decomposition.vtt	2.4 KB
7. Impulse Decomposition.mp4	39.2 MB
7. Impulse Decomposition.vtt	2.5 KB
8. Step Decomposition.mp4	33.3 MB
8. Step Decomposition.vtt	2.2 KB
/6. Convolution/
1. Introduction to Convolution.mp4	28.3 MB
1. Introduction to Convolution.vtt	1.6 KB
2. The Delta Function and Impulse Response.mp4	40.6 MB
2. The Delta Function and Impulse Response.vtt	2.6 KB
3. The Convolution Kernel.mp4	119.0 MB
3. The Convolution Kernel.vtt	7.1 KB
4. The Convolution Kernel (Part II).mp4	16.0 MB
4. The Convolution Kernel (Part II).vtt	1.1 KB
5. The Output side analysis and the convolution sum equation.mp4	79.4 MB
5. The Output side analysis and the convolution sum equation.vtt	5.0 KB
6. Coding Developing the Convolution algorithm (Part I ).mp4	99.3 MB
6. Coding Developing the Convolution algorithm (Part I ).vtt	11.6 KB
6.1 impulse_response.zip.zip	0.4 KB
7. Coding Developing the Convolution algorithm (Part I I).mp4	44.4 MB
7. Coding Developing the Convolution algorithm (Part I I).vtt	5.4 KB
8. Coding Developing the Convolution algorithm (Part III).mp4	57.7 MB
8. Coding Developing the Convolution algorithm (Part III).vtt	7.0 KB
9. Coding Developing the Convolution algorithm (Part IV).mp4	97.4 MB
9. Coding Developing the Convolution algorithm (Part IV).vtt	10.9 KB
9.1 Convolution.zip.zip	19.6 KB
10. The Identity property of convolution.mp4	26.8 MB
10. The Identity property of convolution.vtt	1.8 KB
11. The Running Sum and First Difference.mp4	36.6 MB
11. The Running Sum and First Difference.vtt	2.3 KB
12. Coding Developing the Running Sum algorithm.mp4	99.7 MB
12. Coding Developing the Running Sum algorithm.vtt	12.9 KB
12.1 Running Sum.zip.zip	18.5 KB
/7. Fourier Transsform/
1. Introduction to Fourier Analysis.mp4	24.6 MB
1. Introduction to Fourier Analysis.vtt	1.6 KB
2. Introduction to Discrete Fourier Transform.mp4	88.5 MB
2. Introduction to Discrete Fourier Transform.vtt	5.5 KB
3. DFT Basis Functions.mp4	60.8 MB
3. DFT Basis Functions.vtt	3.8 KB
4. Deducing the Inverse DFT.mp4	58.1 MB
4. Deducing the Inverse DFT.vtt	3.6 KB
5. Calculating the Discrete Fourier Transform (DFT).mp4	68.1 MB
5. Calculating the Discrete Fourier Transform (DFT).vtt	4.5 KB
6. Code Developing the DFT algorithm (Part I).mp4	70.5 MB
6. Code Developing the DFT algorithm (Part I).vtt	8.4 KB
7. Code Developing the DFT algorithm (Part II).mp4	102.7 MB
7. Code Developing the DFT algorithm (Part II).vtt	9.4 KB
8. Code Developing the DFT algorithm (Part III).mp4	31.2 MB
8. Code Developing the DFT algorithm (Part III).vtt	4.3 KB
8.1 DFT.zip.zip	19.2 KB
9. Coding Developing the Inverse DFT algorithm (Part I).mp4	41.7 MB
9. Coding Developing the Inverse DFT algorithm (Part I).vtt	5.3 KB
10. Coding Developing the Inverse DFT algorithm (Part II).mp4	83.8 MB
10. Coding Developing the Inverse DFT algorithm (Part II).vtt	7.4 KB
11. Coding Developing the Inverse DFT algorithm (Part III).mp4	37.5 MB
11. Coding Developing the Inverse DFT algorithm (Part III).vtt	5.3 KB
11.1 IDFT.zip.zip	21.7 KB
12. Coding Computing the DFT and IDFT of an ECG signal (Part I).mp4	52.0 MB
12. Coding Computing the DFT and IDFT of an ECG signal (Part I).vtt	5.0 KB
12.1 ecg.zip.zip	0.8 KB
13. Coding Computing the DFT and IDFT of an ECG signal (Part II).mp4	50.5 MB
13. Coding Computing the DFT and IDFT of an ECG signal (Part II).vtt	6.7 KB
13.1 IDFT_ecg.zip.zip	25.2 KB
14. Coding Identifying the frequencies present in the DFT plot.mp4	76.2 MB
14. Coding Identifying the frequencies present in the DFT plot.vtt	9.9 KB
15. Symmetry between Time domain and frequency domain -Duality.mp4	16.4 MB
15. Symmetry between Time domain and frequency domain -Duality.vtt	1.0 KB
16. Polar Notation.mp4	50.2 MB
16. Polar Notation.vtt	3.3 KB
17. Coding Rectangular notation to the polar notation ( Part I).mp4	94.0 MB
17. Coding Rectangular notation to the polar notation ( Part I).vtt	9.8 KB
17.1 _ecg_320.zip.zip	0.9 KB
18. Coding Rectangular notation to the polar notation ( Part II).mp4	88.7 MB
18. Coding Rectangular notation to the polar notation ( Part II).vtt	8.6 KB
18.1 Rect_to_Polar.zip.zip	22.9 KB
19. Introduction to Spectral Analysis.mp4	43.1 MB
19. Introduction to Spectral Analysis.vtt	2.9 KB
20. The Frequency Response.mp4	64.7 MB
20. The Frequency Response.vtt	4.3 KB
/8. Complex Numbers/
1. The Complex Number System.mp4	37.8 MB
1. The Complex Number System.vtt	2.4 KB
2. Polar Representation of Complex Numbers.mp4	28.6 MB
2. Polar Representation of Complex Numbers.vtt	1.7 KB
3. Euler's Relation.mp4	25.6 MB
3. Euler's Relation.vtt	1.7 KB
4. Representation of Sinusoids.mp4	36.0 MB
4. Representation of Sinusoids.vtt	2.0 KB
5. Representing Systems.mp4	28.9 MB
5. Representing Systems.vtt	1.6 KB
/9. Complex Fourier Transform/
1. Introduction to Complex Fourier Transform.mp4	31.0 MB
1. Introduction to Complex Fourier Transform.vtt	1.9 KB
2. Mathematical Equivalence.mp4	30.1 MB
2. Mathematical Equivalence.vtt	1.8 KB
3. The Complex DFT Equation.mp4	11.2 MB
3. The Complex DFT Equation.vtt	0.7 KB
4. Comparing Real DFT and Complex DFT.mp4	60.7 MB
4. Comparing Real DFT and Complex DFT.vtt	3.5 KB
5. Coding Developing the Complex DFT equation (Part I).mp4	93.3 MB
5. Coding Developing the Complex DFT equation (Part I).vtt	9.5 KB
5.1 _20hz_sig.zip.zip	0.9 KB
6. Coding Developing the Complex DFT equation (Part II ).mp4	66.5 MB
6. Coding Developing the Complex DFT equation (Part II ).vtt	6.7 KB
6.1 ComplexDFT.zip.zip	26.5 KB
/10. Fast Fourier Transform (FFT)/
1. An Overview of how FFT works..mp4	148.1 MB
1. An Overview of how FFT works..vtt	8.8 KB
2. Understanding the complexity of calculating DFT directly.mp4	47.5 MB
2. Understanding the complexity of calculating DFT directly.vtt	2.7 KB
3. How the Decimation -in-Time FFT Algorithm works.mp4	169.8 MB
3. How the Decimation -in-Time FFT Algorithm works.vtt	9.3 KB
/11. Digital Filter Design/
1. Introduction to Digital Filters.mp4	59.8 MB
1. Introduction to Digital Filters.vtt	3.6 KB
2. The Filter Kernel.mp4	33.0 MB
2. The Filter Kernel.vtt	2.0 KB
3. The Impulse,Step and Frequency response.mp4	23.1 MB
3. The Impulse,Step and Frequency response.vtt	1.5 KB
4. Understanding the Logarithmic scale and decibels.mp4	53.9 MB
4. Understanding the Logarithmic scale and decibels.vtt	3.2 KB
5. Information representations of a signal.mp4	73.1 MB
5. Information representations of a signal.vtt	4.3 KB
6. Time domain parameters.mp4	70.4 MB
6. Time domain parameters.vtt	5.1 KB
7. Frequency domain parameters.mp4	23.4 MB
7. Frequency domain parameters.vtt	1.7 KB
8. Designing digital filters using the spectral inversion method.mp4	83.1 MB
8. Designing digital filters using the spectral inversion method.vtt	5.1 KB
9. Designing digital filters using the spectral reversal method.mp4	50.6 MB
9. Designing digital filters using the spectral reversal method.vtt	3.2 KB
10. Classification of digital filters.mp4	30.8 MB
10. Classification of digital filters.vtt	2.1 KB
/12. Designing Finite Impulse Response FIR) Filters/
1. The Moving Average Filter.mp4	73.8 MB
1. The Moving Average Filter.vtt	4.4 KB
2. The Multiple Pass Moving Average Filter.mp4	41.2 MB
2. The Multiple Pass Moving Average Filter.vtt	2.3 KB
3. The Recursive Moving Average Filter.mp4	83.6 MB
3. The Recursive Moving Average Filter.vtt	4.7 KB
/13. Designing Infinite Impulse Response (IIR) Filters/
1. Introduction to Recursive Filters.mp4	13.3 MB
1. Introduction to Recursive Filters.vtt	0.8 KB
2. The Recursion Equation.mp4	31.4 MB
2. The Recursion Equation.vtt	2.0 KB
3. The Single-Pole Recursive Filter.mp4	49.4 MB
3. The Single-Pole Recursive Filter.vtt	3.2 KB
4. Digital Chebyshev Filters.mp4	33.5 MB
4. Digital Chebyshev Filters.vtt	2.3 KB
/15. FFT Convolution/
1. Understanding how the Overlap-Add method works.mp4	71.9 MB
1. Understanding how the Overlap-Add method works.vtt	4.9 KB
Total files 229