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[Tutorialsplanet.NET] Udemy - Digital Signal Processing (DSP) From Ground Up™ in C

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视频 2021-10-4 06:10 2024-12-25 04:10 314 5.21 GB 105
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文件列表
  1. 1. Set up/1. Setting up an Integrated Development Environment (IDE).mp415.73MB
  2. 1. Set up/2. Overview of CodeBlocks.mp422.78MB
  3. 1. Set up/3. Downloading gnuplot.mp418.37MB
  4. 1. Set up/4. Installing gnuplot.mp415.23MB
  5. 1. Set up/5. Overview of gnuplot.mp419.72MB
  6. 10. Fast Fourier Transform (FFT)/1. An Overview of how FFT works..mp4141.2MB
  7. 10. Fast Fourier Transform (FFT)/2. Understanding the complexity of calculating DFT directly.mp445.33MB
  8. 10. Fast Fourier Transform (FFT)/3. How the Decimation -in-Time FFT Algorithm works.mp4161.94MB
  9. 11. Digital Filter Design/1. Introduction to Digital Filters.mp457MB
  10. 11. Digital Filter Design/10. Classification of digital filters.mp429.34MB
  11. 11. Digital Filter Design/2. The Filter Kernel.mp431.5MB
  12. 11. Digital Filter Design/3. The Impulse,Step and Frequency response.mp422.04MB
  13. 11. Digital Filter Design/4. Understanding the Logarithmic scale and decibels.mp451.41MB
  14. 11. Digital Filter Design/5. Information representations of a signal.mp469.72MB
  15. 11. Digital Filter Design/6. Time domain parameters.mp467.16MB
  16. 11. Digital Filter Design/7. Frequency domain parameters.mp422.36MB
  17. 11. Digital Filter Design/8. Designing digital filters using the spectral inversion method.mp479.26MB
  18. 11. Digital Filter Design/9. Designing digital filters using the spectral reversal method.mp448.29MB
  19. 12. Designing Finite Impulse Response FIR) Filters/1. The Moving Average Filter.mp470.34MB
  20. 12. Designing Finite Impulse Response FIR) Filters/2. The Multiple Pass Moving Average Filter.mp439.27MB
  21. 12. Designing Finite Impulse Response FIR) Filters/3. The Recursive Moving Average Filter.mp479.72MB
  22. 13. Designing Infinite Impulse Response (IIR) Filters/1. Introduction to Recursive Filters.mp412.72MB
  23. 13. Designing Infinite Impulse Response (IIR) Filters/2. The Recursion Equation.mp429.95MB
  24. 13. Designing Infinite Impulse Response (IIR) Filters/3. The Single-Pole Recursive Filter.mp447.09MB
  25. 13. Designing Infinite Impulse Response (IIR) Filters/4. Digital Chebyshev Filters.mp431.96MB
  26. 14. Designing Windowed-Sinc Filters/1. Introduction to Windowed-Sinc Filters.mp413.13MB
  27. 14. Designing Windowed-Sinc Filters/10. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part III).mp465.11MB
  28. 14. Designing Windowed-Sinc Filters/11. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part IV).mp4100.34MB
  29. 14. Designing Windowed-Sinc Filters/12. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part V).mp432.55MB
  30. 14. Designing Windowed-Sinc Filters/2. The Sinc Function and the Truncated Sinc Filter.mp455.45MB
  31. 14. Designing Windowed-Sinc Filters/3. The Blackman window.mp416.51MB
  32. 14. Designing Windowed-Sinc Filters/4. The Hamming and Blackman window equations.mp443.46MB
  33. 14. Designing Windowed-Sinc Filters/5. Designing the Windowed Sinc filter.mp443.65MB
  34. 14. Designing Windowed-Sinc Filters/6. Coding Developing the Low-pass Windowed-Sinc Filter Algorithm (Part I).mp4107.42MB
  35. 14. Designing Windowed-Sinc Filters/7. Coding Developing the Low-pass Windowed-Sinc Filter Algorithm (Part II).mp4216.53MB
  36. 14. Designing Windowed-Sinc Filters/8. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part I).mp476.35MB
  37. 14. Designing Windowed-Sinc Filters/9. Coding Developing the Band-pass Windowed-Sinc Filter Algorithm (Part II).mp450.93MB
  38. 15. FFT Convolution/1. Understanding how the Overlap-Add method works.mp468.56MB
  39. 2. Getting started with gnuplot/1. Plotting signals with gnuplot.mp418.16MB
  40. 2. Getting started with gnuplot/2. Plotting multiple signals in the same window.mp439.39MB
  41. 3. Signal Statistics and Noise/1. Nature of a signal.mp442.73MB
  42. 3. Signal Statistics and Noise/2. Mean and Standard Deviation.mp473.11MB
  43. 3. Signal Statistics and Noise/3. Signal-to-Noise ratio.mp416.57MB
  44. 3. Signal Statistics and Noise/4. Coding Developing the Signal Mean algorithm.mp467.68MB
  45. 3. Signal Statistics and Noise/5. Coding Computing the Signal Mean.mp431.36MB
  46. 3. Signal Statistics and Noise/6. Coding Developing the Signal Variance algorithm.mp480.75MB
  47. 3. Signal Statistics and Noise/7. Coding Developing the Signal Standard Deviation algorithm.mp430.98MB
  48. 4. Quantization and The Sampling Theorem/1. Quantization.mp443.96MB
  49. 4. Quantization and The Sampling Theorem/2. Nyquist Theorem ( Sampling Theorem ).mp439.35MB
  50. 4. Quantization and The Sampling Theorem/3. The Passive Low-Pass Filter.mp468.83MB
  51. 4. Quantization and The Sampling Theorem/4. The Passive High-Pass Filter.mp428.9MB
  52. 4. Quantization and The Sampling Theorem/5. The Modified Sallen-Key Filter.mp441MB
  53. 4. Quantization and The Sampling Theorem/6. The Bessel, Chebyshev and Butterworth filters.mp455.3MB
  54. 4. Quantization and The Sampling Theorem/7. Comparing the performance of the Bessel, Chebyshev and Butterworth filters.mp442.36MB
  55. 4. Quantization and The Sampling Theorem/8. Information encoding Time-domain and frequency-domain encoding.mp425.85MB
  56. 5. Linear Systems and Superposition/2. Signal naming conventions.mp422.77MB
  57. 5. Linear Systems and Superposition/3. System Homogeneity.mp427.11MB
  58. 5. Linear Systems and Superposition/4. System Additivity.mp49.63MB
  59. 5. Linear Systems and Superposition/5. System Shift Invariance.mp419.39MB
  60. 5. Linear Systems and Superposition/6. Synthesis and Decomposition.mp437.96MB
  61. 5. Linear Systems and Superposition/7. Impulse Decomposition.mp437.38MB
  62. 5. Linear Systems and Superposition/8. Step Decomposition.mp431.78MB
  63. 6. Convolution/1. Introduction to Convolution.mp427.03MB
  64. 6. Convolution/10. The Identity property of convolution.mp425.57MB
  65. 6. Convolution/11. The Running Sum and First Difference.mp434.91MB
  66. 6. Convolution/12. Coding Developing the Running Sum algorithm.mp495.06MB
  67. 6. Convolution/2. The Delta Function and Impulse Response.mp438.71MB
  68. 6. Convolution/3. The Convolution Kernel.mp4113.46MB
  69. 6. Convolution/4. The Convolution Kernel (Part II).mp415.24MB
  70. 6. Convolution/5. The Output side analysis and the convolution sum equation.mp475.75MB
  71. 6. Convolution/6. Coding Developing the Convolution algorithm (Part I ).mp494.68MB
  72. 6. Convolution/7. Coding Developing the Convolution algorithm (Part I I).mp442.39MB
  73. 6. Convolution/8. Coding Developing the Convolution algorithm (Part III).mp455.06MB
  74. 6. Convolution/9. Coding Developing the Convolution algorithm (Part IV).mp492.93MB
  75. 7. Fourier Transsform/1. Introduction to Fourier Analysis.mp423.42MB
  76. 7. Fourier Transsform/10. Coding Developing the Inverse DFT algorithm (Part II).mp479.92MB
  77. 7. Fourier Transsform/11. Coding Developing the Inverse DFT algorithm (Part III).mp435.77MB
  78. 7. Fourier Transsform/12. Coding Computing the DFT and IDFT of an ECG signal (Part I).mp449.57MB
  79. 7. Fourier Transsform/13. Coding Computing the DFT and IDFT of an ECG signal (Part II).mp448.2MB
  80. 7. Fourier Transsform/14. Coding Identifying the frequencies present in the DFT plot.mp472.69MB
  81. 7. Fourier Transsform/15. Symmetry between Time domain and frequency domain -Duality.mp415.67MB
  82. 7. Fourier Transsform/16. Polar Notation.mp447.89MB
  83. 7. Fourier Transsform/17. Coding Rectangular notation to the polar notation ( Part I).mp489.66MB
  84. 7. Fourier Transsform/18. Coding Rectangular notation to the polar notation ( Part II).mp484.58MB
  85. 7. Fourier Transsform/19. Introduction to Spectral Analysis.mp441.1MB
  86. 7. Fourier Transsform/2. Introduction to Discrete Fourier Transform.mp484.42MB
  87. 7. Fourier Transsform/20. The Frequency Response.mp461.68MB
  88. 7. Fourier Transsform/3. DFT Basis Functions.mp458MB
  89. 7. Fourier Transsform/4. Deducing the Inverse DFT.mp455.43MB
  90. 7. Fourier Transsform/5. Calculating the Discrete Fourier Transform (DFT).mp464.92MB
  91. 7. Fourier Transsform/6. Code Developing the DFT algorithm (Part I).mp467.25MB
  92. 7. Fourier Transsform/7. Code Developing the DFT algorithm (Part II).mp497.94MB
  93. 7. Fourier Transsform/8. Code Developing the DFT algorithm (Part III).mp429.73MB
  94. 7. Fourier Transsform/9. Coding Developing the Inverse DFT algorithm (Part I).mp439.76MB
  95. 8. Complex Numbers/1. The Complex Number System.mp436.04MB
  96. 8. Complex Numbers/2. Polar Representation of Complex Numbers.mp427.24MB
  97. 8. Complex Numbers/3. Euler's Relation.mp424.37MB
  98. 8. Complex Numbers/4. Representation of Sinusoids.mp434.3MB
  99. 8. Complex Numbers/5. Representing Systems.mp427.51MB
  100. 9. Complex Fourier Transform/1. Introduction to Complex Fourier Transform.mp429.53MB
  101. 9. Complex Fourier Transform/2. Mathematical Equivalence.mp428.71MB
  102. 9. Complex Fourier Transform/3. The Complex DFT Equation.mp410.7MB
  103. 9. Complex Fourier Transform/4. Comparing Real DFT and Complex DFT.mp457.92MB
  104. 9. Complex Fourier Transform/5. Coding Developing the Complex DFT equation (Part I).mp488.98MB
  105. 9. Complex Fourier Transform/6. Coding Developing the Complex DFT equation (Part II ).mp463.47MB
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