Principles of Signals and Systems

Principles of Signals and Systems

Principles of Signals and Systems - IITK via YouTube Direct link

Example Problems LTI Systems-II

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16 of 76

Example Problems LTI Systems-II

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Principles of Signals and Systems

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  1. 1 Introduction - Principles of Signals and Systems - Prof. Aditya K. Jagannatham
  2. 2 Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification
  3. 3 Analog and Digital Signals
  4. 4 Energy and Power Signals
  5. 5 Real Exponential Signals
  6. 6 Memory/Memory-less and Causal/ Non-Causal Systems
  7. 7 Properties of Linear Systems
  8. 8 Example Problems-1
  9. 9 Example Problems-2
  10. 10 Example Problem-3
  11. 11 Properties and Analysis of LTI Systems-I
  12. 12 Properties and Analysis of LTI Systems-II
  13. 13 Properties and Analysis of LTI Systems-III
  14. 14 Properties of Discrete Time LTI Systems
  15. 15 Example Problems LTI Systems-I
  16. 16 Example Problems LTI Systems-II
  17. 17 Example Problems DT-LTI Systems
  18. 18 Laplace Transform
  19. 19 Laplace Transform Properties-I
  20. 20 Laplace Transform Properties-II
  21. 21 Laplace Transform of LTI Systems
  22. 22 Laplace Transform Example Problems-I
  23. 23 Laplace Transform Example Problems-II
  24. 24 Laplace Transform of RL, RC Circuit
  25. 25 Z-Transform
  26. 26 Z-Transform Properties-I
  27. 27 Z-Transform Properties-II
  28. 28 Z-Transform of LTI Systems
  29. 29 Z-Transform Examples-I
  30. 30 Z-Transform Examples-II
  31. 31 Z-Transform Examples-III
  32. 32 Z-Transform Examples-IV
  33. 33 Inverse Z-Transform
  34. 34 Fourier Analysis Introduction
  35. 35 Complex Exponential and Trigonometric FS
  36. 36 Conditions for Existence of FS
  37. 37 Fourier Transform (FT) Introduction
  38. 38 Properties of Fourier Transform-I
  39. 39 Properties of Fourier Transform-II
  40. 40 Fourier Transform – Parseval’s Relation
  41. 41 Fourier Transform of LTI Systems
  42. 42 FT- Ideal and Non-Ideal Filters
  43. 43 Fourier Analysis Examples-I
  44. 44 Fourier Analysis Examples-II
  45. 45 Fourier Analysis Examples-III
  46. 46 Fourier Analysis Examples-IV
  47. 47 Fourier Analysis Examples-V
  48. 48 Fourier Analysis Examples-VI
  49. 49 Fourier Analysis Bode Plot-I
  50. 50 Fourier Analysis Bode Plot-II
  51. 51 Fourier Transform Examples: Filtering – Ideal Low Pass Filter
  52. 52 Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal
  53. 53 Sampling: Spectrum of Sampled Signal, Nyquist Criterion
  54. 54 Sampling: Reconstruction from Sampled Signal
  55. 55 Fourier Analysis of Discrete Time Signals and Systems – Introduction
  56. 56 Fourier Analysis of Discrete Time Signals – Duality, Parseval’s Theorem
  57. 57 Definition, Inverse DTFT, Convergence,DTFT and z-Transform, DTFT
  58. 58 DTFT Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality
  59. 59 DTFT Differentiation in Frequency, Difference in Time, Convolution, Multiplication
  60. 60 DTFT: Discrete Time LTI Systems – LTI Systems Characterized by Difference Equations
  61. 61 Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties
  62. 62 Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation
  63. 63 Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT
  64. 64 Example Problems: DTFT of Cosine, Unit Step Signals
  65. 65 DTFT Example Problems-III
  66. 66 DTFT Example Problems-IV
  67. 67 DTFT Example Problems-V
  68. 68 DFT Example Problems-I
  69. 69 Example Problems: DFT, IDFT in Matrix form
  70. 70 Group/ Phase Delay – Part I
  71. 71 Group/ Phase Delay – Part II
  72. 72 IIR Filter Structures: DF–I, DF–II
  73. 73 IIR Filter Structures: Transpose Form
  74. 74 IIR Filter Structures: Example
  75. 75 IIR Filter Structures: Cascade Form
  76. 76 IIR Filter: Parallel Form – I & II

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