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Data-Driven Science and Engineering

Data-Driven Science and Engineering

Steve Brunton via YouTube Direct link

Data-driven nonlinear aeroelastic models of morphing wings for control

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Data-driven nonlinear aeroelastic models of morphing wings for control

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Data-Driven Science and Engineering

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  1. 1 Singular Value Decomposition (SVD): Overview
  2. 2 Singular Value Decomposition (SVD): Mathematical Overview
  3. 3 Singular Value Decomposition (SVD): Matrix Approximation
  4. 4 Singular Value Decomposition (SVD): Dominant Correlations
  5. 5 SVD: Image Compression [Matlab]
  6. 6 SVD: Image Compression [Python]
  7. 7 The Frobenius Norm for Matrices
  8. 8 SVD Method of Snapshots
  9. 9 Matrix Completion and the Netflix Prize
  10. 10 Unitary Transformations
  11. 11 Unitary Transformations and the SVD [Matlab]
  12. 12 Unitary Transformations and the SVD [Python]
  13. 13 Linear Systems of Equations, Least Squares Regression, Pseudoinverse
  14. 14 Least Squares Regression and the SVD
  15. 15 Linear Systems of Equations
  16. 16 Linear Regression
  17. 17 Linear Regression 1 [Matlab]
  18. 18 Linear Regression 2 [Matlab]
  19. 19 Linear Regression 1 [Python]
  20. 20 Linear Regression 2 [Python]
  21. 21 Linear Regression 3 [Python]
  22. 22 Principal Component Analysis (PCA)
  23. 23 Principal Component Analysis (PCA) [Matlab]
  24. 24 Principal Component Analysis (PCA) 1 [Python]
  25. 25 Principal Component Analysis (PCA) 2 [Python]
  26. 26 SVD: Eigenfaces 1 [Matlab]
  27. 27 SVD: Eigenfaces 2 [Matlab]
  28. 28 SVD: Eigenfaces 3 [Matlab]
  29. 29 SVD: Eigenfaces 4 [Matlab]
  30. 30 SVD: Eigen Action Heros [Matlab]
  31. 31 SVD: Eigenfaces 1 [Python]
  32. 32 SVD: Eigenfaces 2 [Python]
  33. 33 SVD: Eigenfaces 3 [Python]
  34. 34 SVD and Optimal Truncation
  35. 35 SVD: Optimal Truncation [Matlab]
  36. 36 SVD: Optimal Truncation [Python]
  37. 37 SVD and Alignment: A Cautionary Tale
  38. 38 SVD: Importance of Alignment [Matlab]
  39. 39 SVD: Importance of Alignment [Python]
  40. 40 Randomized Singular Value Decomposition (SVD)
  41. 41 Randomized SVD: Power Iterations and Oversampling
  42. 42 Randomized SVD Code [Matlab]
  43. 43 Randomized SVD Code [Python]
  44. 44 Fourier Analysis: Overview
  45. 45 Fourier Series: Part 1
  46. 46 Fourier Series: Part 2
  47. 47 Inner Products in Hilbert Space
  48. 48 Complex Fourier Series
  49. 49 Fourier Series [Matlab]
  50. 50 Fourier Series [Python]
  51. 51 Fourier Series and Gibbs Phenomena [Matlab]
  52. 52 Fourier Series and Gibbs Phenomena [Python]
  53. 53 The Fourier Transform
  54. 54 The Fourier Transform and Derivatives
  55. 55 The Fourier Transform and Convolution Integrals
  56. 56 Parseval's Theorem
  57. 57 Solving the Heat Equation with the Fourier Transform
  58. 58 The Discrete Fourier Transform (DFT)
  59. 59 Computing the DFT Matrix
  60. 60 The Fast Fourier Transform (FFT)
  61. 61 The Fast Fourier Transform Algorithm
  62. 62 Denoising Data with FFT [Matlab]
  63. 63 Denoising Data with FFT [Python]
  64. 64 Computing Derivatives with FFT [Matlab]
  65. 65 Computing Derivatives with FFT [Python]
  66. 66 Solving PDEs with the FFT [Matlab]
  67. 67 Solving PDEs with the FFT [Python]
  68. 68 Solving PDEs with the FFT, Part 2 [Matlab]
  69. 69 Solving PDEs with the FFT, Part 2 [Python]
  70. 70 The Spectrogram and the Gabor Transform
  71. 71 Spectrogram Examples [Matlab]
  72. 72 Spectrogram Examples [Python]
  73. 73 Uncertainty Principles and the Fourier Transform
  74. 74 Wavelets and Multiresolution Analysis
  75. 75 Image Compression and the FFT
  76. 76 Image Compression with Wavelets (Examples in Python)
  77. 77 Image Compression with the FFT (Examples in Matlab)
  78. 78 Image Compression and Wavelets (Examples in Matlab)
  79. 79 Image Compression and the FFT (Examples in Python)
  80. 80 The Laplace Transform: A Generalized Fourier Transform
  81. 81 Laplace Transforms and Differential Equations
  82. 82 Laplace Transform Examples
  83. 83 Sparsity and Compression: An Overview
  84. 84 Data-driven Modeling of Traveling Waves
  85. 85 Machine Learning for Fluid Mechanics
  86. 86 Data-Driven Resolvent Analysis
  87. 87 Data-driven nonlinear aeroelastic models of morphing wings for control
  88. 88 Model Predictive Control
  89. 89 Robust Principal Component Analysis (RPCA)
  90. 90 Deep Learning of Hierarchical Multiscale Differential Equation Time Steppers
  91. 91 Reinforcement Learning: Machine Learning Meets Control Theory
  92. 92 Deep Reinforcement Learning: Neural Networks for Learning Control Laws
  93. 93 Deep Reinforcement Learning for Fluid Dynamics and Control
  94. 94 Overview of Deep Reinforcement Learning Methods
  95. 95 Reinforcement Learning Series: Overview of Methods
  96. 96 Model Based Reinforcement Learning: Policy Iteration, Value Iteration, and Dynamic Programming
  97. 97 Q-Learning: Model Free Reinforcement Learning and Temporal Difference Learning
  98. 98 Nonlinear Control: Hamilton Jacobi Bellman (HJB) and Dynamic Programming

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