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Computer Vision In Python For Beginners (Theory & Projects) - AD-TEAM - 08-04-2025
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Computer Vision In Python For Beginners (Theory & Projects)
Last updated 11/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 10.64 GB | Duration: 27h 7m
Computer Vision-Become an ace of Computer Vision, Computer Vision for Apps using Python, OpenCV, TensorFlow, etc.
What you'll learn
• The introduction and importance of Computer Vision (CV).
• Why is CV such a popular field nowadays?
• The fundamental concepts from the absolute beginning with comprehensive unfolding with examples in Python.
• Practical explanation and live coding with Python.
• The concept of colored and black and white images with practice.
• Deep details of Computer Vision with examples of every concept from scratch.
• TensorFlow (Deep learning framework by Google).
• The use and applications of state-of-the-art Computer Vision (with implementations in state-of-the-art framework Numpy and TensorFlow).
• Theory and implementation of Panoramic images.
• Geometric transformations.
• Image Filtering with implementation in Python.
• Edge Detection, Shape Detection, and Corner Detection.
• Object Tracking and Object detection.
• 3D images.
• Building your own applications for change detection in the live feed of cameras by using Computer Vision Techniques using Python.
• Developing a complete project to make a very intelligent and efficient DVR using Python.
Requirements
• No prior knowledge is needed. You will start from the basics and slowly build your knowledge in computer vision.
• A willingness to learn and practice.
• Knowledge of Python will be a plus.
• Since we teach by practical implementations, practice is a must.
Description
Comprehensive Course Description:Computer vision (CV), a subfield of computer science, focuses on replicating the complex functionalities of the human visual system. In the CV process, real-world images and videos are captured, processed, and analyzed to allow machines to extract contextual, useful information from the physical world.Until recently, computer vision functioned in a limited capacity. But due to the recent innovations in artificial intelligence and deep learning, this field has made great leaps. Today, CV surpasses humans in most routine tasks connected with detecting and labeling objects.The high-quality content of the Mastering Computer Vision from the Absolute Beginning Using Python course presents you with a great opportunity to learn and become an expert. You will learn the core concepts of the CV field. This course will also help you to understand the digital imaging process and identify the key application areas of CV. The course is:· Easy to understand.· Descriptive.· Comprehensive.· Practical with live coding.· Rich with state of the art and updated knowledge of this field.Although this course is a compilation of all the basic concepts of CV, you are encouraged to step up and experience more than what you learn. Your understanding of every concept is tested at the end of each section. The Homework assignments/tasks/activities/quizzes along with solutions will assess your learning. Several of these activities are focused on coding so that you are ready to run with implementations.The two hands-on projects in the last section-Change Detection in CCTV Cameras (Real-time) and Smart DVRs (Real-time)-make up the most important learning element of this course. They will help you sharpen your practical skills. Successful completion of these two projects will help you enrich your portfolio and kick-start your career in the CV field.The course tutorials are divided into 320+ videos along with detailed code notebooks. The videos are available in HD, and the total runtime of the videos is 27 hours+.Now is the perfect time to learn computer vision. Get started with this best-in-class course without any further delay!Teaching is our passion:In this course, we apply the proven learning by doing methodology. We build the interest of learners first. We start from the basics and focus on helping you understand each concept clearly. The explanation of each theoretical concept is followed by practical implementation. We then encourage you to create something new out of your learning.Our aim is to help you master the basic concepts of CV before moving onward to advanced concepts. The course material includes online videos, course notes, hands-on exercises, project work, quizzes, and handouts. We also offer you learning support. You can approach our team in case of any queries, and we respond in quick time.Course Content:The comprehensive course consists of the following topics:1. Introductiona. Introi. What is computer vision?2. Image Transformationsa. Introduction to imagesi. Image data structureii. Color imagesiii. Grayscale imagesiv. Color spacesv. Color space transformations in OpenCVvi. Image segmentation using Color space transformationsb. 2D geometric transformationsi. Scalingii. Rotationiii. Sheariv. Reflectionv. Translationvi. Affine transformationvii. Projective geometryviii. Affine transformation as a matrixix. Application of SVD (Optional)x. Projective transformation (Homography)c. Geometric transformation estimationi. Estimating affine transformationii. Estimating Homographyiii. Direct linear transform (DLT)iv. Building panoramas with manual key-point selection3. Image Filtering and Morphologya. Image Filteringi. Low pass filterii. High pass filteriii. Band pass filteriv. Image smoothingv. Image sharpeningvi. Image gradientsvii. Gaussian filterviii. Derivative of Gaussiansb. Morphologyi. Image Binarizationii. Image Dilationiii. Image Erosioniv. Image Thinning and skeletonizationv. Image Opening and closing4. Shape Detectiona. Edge Detectioni. Definition of edgeii. Naïve edge detectoriii. Canny edge detector1. Efficient gradient computations2. Non-maxima suppression using gradient directions3. Multilevel thresholding- hysteresis thresholdingb. Geometric Shape detectioni. RANSACii. Line detection through RANSACiii. Multiple lines detection through RANSACiv. Circle detection through RANSACv. Parametric shape detection through RANSACvi. Hough transformation (HT)vii. Line detection through HTviii. Multiple lines detection through HTix. Circle detection through HTx. Parametric shape detection through HTxi. Estimating affine transformation through RANSACxii. Non-parametric shapes and generalized Hough transformation5. Key Point Detection and Matchinga. Corner detection (Key point detection)i. Defining Cornerii. Naïve corner detectoriii. Harris corner detector1. Continuous directions2. Tayler approximation3. Structure tensor4. Variance approximation5. Multi-scale detectionb. Project: Building automatic panoramasi. Automatic key point detectionii. Scale assignmentiii. Rotation assignmentiv. Feature extraction (SIFT)v. Feature matchingvi. Image stitching6. Motiona. Optical Flow, Global Flowi. Brightness constancy assumptionii. Linear approximationiii. Lucas-Kanade methodiv. Global flowv. Motion segmentationb. Object Trackingi. Histogram based trackingii. KLT trackeriii. Multiple object trackingiv. Trackers comparisons7. Object detectiona. Classical approachesi. Sliding windowii. Scale spaceiii. Rotation spaceiv. Limitationsb. Deep learning approachesi. YOLO a case study8. 3D computer visiona. 3D reconstructioni. Two camera setupsii. Key point matchingiii. Triangulation and structure computationb. Applicationsi. Mocapii. 3D Animations9. Projectsa. Change detection in CCTV cameras (Real-time)b. Smart DVRs (Real-time)After completing this course successfully, you will be able to:· Relate the concepts and theories in computer vision with real-world problems.· Implement any project from scratch that requires computer vision knowledge.· Know the theoretical and practical aspects of computer vision concepts.Who this course is for:· Learners who are absolute beginners and know nothing about Computer Vision.· People who want to make smart solutions.· People who want to learn computer vision with real data.· People who love to learn theory and then implement it using Python.· People who want to learn computer vision along with its implementation in realistic projects.· Data Scientists.· Machine learning experts.
Overview
Section 1: Introduction to Course and Instructor
Lecture 1 Why Computer Vision
Lecture 2 Introduction to Instructor
Lecture 3 About AI Sciences
Lecture 4 Course Outline (Optional)
Lecture 5 Methodology
Lecture 6 Computer Vision Applications
Lecture 7 Final Project
Lecture 8 Request for Your Honest Review
Lecture 9 Github & OneDrive Link to get the Course Materials
Section 2: Introduction to Images
Lecture 10 Github & OneDrive Link to get the Course Materials
Lecture 11 Grayscale Image
Lecture 12 Quiz(Grayscale Image)
Lecture 13 Solution(Grayscale Image)
Lecture 14 Python Warning
Lecture 15 Grayscale Spectrum
Lecture 16 Answer to Question
Lecture 17 Reading, Manipulating and Saving Grayscale Image using Matplotlib Python
Lecture 18 Quiz(Reading, Manipulating and Saving Grayscale Image using Matplotlib Python)
Lecture 19 Solution(Reading, Manipulating and Saving Grayscale Image using Matplotlib Python)
Lecture 20 Reading, Manipulating and Saving Grayscale Image using OpenCV Python
Lecture 21 Introduction to RGB Images
Lecture 22 Quiz(Introduction to RGB Images)
Lecture 23 Solution(Introduction to RGB Images)
Lecture 24 RGB Color Images Matplotlib and OpenCV
Lecture 25 Quiz(RGB Color Images Matplotlib and OpenCV)
Lecture 26 Solution(RGB Color Images Matplotlib and OpenCV)
Lecture 27 RGB to HSV theory and Algorithm
Lecture 28 RGB to HSV Algorithm Implementation using Python
Lecture 29 Quiz(RGB to HSV Algorithm Implementation using Python)
Lecture 30 Solution(RGB to HSV Algorithm Implementation using Python)
Lecture 31 Red Rose Extraction or Segmentation using HSV Python
Lecture 32 Quiz(Red Rose Extraction or Segmentation using HSV Python)
Lecture 33 Solution(Red Rose Extraction or Segmentation using HSV Python)
Lecture 34 Hyper Spectral Images
Section 3: 2D Scaling Transformations
Lecture 35 Github & OneDrive Link to get the Course Materials
Lecture 36 Introduction to Geometric Transformations
Lecture 37 Scaling Example in OpenCV
Lecture 38 Quiz(Scaling Example in OpenCV)
Lecture 39 Solution(Scaling Example in OpenCV)
Lecture 40 Scaling in Real Space
Lecture 41 Quiz(Scaling in Real Space)
Lecture 42 Solution(Scaling in Real Space)
Lecture 43 Linear Transformation Explained
Lecture 44 Scaling is a Linear Transformations
Lecture 45 Scaling as a Matrix Multiplication Example Python
Lecture 46 Quiz(Scaling as a Matrix Multiplication Example Python)
Lecture 47 Solution(Scaling as a Matrix Multiplication Example Python)
Lecture 48 Image Coordinate System
Lecture 49 Image Copy and Flipping Vertically
Lecture 50 Quiz 01(Image Copy and Flipping Vertically)
Lecture 51 Solution 01(Image Copy and Flipping Vertically)
Lecture 52 Quiz 02(Image Copy and Flipping Vertically)
Lecture 53 Solution 02(Image Copy and Flipping Vertically)
Lecture 54 Continuous Coordinates
Lecture 55 Saturations and Holes
Lecture 56 Image Doubling and Holes using Python
Lecture 57 Inverse Scaling and Quiz
Lecture 58 Solution and Nearest Neighbour Interpolation
Lecture 59 Inverse Scaling Python
Lecture 60 Quiz 01(Inverse Scaling Python)
Lecture 61 Solution 01(Inverse Scaling Python)
Lecture 62 Quiz 02 (Inverse Scaling Python)
Lecture 63 Solution 02(Inverse Scaling Python)
Lecture 64 Nearest Neighbour Interpolation
Lecture 65 Weighted Average vs Simple Average
Lecture 66 Bilinear Interpolation
Lecture 67 Bilinear Interpolation Implementation in Python
Lecture 68 Scaling Transformation with Bilinear Interpolation Implementation
Lecture 69 Scaling Transformation Algorithm(Recap)
Lecture 70 Exam
Lecture 71 Exam Solution 01
Lecture 72 Exam Solution 02
Section 4: 2D Geometric Transformations
Lecture 73 Github & OneDrive Link to get the Course Materials
Lecture 74 Rotation Introduction
Lecture 75 Optional Rotation is Linear Transform Proof
Lecture 76 Rotation can Result Negative Coordinates(Problem)
Lecture 77 Rotation Computing Width and Hight of Resultant Image(Solution)
Lecture 78 Rotation Index Shifting
Lecture 79 Quiz(Rotation Index Shifting)
Lecture 80 Solution(Rotation Index Shifting)
Lecture 81 Rotation Implementation Complete
Lecture 82 Quiz(Rotation Implementation Complete)
Lecture 83 Solution(Rotation Implementation Complete)
Lecture 84 Rotation Implementation(Good Coding Practice)
Lecture 85 Quiz(Rotation Implementation(Good Coding Practice))
Lecture 86 Solution(Rotation Implementation(Good Coding Practice))
Lecture 87 Reflection Introduction
Lecture 88 Quiz(Reflection Introduction)
Lecture 89 Solution(Reflection Introduction)
Lecture 90 Reflection Implementation
Lecture 91 Quiz 01(Reflection Implementation)
Lecture 92 Solution 01(Reflection Implementation)
Lecture 93 Quiz 02(Reflection Implementation)
Lecture 94 Solution 02(Reflection Implementation)
Lecture 95 Shear Introduction
Lecture 96 Shear Implementation and Quiz
Lecture 97 Translation and its Nonlinearity(Problem)
Lecture 98 Homoginuous Coordinates
Lecture 99 Translation as a Matrix(solution)
Lecture 100 Homoginuous Representations Off all Transformations
Lecture 101 Affine Transformation Implementation
Lecture 102 Quiz(Affine Transformation Implementation)
Lecture 103 Rotation about any Point Theory
Lecture 104 Rotation about any Point Implementation
Lecture 105 Reflection about a Line Quiz
Lecture 106 Solution(Reflection about a Line)
Lecture 107 Transformation Matrix Properties
Lecture 108 Transformation Matrix Properties Implementation
Lecture 109 Affine Transformation Hierarchy
Lecture 110 Optional Affine Transformation SVD
Lecture 111 Projective Transformation Homography
Lecture 112 Projective Transformation Implementation
Lecture 113 Projective Warping Algorithm
Section 5: Geometric Transformation Estimation(Panorama)
Lecture 114 Github & OneDrive Link to get the Course Materials
Lecture 115 Goal
Lecture 116 Affine Transformation Estimation Introduction
Lecture 117 Quiz(Affine Transformation Estimation Introduction)
Lecture 118 Solution(Affine Transformation Estimation Introduction)
Lecture 119 Affine Transformation Estimation Points Correspondences
Lecture 120 Estimation Points Marking using Python and Quiz
Lecture 121 Affine Transformation Min Number of Points Needed
Lecture 122 Affine Transformation Estimation using Python
Lecture 123 Affine Transformation Estimation Verification using Python
Lecture 124 Affine Transformation Estimation with more than 3 Points
Lecture 125 Quiz(Affine Transformation Estimation with more than 3 Points)
Lecture 126 Solution(Affine Transformation Estimation with more than 3 Points)
Lecture 127 Affine Transformation Estimation with more than 3 Points Implementation
Lecture 128 Quiz(Affine Transformation Estimation with more than 3 Points Implementation)
Lecture 129 Solution(Affine Transformation Estimation with more than 3 Points Implementation)
Lecture 130 Optional Affine Transformation Estimation with LeastSquared
Lecture 131 Projective Transformation Estimation Introduction
Lecture 132 Projective Transformation Estimation First Implementation having Bug
Lecture 133 Projective Transformation Estimation Reason of the Bug
Lecture 134 Projective Transformation Estimation Removing Scale Factor
Lecture 135 Projective Transformation Estimation DLT
Lecture 136 Projective Transformation Estimation DLT Nullspace and Why 4 Points
Lecture 137 Projective Transformation Estimation DLT Nullspace Implementation
Lecture 138 DLT Implementation
Lecture 139 Quiz(DLT Implementation)
Lecture 140 Panorama Stitching
Lecture 141 Panorama Stitching Implementation in OpenCV
Lecture 142 How Projective Transformation Helps in Panorama
Section 6: Binary Morphology
Lecture 143 Github & OneDrive Link to get the Course Materials
Lecture 144 Binary Images Theory
Lecture 145 Binary Images Python
Lecture 146 Structuring Element Kernel and Sliding Window Theory
Lecture 147 Structuring Element Python
Lecture 148 Erosion Theory
Lecture 149 Quiz 01(Erosion Theory)
Lecture 150 Solution 01(Erosion Theory)
Lecture 151 Quiz 02(Erosion Theory)
Lecture 152 Solution 02(Erosion Theory)
Lecture 153 Erosion Python
Lecture 154 Dilation Theory
Lecture 155 Quiz 01(Dilation Theory)
Lecture 156 Solution 01(Dilation Theory)
Lecture 157 Quiz 02(Dilation Theory)
Lecture 158 Solution 02(Dilation Theory)
Lecture 159 Dilation Python
Lecture 160 Opening Theory
Lecture 161 Opening Python
Lecture 162 Closing Theory
Lecture 163 Closing Python
Lecture 164 Gradient Morphology
Lecture 165 Gradient Morphology Python
Lecture 166 Tophat Blackhat
Section 7: Image Filtering
Lecture 167 Github & OneDrive Link to get the Course Materials
Lecture 168 Image Blurring 01
Lecture 169 Image Blurring 02
Lecture 170 General Image Filtering
Lecture 171 Convolution
Lecture 172 Naive Edge Detection
Lecture 173 Image Sharpening
Lecture 174 Quiz(Image Sharpening)
Lecture 175 Solution(Image Sharpening)
Lecture 176 Implementation Of Image Blurring Edge Detection Image Sharpening in Python
Lecture 177 Lowpass Highpass Bandpass Filters
Lecture 178 CNN Course(You can Skip)
Section 8: Canny Edge Detector
Lecture 179 Github & OneDrive Link to get the Course Materials
Lecture 180 Canny Edge Detector Algorithm Introduction
Lecture 181 Canny Edge Detector OpenCV
Lecture 182 Quiz(Canny Edge Detector OpenCV)
Lecture 183 Solution(Canny Edge Detector OpenCV)
Lecture 184 Gaussian Filter Introduction
Lecture 185 Gaussian Filter to Mask Computation
Lecture 186 Gaussian Filter Window Size
Lecture 187 Gaussian Filter Implementation
Lecture 188 Quiz(Gaussian Filter Implementation)
Lecture 189 Solution(Gaussian Filter Implementation)
Lecture 190 Gaussian Filter Smoothing Implementation
Lecture 191 Quiz(Gaussian Filter Smoothing Implementation)
Lecture 192 Solution(Gaussian Filter Smoothing Implementation)
Lecture 193 Image Gradients Theory
Lecture 194 Image Gradients Implementation
Lecture 195 Image Gradients Implementation Datatype Bug
Lecture 196 Derivative of Gaussian
Lecture 197 Derivative of Gaussian Expression
Lecture 198 Derivative of Gaussian Implementation
Lecture 199 Applying DOG Filters
Lecture 200 Gradient Vector
Lecture 201 Gradient Magnitude and Gradient Direction
Lecture 202 Non Maxima Suppression
Lecture 203 Gradient Direction Quantization
Lecture 204 Quiz(Gradient Direction Quantization)
Lecture 205 Solution(Gradient Direction Quantization)
Lecture 206 Gradient Direction Quantization Implementation
Lecture 207 Gradient Direction Quantization Implementation Better Way
Lecture 208 NMS Implementation
Lecture 209 Quiz 01(NMS Implementation)
Lecture 210 Solution 01(NMS Implementation)
Lecture 211 Quiz 02(NMS Implementation)
Lecture 212 Solution 02(NMS Implementation)
Lecture 213 Last Step Thresholding
Lecture 214 Hesterysis Thresholding
Lecture 215 Hesterysis Thresholding Implementation
Section 9: Shape Detection
Lecture 216 Github & OneDrive Link to get the Course Materials
Lecture 217 Shape Detection Introduction
Lecture 218 Why Edge Detection is not Enough
Lecture 219 RANSAC Introduction
Lecture 220 RANSAC For Lines Coordinate Arrays
Lecture 221 RANSAC For Lines Sampling Points Randomly Implemenation
Lecture 222 Quiz(RANSAC For Lines Sampling Points Randomly Implemenation)
Lecture 223 Solution(RANSAC For Lines Sampling Points Randomly Implemenation)
Lecture 224 RANSAC For Lines Fitting Line With 2 Points
Lecture 225 RANSAC For Lines Fitting Line With 2 Points Implementation
Lecture 226 Quiz(RANSAC For Lines Fitting Line With 2 Points Implementation)
Lecture 227 Solution(RANSAC For Lines Fitting Line With 2 Points Implementation)
Lecture 228 RANSAC For Lines Computing Consistency Score
Lecture 229 RANSAC For Lines Computing Consistency Score Implementation
Lecture 230 RANSAC For Lines Implementation
Lecture 231 RANSAC For Lines Implementation Test on Real Image
Lecture 232 Drawback
Lecture 233 RANSAC For Lines Implementation Test on Real Image Drawing and Quiz
Lecture 234 RANSAC For Circles
Lecture 235 RANSAC For Circles Consistency Score
Lecture 236 RANSAC For Circles Implementation
Lecture 237 RANSAC For Circles Implementation Real Image
Lecture 238 Drawback
Lecture 239 RANSAC For Circles Implementation Real Image Drawing
Lecture 240 RANSAC General
Lecture 241 RANSAC Quiz
Lecture 242 RANSAC Quiz Solution
Section 10: Shape Detection Hough Transform
Lecture 243 Github & OneDrive Link to get the Course Materials
Lecture 244 Hough Transform Introduction
Lecture 245 Hough Transform as Voting
Lecture 246 Hough Transform as Voting Loop
Lecture 247 Hough Transform Polar Representation
Lecture 248 Hough Transform Polar Representation Benifits
Lecture 249 Hough Transform Polar Representation Implementation
Lecture 250 Hough Transform Lines Implementation Real Image
Lecture 251 Hough Transform Lines Parameters Conversion
Lecture 252 Hough Transform Lines Drawing
Lecture 253 Solution(Hough Transform Lines Drawing)
Lecture 254 Hough Transform Fast Version
Lecture 255 Hough Transform Circles
Lecture 256 Hough Transform Circles Implementation
Lecture 257 Hough Transform Circles Implementation Drawing
Lecture 258 Solution(Hough Transform Circles Implementation Drawing)
Section 11: Corner Detection
Lecture 259 Github & OneDrive Link to get the Course Materials
Lecture 260 Corner Definition
Lecture 261 Why Corner
Lecture 262 Corner Measure
Lecture 263 SSD
Lecture 264 Why SSD to be Muted Somewhere
Lecture 265 Corner Detection Implementation 01
Lecture 266 Corner Detection Implementation 02
Lecture 267 Corner Detection Implementation 03
Lecture 268 Moravec Corner Detector
Lecture 269 Scale Space
Lecture 270 Infinite Directions Towards Harris Corner Detector
Lecture 271 Harris Corner Detector 01
Lecture 272 Harris Corner Detector 02
Lecture 273 Harris Corner Detector 03
Lecture 274 Harris Corner Detector 04 Structure Tensor
Lecture 275 Harris Corner Detector 05 Final Expression
Lecture 276 Harris Corner Detector Implementation Speedup Convolution
Lecture 277 Harris Corner Detector Implementation 01
Lecture 278 Harris Corner Detector Implementation 02
Lecture 279 Harris Corner Detector as Edge Detector
Section 12: Automatic Panorama SIFT
Lecture 280 Github & OneDrive Link to get the Course Materials
Lecture 281 Point Correspondence Introduction
Lecture 282 Point Drawing Implementation
Lecture 283 Scale and Orientation Alignment
Lecture 284 SIFT and HOG
Lecture 285 Points Matching
Section 13: Object Detection
Lecture 286 Github & OneDrive Link to get the Course Materials
Lecture 287 Introduction to Object Detection
Lecture 288 Classification PipleLine
Lecture 289 Sliding Window Implementation
Lecture 290 Shift Scale Rotation Invariance
Lecture 291 Person Detection
Lecture 292 HOG Features
Lecture 293 HandEngineering vs CNNs
Lecture 294 Implementation
Lecture 295 Activity
Section 14: YOLO Object Detector
Lecture 296 Github & OneDrive Link to get the Course Materials
Lecture 297 CNNS Introduction
Lecture 298 Face Detection Implementation
Lecture 299 YOLO Implementation
Lecture 300 YOLO Image Classfication Revisited
Lecture 301 YOLO Sliding Window Object Localization
Lecture 302 YOLO Sliding Window Efficient Implementation
Lecture 303 YOLO Introduction
Lecture 304 YOLO Training Data Generation
Lecture 305 YOLO Anchor Boxes
Lecture 306 YOLO Algorithm
Lecture 307 YOLO Non Maxima Supression
Lecture 308 YOLO RCNN
Section 15: Motion
Lecture 309 Github & OneDrive Link to get the Course Materials
Lecture 310 Optical Flow
Lecture 311 BC Assumption
Lecture 312 Optical Flow Derivation
Section 16: Object Tracking
Lecture 313 Github & OneDrive Link to get the Course Materials
Lecture 314 Tracking by Detection
Lecture 315 Tracking by Detection Motion Model Assumption
Lecture 316 Tracking KLT TLD
Lecture 317 Single Object Tracking
Lecture 318 Multiple Object Tracking
Lecture 319 WebCam and Saving Annotations of Multiple Object Tracking
Section 17: 3D Reconstruction
Lecture 320 Github & OneDrive Link to get the Course Materials
Lecture 321 3d Reconstruction Introduction
Lecture 322 3d Motion Capture
Lecture 323 Camera
Lecture 324 Camera Matrix
Lecture 325 Triangulation
Lecture 326 Camera Matrix Estimation
Lecture 327 Mocap Revisited
Section 18: Smart CCTV Project
Lecture 328 Github & OneDrive Link to get the Course Materials
Lecture 329 Introduction to the Project
Lecture 330 Introduction to Data
Lecture 331 Reading a Video File
Lecture 332 Change Detection Frame Differencing
Lecture 333 Change Detection Frame Differencing Implementation
Lecture 334 Change Detection Background Subtraction
Lecture 335 Change Detection Background Subtraction MOG
Lecture 336 Denoising using Morphology
Lecture 337 Connected Components
Lecture 338 Connected Components Filtering
Lecture 339 Tracking Change
Lecture 340 Saving Segments
Lecture 341 Saving and Viewing Segments
Lecture 342 Saving and Viewing Segments with Object Detection
Lecture 343 Applications
Lecture 344 THANK YOU Bonus Video
Lecture 345 About AI Sciences
• Learners who are absolute beginners and know nothing about Computer Vision.,• People who want to make smart solutions.,• People who want to learn computer vision with real data.,• People who love to learn theory and then implement it using Python.,• People who want to learn computer vision along with its implementation in realistic projects.,• Data Scientists.,• Machine learning experts.
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