OBJECT MATCHING IN DIGITAL VIDEO USING DESCRIPTORS WITH PYTHON AND TKINTER

OBJECT MATCHING IN DIGITAL VIDEO USING DESCRIPTORS WITH PYTHON AND TKINTER
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Publisher : BALIGE PUBLISHING
Total Pages : 153
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Book Synopsis OBJECT MATCHING IN DIGITAL VIDEO USING DESCRIPTORS WITH PYTHON AND TKINTER by : Vivian Siahaan

Download or read book OBJECT MATCHING IN DIGITAL VIDEO USING DESCRIPTORS WITH PYTHON AND TKINTER written by Vivian Siahaan and published by BALIGE PUBLISHING. This book was released on 2024-06-14 with total page 153 pages. Available in PDF, EPUB and Kindle. Book excerpt: The first project is a sophisticated tool for comparing and matching visual features between images using the Scale-Invariant Feature Transform (SIFT) algorithm. Built with Tkinter, it features an intuitive GUI enabling users to load images, adjust SIFT parameters (e.g., number of features, thresholds), and customize BFMatcher settings. The tool detects keypoints invariant to scale, rotation, and illumination, computes descriptors, and uses BFMatcher for matching. It includes a ratio test for match reliability and visualizes matches with customizable lines. Designed for accessibility and efficiency, SIFTMacher_NEW.py integrates advanced computer vision techniques to support diverse applications in image processing, research, and industry. The second project is a Python-based GUI application designed for image matching using the ORB (Oriented FAST and Rotated BRIEF) algorithm, leveraging OpenCV for image processing, Tkinter for GUI development, and PIL for image format handling. Users can load and match two images, adjusting parameters such as number of features, scale factor, and edge threshold directly through sliders and options provided in the interface. The application computes keypoints and descriptors using ORB, matches them using a BFMatcher based on Hamming distance, and visualizes the top matches by drawing lines between corresponding keypoints on a combined image. ORBMacher.py offers a user-friendly platform for experimenting with ORB's capabilities in feature detection and image matching, suitable for educational and practical applications in computer vision and image processing. The third project is a Python application designed for visualizing keypoint matches between images using the FAST (Features from Accelerated Segment Test) detector and SIFT (Scale-Invariant Feature Transform) descriptor. Built with Tkinter for the GUI, it allows users to load two images, adjust detector parameters like threshold and non-maximum suppression, and visualize matches in real-time. The interface includes controls for image loading, parameter adjustment, and features a scrollable canvas for exploring matched results. The core functionality employs OpenCV for image processing tasks such as keypoint detection, descriptor computation, and matching using a Brute Force Matcher with L2 norm. This tool is aimed at enhancing user interaction and analysis in computer vision applications. The fourth project creates a GUI for matching keypoints between images using the AGAST (Adaptive and Generic Accelerated Segment Test) algorithm with BRIEF descriptors. Utilizing OpenCV for image processing and Tkinter for the interface, it initializes a window titled "AGAST Image Matcher" with a control_frame for buttons and sliders. Users can load two images using load_button1 and load_button2, which trigger file dialogs and display images on a scrollable canvas via load_image1(), load_image2(), and show_image(). Adjustable parameters include AGAST threshold and BRIEF descriptor bytes. Clicking match_button invokes match_images(), checking image loading, detecting keypoints with AGAST, computing BRIEF descriptors, and using BFMatcher for matching and visualization. The matched image, enhanced with color-coded lines, replaces previous images on the canvas, ensuring clear, interactive results presentation. The fifth project is a Python-based application that utilizes the AKAZE feature detection algorithm from OpenCV for matching keypoints between images. Implemented with Tkinter for the GUI, it features a "AKAZE Image Matcher" window with buttons for loading images and adjusting AKAZE parameters like detection threshold, octaves, and octave layers. Upon loading images via file dialog, the app reads and displays them on a scrollable canvas, ensuring smooth navigation for large images. The match_images method manages keypoint detection using AKAZE and descriptor matching via BFMatcher with Hamming distance, sorting matches for visualization with color-coded lines. It updates the canvas with the matched image, clearing previous content for clarity and enhancing user interaction in image analysis tasks. The sixth project is a Tkinter-based Python application designed to facilitate the matching and visualization of keypoint descriptors between two images using the BRISK feature detection and description algorithm. Upon initialization, it creates a window titled "BRISK Image Matcher" with a canvas (control_frame) for hosting buttons ("Load Image 1", "Load Image 2", "Match Images") and sliders to adjust BRISK parameters like Threshold, Octaves, and Pattern Scale. Loaded images are displayed on canvas_frame with scrollbars for navigation, utilizing methods like load_image1() and load_image2() to handle image loading and show_image() to convert and display images in RGB format compatible with Tkinter. The match_images() method manages keypoint detection, descriptor calculation using BRISK, descriptor matching with the Brute-Force Matcher, and visualization of matched keypoints with colored lines on canvas_frame. This comprehensive interface empowers users to explore and analyze image similarities based on distinct keypoints effectively. The seventh project utilizes Tkinter to create a GUI application tailored for processing and analyzing video frames. It integrates various libraries such as Pillow, imageio, OpenCV, numpy, matplotlib, pywt, and os to support functionalities ranging from video handling to image processing and feature analysis. At its core is the Filter_CroppedFrame class, which manages the GUI layout and functionality. The application features control buttons for video playback, comboboxes for selecting zoom levels, filters, and matchers, and a canvas for displaying video frames with support for interactive navigation and frame processing. Event handlers facilitate tasks like video file loading, playback control, and frame navigation, while offering options for applying filters and feature matching algorithms to enhance video analysis capabilities.


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