Object Detection and Tracking Using Uncalibrated Cameras

This thesis considers the problem of tracking an object in world coordinates using measurements obtained from multiple uncalibrated cameras. A general approach to track the location of a target involves different phases including calibrating the camera, detecting the object\u27s feature points over frames, tracking the object over frames and analyzing object\u27s motion and behavior. The approach contains two stages. First, the problem of camera calibration using a calibration object is studied. This approach retrieves the camera parameters from the known locations of ground data in 3D and their corresponding image coordinates. The next important part of this work is to develop an automated system to estimate the trajectory of the object in 3D from image sequences. This is achieved by combining, adapting and integrating several state-of-the-art algorithms. Synthetic data based on a nearly constant velocity object motion model is used to evaluate the performance of camera calibration and state estimation algorithms

Object Detection and Tracking Using Uncalibrated Cameras

This thesis considers the problem of tracking an object in world coordinates using measurements obtained from multiple uncalibrated cameras. A general approach to track the location of a target involves different phases including calibrating the camera, detecting the object\u27s feature points over frames, tracking the object over frames and analyzing object\u27s motion and behavior. The approach contains two stages. First, the problem of camera calibration using a calibration object is studied. This approach retrieves the camera parameters from the known locations of ground data in 3D and their corresponding image coordinates. The next important part of this work is to develop an automated system to estimate the trajectory of the object in 3D from image sequences. This is achieved by combining, adapting and integrating several state-of-the-art algorithms. Synthetic data based on a nearly constant velocity object motion model is used to evaluate the performance of camera calibration and state estimation algorithms

Abstract Camera Calibration and 3D Scene Reconstruction from image sequence and rotation sensor data

We address the problem of using external rotation information together with uncalibrated video sequences for improved calibration and 3Dreconstruction. It is shown that with a combination of a linear and a statistical approach a full calibration of the cameras can be computed from the fundamental matrices and the rotation data alone. The statistical calibration exploits some common constraints of cameras. It is analyzed which constraints are needed for the calibration of a freely moving camera. Furthermore we show that this calibration technique improves metric 3D scene reconstruction and avoids projective skew.