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Full-Text Articles in Mechanical Engineering
Evaluation Of Collision Properties Of Spheres Using High-Speed Video Analysis, Jian Yu
Evaluation Of Collision Properties Of Spheres Using High-Speed Video Analysis, Jian Yu
Theses
Experimental evaluation of the collision properties of spheres is performed using video image analysis techniques. A high-speed Kodak EktaPro1000 video camera is utilized to record a collision sequence between two spheres at 1000 frames/sec, and then the images are analyzed to calculate three dimensional translation and rotation before and after the collision. These quantities are used to compute the collision properties for a pair of one inch nylon spheres, i.e. the coefficient of friction, and the coefficients of normal and tangential restitution. The focus of the thesis is on image analysis techniques that provide high accuracy results even though the …
Automatic Motion Analysis Of Colliding Spheres, John Vijayakumar Caesar
Automatic Motion Analysis Of Colliding Spheres, John Vijayakumar Caesar
Theses
Motion analysis is useful to compute linear and angular velocities and acceleration of an object from a sequence of images. This thesis is part of an investigation to compute the translation and rotation velocities needed to determine the collision parameters of two colliding spheres. This involves the tracking of the spheres and feature points on the spheres over a time interval. An experimental setup releases two spheres such that they collide and a high speed imaging system, i.e., Kodak Ektapro 1000 is utilised to record the motion of the spheres. The imaging system is capable of recording at a speed …
Computation Of Collision Parameters Of Spheres By Computer Vision, Sumit Sen
Computation Of Collision Parameters Of Spheres By Computer Vision, Sumit Sen
Theses
Collision parameter evaluation of rigid spherical particles requires estimation of pre- and post-impact position, velocity and angular velocity vectors of colliding particles. A three dimensional experimental technique is devised where the instantaneous position and orientation of the particles are determined by analyzing frames obtained through high speed video imaging system. Since the image obtained is two dimensional, a mirror setting is designed to capture two orthogonal views of collision in order to estimate motion in depth. The translational velocity vector is determined from the position information extracted through application of available image analysis techniques over two time frames of digitized …