In this paper we analysis monocular sport videos, digitized from old VHS tape, where players and camera are moving. It is very difficult to recover 3D information of the scene from these sequences, due to noisy measurements, low quality of the images, very small translation of the camera and almost no information concerning its parameters. Classic stereo algorithms are not always suitable and perspective models can easily fail, due to zooming effects and baseline absence. We calibrated a monocular sequence with perspective and projective approaches, comparing the methodologies and the results. Moreover, applying some geometric image invariants, metric measurements of the movements of the players are also recovered. 1
Understanding how sportsmen move is a prerequisite to improve their technique. For this reason, coac...
We consider the problem of metrically reconstructing a scene viewed by a moving stereo head. The hea...
International audienceWe present a method for recovering 3D human body motion from monocular video s...
The process of 3D reconstruction is a basic problem in Computer Vision. However, recent researches h...
3D Reconstruction using multiple cameras is a technique often employed in the studio production envi...
In this paper we present different methods for the calibration and orientation of monoc...
We present a method for recovering three-dimensional (3D) human body motion from monocular video seq...
Automated 3D modeling from real sports videos can provide useful resources for visual design in spor...
Extraction of 3D geometry from hand-held unsteady uncalibrated cameras faces multiple difficulties: ...
Scientifically recording a movement and giving feedback by evaluating it is an indispensable element...
The 3D reconstruction of image and video scenes by stereo analysis is an important topic in computer...
Techniques for human-motion recovery are applicable to a variety of areas, such as sports, dancing, ...
Abstract. This paper investigates the problem of reconstruction of 3D hu-man motion pose from uncali...
Automated 3-D modeling from real sports videos can provide valuable resources for visual design in s...
AbstractModels of real-world objects and actions for use in graphics, virtual and augmented reality ...
Understanding how sportsmen move is a prerequisite to improve their technique. For this reason, coac...
We consider the problem of metrically reconstructing a scene viewed by a moving stereo head. The hea...
International audienceWe present a method for recovering 3D human body motion from monocular video s...
The process of 3D reconstruction is a basic problem in Computer Vision. However, recent researches h...
3D Reconstruction using multiple cameras is a technique often employed in the studio production envi...
In this paper we present different methods for the calibration and orientation of monoc...
We present a method for recovering three-dimensional (3D) human body motion from monocular video seq...
Automated 3D modeling from real sports videos can provide useful resources for visual design in spor...
Extraction of 3D geometry from hand-held unsteady uncalibrated cameras faces multiple difficulties: ...
Scientifically recording a movement and giving feedback by evaluating it is an indispensable element...
The 3D reconstruction of image and video scenes by stereo analysis is an important topic in computer...
Techniques for human-motion recovery are applicable to a variety of areas, such as sports, dancing, ...
Abstract. This paper investigates the problem of reconstruction of 3D hu-man motion pose from uncali...
Automated 3-D modeling from real sports videos can provide valuable resources for visual design in s...
AbstractModels of real-world objects and actions for use in graphics, virtual and augmented reality ...
Understanding how sportsmen move is a prerequisite to improve their technique. For this reason, coac...
We consider the problem of metrically reconstructing a scene viewed by a moving stereo head. The hea...
International audienceWe present a method for recovering 3D human body motion from monocular video s...