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In
Computer Vision and in
Robotics, a typical task is to identify specific objects in an image and to determine each object's position and orientation relative to some coordinate system. this information can be then be used, for example, to allow a robot to manipulate an object or
To avoid moving into the object. The combinationPositionAndOrientationIs referred to as
PoseOf an object, even though this concept is sometimes used only to describe the orientation.
Exterior OrientationAndTranslationAre also used as synonyms to pose.
The image data from which the pose of an object is determined can be either a single image, a stereo image pair, or an image sequence where, typically, the camera is moving with a known speed. the objects which are considered can be rather general, including
A living being or body parts, e.g ., A head or hands. the methods which are used for determining the pose of an object, however, are usually specific for a class of objects and cannot generally be expected to work well for other types of objects.
The pose can be described by means of a rotation and translation transformation which brings the object from a reference pose to the observed pose. this rotation transformation can be represented in different ways, e.g ., as
Rotation matrix or
Quaternion.
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Pose estimation
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It has been suggested that this article or section be
Merged3D pose estimation. (Discuss) Proposed since March 2010.
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The specific task of determining the pose of an object in an image (or stereo images, image sequence) is referred to
Pose estimation. The pose estimation problem can be solved in different ways depending on the image sensor configuration, and choice of methodology. three classes of methodologies can be distinguished:
- Analytic or geometric methods: given that the image sensor (CAMERA) is calibrated the mapping from 3D points in the scene and 2D points in the image is known. if also the geometry of the object is known, it means that the projected image of the object on
The camera image is a well-known function of the object's pose. once a set of control points on the object, typically corners or other feature points, has been identified it is then possible to solve the pose transformation from a set of equations which relate
The 3D coordinates of the points with their 2D image coordinates.
- Genetic Algorithm Methods: If the pose of an object does not have to be computed in real-time
Genetic algorithm may be used. This approach is robust especially when the images are not perfectly calibrated. In this special case, the pose represent
Genetic representation and the error between the projection of the object control points with the image is
Fitness function.
- Learning-based methods: these methods use artificial learning-based system which learn the mapping from 2D image features to pose transformation. in short, this means that a sufficiently large set of images of the object, in different poses, must be presented
To the system during a learning phase. Once the learning phase is completed, the system shocould be able to present an estimate of the object's pose given an image of the object.