2017
DOI: 10.1017/s0263574716000874
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Mirage: an O(n) time analytical solution to 3D camera pose estimation with multi-camera support

Abstract: SUMMARYMirage is a camera pose estimation method that analytically solves pose parameters in linear time for multi-camera systems. It utilizes a reference camera pose to calculate the pose by minimizing the 2D projection error between reference and actual pixel coordinates. Previously, Mirage has been successfully applied to trajectory tracking (visual servoing) problem. In this study, a comprehensive evaluation of Mirage is performed by particularly focusing on the area of camera pose estimation. Experiments … Show more

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Cited by 8 publications
(13 citation statements)
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“…(6). After very involved manipulations, which can be found in [15], the following relation is found between the pixel error e c i j and the elements of…”
Section: Mirage Vision Based Pose Estimation Pose Estimation Methodmentioning
confidence: 99%
See 2 more Smart Citations
“…(6). After very involved manipulations, which can be found in [15], the following relation is found between the pixel error e c i j and the elements of…”
Section: Mirage Vision Based Pose Estimation Pose Estimation Methodmentioning
confidence: 99%
“…where V c i is a × matrix and Y c i is a × vector with known values. For the detailed formulation of these parameters, see [15]. The × vector t f f d contains all 12 unknown elements of the transformation matrix T f f d .…”
Section: Mirage Vision Based Pose Estimation Pose Estimation Methodmentioning
confidence: 99%
See 1 more Smart Citation
“…The derivation of such a relation is very involved and is explained in detail in [9]. For the sake of brevity and to avoid repetition, those derivations are omitted here.…”
Section: M N T)mentioning
confidence: 99%
“…where V j is a 2 × 12 matrix and Y j is a 2 × 1 vector with known values. For the detailed formulation of these parameters, see [9]. The 12 × 1 vector t B d B contains all 12 unknown elements of the…”
Section: M N T)mentioning
confidence: 99%