Proceedings ArticleDOI
Multi-camera Platform Calibration Using Multi-linear Constraints
Patrik Nyman,Anders Heyden,Kalle Åström +2 more
- pp 53-56
TLDR
A novel calibration method for multi-camera platforms, based on multi-linear constraints, that can recover the relative orientation between the different cameras on the platform, even when there are no corresponding feature points between the cameras.Abstract:
We present a novel calibration method for multi-camera platforms, based on multi-linear constraints. The calibration method can recover the relative orientation between the different cameras on the platform, even when there are no corresponding feature points between the cameras, i.e. there are no overlaps between the cameras. It is shown that two translational motions in different directions are sufficient to linearly recover the rotational part of the relative orientation. Then two general motions, including both translation and rotation, are sufficient to linearly recover the translational part of the relative orientation. However, as a consequence of the speed-scale ambiguity the absolute scale of the translational part can not be determined if no prior information about the motions are known, e.g. from dead reckoning. It is shown that in case of planar motion, the vertical component of the translational part can not be determined. However, if at least one feature point can be seen in two different cameras, this vertical component can also be estimated. Finally, the performance of the proposed method is shown in simulated experiments.read more
Citations
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Dissertation
Etalonnage de caméras à champs disjoints et reconstruction 3D : Application à un robot mobile
TL;DR: In this paper, a multi-camera system for vehicular public auto-autonome is presented, consisting of deux cameras, l'une a l'avant, et l'autre a l’arriere.
Proceedings ArticleDOI
A Simple and Flexible Calibration Method of Non-overlapping Camera Rig
TL;DR: In this paper, a non-overlapping camera rig calibration that includes camera calibration and relative poses calibration is presented, which gives the solutions of the cameras parameters and the relative poses simultaneously by using nonlinear optimization.
Dissertation
Self-calibration for consumer omnidirectional multi-camera mounted on a helmet
TL;DR: A bundle adjustment is introduced that estimates not only the usual parameters but also a subframe-accurate synchronization and the rolling shutter calibration and is useful for applications (3D modeling and 360 videos).
Proceedings ArticleDOI
Relative pose estimation in binocular vision for a planar scene using inter-image homographies
TL;DR: This paper considers a mobile platform with two cameras directed towards the floor mounted the same distance from the ground, assuming planar motion and constant internal parameters, and develops a robust method for determining the relative parameters.
Proceedings ArticleDOI
Combined calibration method for large field of view multi-camera system
TL;DR: Wang et al. as discussed by the authors proposed a multi-camera system combination calibration method, which can realize the parameter calibration of four camera measurement system, and the measurement space is 2000mm×2000mm-2000mm, the 3D reconstruction error is less than 0.15mm.
References
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Multiple View Geometry
Richard Hartley,Andrew Zisserman +1 more
TL;DR: A perspective (central) projection camera is represented by a matrix that can be computed from the correspondence of four (or more) points.
Journal ArticleDOI
A new technique for fully autonomous and efficient 3D robotics hand/eye calibration
Roger Y. Tsai,R.K. Lenz +1 more
TL;DR: In this article, the authors describe a technique for computing position and orientation of a camera relative to the last joint of a robot manipulator in an eye-on-hand configuration, which takes only about 100+64N arithmetic operations to compute the hand/eye relationship after the robot finishes the movement, and incurs only additional 64 arithmetic operations for each additional station.
Proceedings Article
A new technique for fully autonomous and efficient 3D robotics hand-eye calibration
Roger Y. Tsai,R.K. Lenz +1 more
TL;DR: A novel technique for computing position and orientation of a camera relative to the last joint of a robot manipulator in an eye-on-hand configuration aimed at simplicity, efficiency, and accuracy while giving ample geometric and algebraic insights is described.
Journal ArticleDOI
Hand-eye calibration
Radu Horaud,Fadi Dornaika +1 more
TL;DR: A common mathematical framework is developed to solve for the hand-eye calibration problem using either of the two formulations and the nonlinear optimization method, which solves for rotation and translation simultaneously, seems to be the most robust one with respect to noise and measurement errors.
Book Chapter
Multiple view geometry
Anders Heyden,Marc Pollefeys +1 more
TL;DR: This chapter introduces the concepts of projective geometry and tensor calculus and discusses how they can be applied to recover 3D models from images to yield models suited for automatic processing on real image data.