2019
DOI: 10.3390/s19133008
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Calibration of the Relative Orientation between Multiple Depth Cameras Based on a Three-Dimensional Target

Abstract: Depth cameras play a vital role in three-dimensional (3D) shape reconstruction, machine vision, augmented/virtual reality and other visual information-related fields. However, a single depth camera cannot obtain complete information about an object by itself due to the limitation of the camera’s field of view. Multiple depth cameras can solve this problem by acquiring depth information from different viewpoints. In order to do so, they need to be calibrated to be able to accurately obtain the complete 3D infor… Show more

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Cited by 12 publications
(7 citation statements)
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“…Feng et al [119] proposed a characterisation method based on the use of a transparent glass checkerboard, refractive projection model and ray tracing to reduce calibration errors. Several researchers have proposed flexible methods to solve the inherent complexity of multi-view system characterisation using 3D targets [120,121]. This method allows for the characterisation of all cameras with limited-overlapping or nonoverlapping fields of view in a single operation, unifying the multi-camera coordinates in the same reference frame and avoiding extensive workloads and accuracy losses caused by repeated processes.…”
Section: Characterisation Approachesmentioning
confidence: 99%
“…Feng et al [119] proposed a characterisation method based on the use of a transparent glass checkerboard, refractive projection model and ray tracing to reduce calibration errors. Several researchers have proposed flexible methods to solve the inherent complexity of multi-view system characterisation using 3D targets [120,121]. This method allows for the characterisation of all cameras with limited-overlapping or nonoverlapping fields of view in a single operation, unifying the multi-camera coordinates in the same reference frame and avoiding extensive workloads and accuracy losses caused by repeated processes.…”
Section: Characterisation Approachesmentioning
confidence: 99%
“…Optical coordinate measurement using cameras is now widely used in advanced manufacturing [19]. The use of a single stereo-pair of cameras, is often insufficient for part inspection due to the limited field of view (FOV) and the self-occlusion of surfaces [20]. In order to increase the FOV and maximise coverage of an object's surface, a network of multiple camera viewpoints can be an effective solution [24], which can be achieved using either multiple cameras or a single camera which moves relative to the object.…”
Section: Related Workmentioning
confidence: 99%
“…Characterisation of the intrinsic and extrinsic camera parameters is critical for accurate measurement [19]. Camera calibration is a research topic in its own right and is beyond the scope of this work (for more details see [19][20][21][22][23]). Barazzetti points out [10] that as optical coordinate measurement, particularly photogrammetry, has become more accessible, inexperienced users with little measurement experience often produce crude reconstructions at the cost of metric accuracy.…”
Section: Related Workmentioning
confidence: 99%
“…Thus motivated, this paper is a preliminary study as to whether, and under which conditions, an extended approach based on a set of unordered coplanar chessboards might, in principle, simulate an (infeasibly large) single chessboard, to effectively accommodate longer focusing distances or wider fields of view. Multiple (non-coplanar) or 3D chessboards have already been exploited for camera-to-camera, camera-to-range sensor or multiple depth camera automatic calibration (Geiger et al, 2012;Fuersattel et al, 2017;Yin et al, 2018;Fu et al, 2019;Liu et al 2019). Yet, to the best of our knowledge, the particular use of multiple coplanar chessboards for camera calibration has not been investigated.…”
Section: Introductionmentioning
confidence: 99%