Calibration of a camera-array-based microscopic system with spatiotemporal structured light encoding

Calibration of a camera-array-based microscopic system with spatiotemporal structured light encoding

The strong need in life science and medicine research has prompted the development of wide-field, high-resolution and real-time microscopic imaging based on camera array. For large-scale sub-image stitching on the order of billion pixels, it is highly challenging to calibrate the camera array with l...

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Bibliographic Details
Published in:Optics communications Vol. 504; p. 127503
Main Authors: Hu, Jing, Fan, Jingtao, Shen, Yibing
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2022
Subjects:
Calibration
Camera array
Spatial light modulator
Structured light encoding
Structured light encoding
Camera array
Calibration
Spatial light modulator
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Summary:The strong need in life science and medicine research has prompted the development of wide-field, high-resolution and real-time microscopic imaging based on camera array. For large-scale sub-image stitching on the order of billion pixels, it is highly challenging to calibrate the camera array with low-overlapping fields of view (FOVs). To address the challenge, we propose a camera array calibration method to obtain the complete camera model and global mapping coordinates. The method utilizes spatiotemporal structured light encoding provided by a spatial light modulator to establish the correspondence between the physical coordinates of the keypoints in the object plane and their pixel coordinates in the sub-image plane. This achieves fast and accurate calibration of a camera-array-based microscopic system without the requirement of sub-FOV overlap. A series of experiments, including reprojection evaluation and global image stitching on the resolution chart and biological specimen slice, verified the effectiveness of the proposed approach. The method supports calibration of global geometric position with 0.2-pixel accuracy and has a broad potential for application to general camera array-based imaging systems. •The calibration method can be applied to general camera-array-based microscopic systems.•The calibration is achieved without the requirement of sub-field-of-view overlap.•The method supports calibration of global geometric position with 0.2-pixel accuracy.•The spatiotemporal structured light encoding is utilized to establish the correspondence.
ISSN:0030-4018
1873-0310
DOI:10.1016/j.optcom.2021.127503