TY - JOUR
AU1 - Liu, Yemei
AU2 - Li, Yanfei
AU3 - Yu, Jing
AU4 - Miao, Yupei
AU5 - Liu, Xiaoli
AU6 - Peng, Xiang
AU7 - Tang, Qijian
AB - The single-pixel imaging technique has garnered widespread attention and research due to its low requirements on detector resolution and equipment cost. In this study, a laser point scanning single-pixel imaging system is constructed. It utilizes a grating installed in front of the detector to capture a single-frame deformed fringe pattern, combining Fourier transform profilometry with three-dimensional phase mapping to ultimately achieve three-dimensional data acquisition. Following the calibration of the system, the positions of each light ray are calibrated using the intrinsic and extrinsic parameters obtained through camera calibration. Consequently, this paper proposes a single-pixel three-dimensional reconstruction method based on three-dimensional phase mapping, establishing a correlation between three-dimensional points and phases to realize three-dimensional phase mapping. Experimental results demonstrate that the model can achieve high reconstruction accuracy, presenting a novel solution for the field of single-pixel three-dimensional reconstruction.
TI - Three-dimensional reconstruction based on three-dimensional phase mapping using single-pixel imaging
JF - Proceedings of SPIE
DO - 10.1117/12.3030436
DA - 2024-06-03
UR - https://www.deepdyve.com/lp/spie/three-dimensional-reconstruction-based-on-three-dimensional-phase-FuM88mU6yv
SP - 131820F
EP - 131820F-6
VL - 13182
IS - 
DP - DeepDyve
ER -