Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization

Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization

Three-dimensional (3D) reconstruction using line structured light vision system commonly cooperates with motion restraint devices, such as parallel guide rail push-broom devices. In this study, we propose a visual positioning method to eliminate the motion constraint. An extended orthogonal iteratio...

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Bibliographic Details
Main Authors: Lei Yin, Xiangjun Wang, Yubo Ni
Format: Article
Language:English
Published: MDPI AG 2019-04-01
Series:Sensors
Subjects:
3D reconstruction
stereo vision
structured light
pose estimation
global optimization
Online Access:https://www.mdpi.com/1424-8220/19/7/1583
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spelling doaj-1b1d21ba999e4e0c8659b83563367f442020-11-24T21:21:14ZengMDPI AGSensors1424-82202019-04-01197158310.3390/s19071583s19071583Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global OptimizationLei Yin0Xiangjun Wang1Yubo Ni2State Key Laboratory of Precision Measuring Technology and Instruments, Tianjin University, No. 92 Weijin Road, Nankai District, Tianjin 300072, ChinaState Key Laboratory of Precision Measuring Technology and Instruments, Tianjin University, No. 92 Weijin Road, Nankai District, Tianjin 300072, ChinaMOEMS Education Ministry Key Laboratory, Tianjin University, No. 92 Weijin Road, Nankai District, Tianjin 300072, ChinaThree-dimensional (3D) reconstruction using line structured light vision system commonly cooperates with motion restraint devices, such as parallel guide rail push-broom devices. In this study, we propose a visual positioning method to eliminate the motion constraint. An extended orthogonal iteration algorithm for visual positioning is proposed to obtain the precise position of the line structured light binocular camera system during movement. The algorithm uses the information acquired by the binocular camera, and produces a better positioning accuracy than the traditional vision localization algorithm. Furthermore, a global optimization method is proposed to calculate the poses of the camera relative to the world coordinate system at each shooting position. This algorithm effectively reduces the error accumulation and pose drift during visual positioning, and 3D information of the surface can be measured via the proposed free-moving line structured light vision system. The simulation and physical experiments performed herein validate the proposed method and demonstrate the significant improvement in the reconstruction accuracy: when the test distance is 1.5 m, the root mean square error of the point cloud is within 0.5 mm.https://www.mdpi.com/1424-8220/19/7/15833D reconstructionstereo visionstructured lightpose estimationglobal optimization
collection DOAJ
language English
format Article
sources DOAJ
author Lei Yin
Xiangjun Wang
Yubo Ni
spellingShingle Lei Yin
Xiangjun Wang
Yubo Ni
Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization
Sensors
3D reconstruction
stereo vision
structured light
pose estimation
global optimization
author_facet Lei Yin
Xiangjun Wang
Yubo Ni
author_sort Lei Yin
title Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization
title_short Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization
title_full Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization
title_fullStr Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization
title_full_unstemmed Flexible Three-Dimensional Reconstruction via Structured-Light-Based Visual Positioning and Global Optimization
title_sort flexible three-dimensional reconstruction via structured-light-based visual positioning and global optimization
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2019-04-01
description Three-dimensional (3D) reconstruction using line structured light vision system commonly cooperates with motion restraint devices, such as parallel guide rail push-broom devices. In this study, we propose a visual positioning method to eliminate the motion constraint. An extended orthogonal iteration algorithm for visual positioning is proposed to obtain the precise position of the line structured light binocular camera system during movement. The algorithm uses the information acquired by the binocular camera, and produces a better positioning accuracy than the traditional vision localization algorithm. Furthermore, a global optimization method is proposed to calculate the poses of the camera relative to the world coordinate system at each shooting position. This algorithm effectively reduces the error accumulation and pose drift during visual positioning, and 3D information of the surface can be measured via the proposed free-moving line structured light vision system. The simulation and physical experiments performed herein validate the proposed method and demonstrate the significant improvement in the reconstruction accuracy: when the test distance is 1.5 m, the root mean square error of the point cloud is within 0.5 mm.
topic 3D reconstruction
stereo vision
structured light
pose estimation
global optimization
url https://www.mdpi.com/1424-8220/19/7/1583
work_keys_str_mv AT leiyin flexiblethreedimensionalreconstructionviastructuredlightbasedvisualpositioningandglobaloptimization
AT xiangjunwang flexiblethreedimensionalreconstructionviastructuredlightbasedvisualpositioningandglobaloptimization
AT yuboni flexiblethreedimensionalreconstructionviastructuredlightbasedvisualpositioningandglobaloptimization
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