A Weighted Closed-Form Solution for RGB-D Data Registration

Vestena, K. M.; Santos, Daniel Rodrigues dos; Jr., E. M. Oilveira; Pavan, N. L.; Khoshelham, Kourosh

doi:10.5194/isprsarchives-xli-b3-403-2016

Cited by 2 publications

(1 citation statement)

References 22 publications

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“…However, they generally require continuous input data and occupy a large amount of the computing resources in smartphones, and they have generally been used only in a small range of VR/AR applications. In [36][37][38][39][40][41], RGB-D depth cameras were used to study high-precision real-time indoor 3D surface model reconstruction and mapping technologies. The RGB-D depth camera can provide depth information directly to the sensor while acquiring images, which improves the ability of color camera-pose estimation.…”

Section: Related Workmentioning

confidence: 99%

A Precise Indoor Visual Positioning Approach Using a Built Image Feature Database and Single User Image from Smartphone Cameras

Chen

Liao

et al. 2020

Remote Sensing

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Indoor visual positioning is a key technology in a variety of indoor location services and applications. The particular spatial structures and environments of indoor spaces is a challenging scene for visual positioning. To address the existing problems of low positioning accuracy and low robustness, this paper proposes a precision single-image-based indoor visual positioning method for a smartphone. The proposed method includes three procedures: First, color sequence images of the indoor environment are collected in an experimental room, from which an indoor precise-positioning-feature database is produced, using a classic speed-up robust features (SURF) point matching strategy and the multi-image spatial forward intersection. Then, the relationships between the smartphone positioning image SURF feature points and object 3D points are obtained by an efficient similarity feature description retrieval method, in which a more reliable and correct matching point pair set is obtained, using a novel matching error elimination technology based on Hough transform voting. Finally, efficient perspective-n-point (EPnP) and bundle adjustment (BA) methods are used to calculate the intrinsic and extrinsic parameters of the positioning image, and the location of the smartphone is obtained as a result. Compared with the ground truth, results of the experiments indicate that the proposed approach can be used for indoor positioning, with an accuracy of approximately 10 cm. In addition, experiments show that the proposed method is more robust and efficient than the baseline method in a real scene. In the case where sufficient indoor textures are present, it has the potential to become a low-cost, precise, and highly available indoor positioning technology.

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Section: Related Workmentioning

confidence: 99%

A Precise Indoor Visual Positioning Approach Using a Built Image Feature Database and Single User Image from Smartphone Cameras

Chen

Liao

et al. 2020

Remote Sensing

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A Vertex-to-Edge Weighted Closed-Form Method for Dense RGB-D Indoor SLAM

Tang

Yuan

et al. 2019

IEEE Access

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RGB-D dense mapping systems are widely used for indoor navigation and augmented reality. However, the drift in egomotion estimation systems accumulates as the systems expand over space and time. In this paper, we develop a vertex-to-edge weighted closed-form algorithm to reduce camera drift for dense RGB-D indoor simultaneous localization and mapping (SLAM). First, due to the high-frame rate of common RGB-D sensors, in our approach, we employ a robust key-frame selection strategy. We then consider the typical depth noise properties of the sensor and exploit both visual and geometric information to determine the camera motion of the key frames. To enforce global consistency, we employ a combination of techniques to enhance the efficiency and accuracy of loop closure detection and then factor graph optimization is used to mitigate trajectory drift; specifically, the graph edges are weighted by residual errors. To demonstrate its accuracy and robustness, our SLAM system is tested on seven sets of sequences from publicly available benchmark datasets collected with Kinect v1 and on three sets of sequences taken with a handheld structure sensor. In a direct comparison, our approach yields significantly less trajectory error than several other stateof-the-art methods. INDEX TERMS 3D indoor mapping, simultaneous localization and mapping, loop-closure detection, camera tracking, global optimization.

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A Weighted Closed-Form Solution for RGB-D Data Registration

Cited by 2 publications

References 22 publications

A Precise Indoor Visual Positioning Approach Using a Built Image Feature Database and Single User Image from Smartphone Cameras

A Precise Indoor Visual Positioning Approach Using a Built Image Feature Database and Single User Image from Smartphone Cameras

A Vertex-to-Edge Weighted Closed-Form Method for Dense RGB-D Indoor SLAM

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