Ground-Plane-Based Absolute Scale Estimation for Monocular Visual Odometry

Dingfu Zhou; Yuchao Dai; Hongdong Li

doi:10.1109/TITS.2019.2900330

Ground-Plane-Based Absolute Scale Estimation for Monocular Visual Odometry

Dingfu Zhou, Yuchao Dai, Hongdong Li

School of Electronics and Information

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

Recovering an absolute metric scale from a monocular camera is a challenging but highly desirable problem for monocular camera-based systems. By using different kinds of cues, various approaches have been proposed for scale estimation, such as camera height and object size. In this paper, first, we summarize different kinds of scale estimation approaches. Then, we propose a robust divide-And-conquer absolute scale estimation method based on the ground plane and camera height by analyzing the advantages and disadvantages of different approaches. By using the estimated scale, an effective scale correction strategy has been proposed to reduce the scale drift during the monocular visual odometry estimation process. Finally, the effectiveness and robustness of the proposed method have been verified on both public and self-collected image sequences.

Original language	English
Article number	8708682
Pages (from-to)	791-802
Number of pages	12
Journal	IEEE Transactions on Intelligent Transportation Systems
Volume	21
Issue number	2
DOIs	https://doi.org/10.1109/TITS.2019.2900330
State	Published - Feb 2020

Keywords

Absolute scale estimation
ground plane
monocular VO and SLAM
scale correction

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10.1109/TITS.2019.2900330

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title = "Ground-Plane-Based Absolute Scale Estimation for Monocular Visual Odometry",

abstract = "Recovering an absolute metric scale from a monocular camera is a challenging but highly desirable problem for monocular camera-based systems. By using different kinds of cues, various approaches have been proposed for scale estimation, such as camera height and object size. In this paper, first, we summarize different kinds of scale estimation approaches. Then, we propose a robust divide-And-conquer absolute scale estimation method based on the ground plane and camera height by analyzing the advantages and disadvantages of different approaches. By using the estimated scale, an effective scale correction strategy has been proposed to reduce the scale drift during the monocular visual odometry estimation process. Finally, the effectiveness and robustness of the proposed method have been verified on both public and self-collected image sequences.",

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AU - Dai, Yuchao

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N2 - Recovering an absolute metric scale from a monocular camera is a challenging but highly desirable problem for monocular camera-based systems. By using different kinds of cues, various approaches have been proposed for scale estimation, such as camera height and object size. In this paper, first, we summarize different kinds of scale estimation approaches. Then, we propose a robust divide-And-conquer absolute scale estimation method based on the ground plane and camera height by analyzing the advantages and disadvantages of different approaches. By using the estimated scale, an effective scale correction strategy has been proposed to reduce the scale drift during the monocular visual odometry estimation process. Finally, the effectiveness and robustness of the proposed method have been verified on both public and self-collected image sequences.

AB - Recovering an absolute metric scale from a monocular camera is a challenging but highly desirable problem for monocular camera-based systems. By using different kinds of cues, various approaches have been proposed for scale estimation, such as camera height and object size. In this paper, first, we summarize different kinds of scale estimation approaches. Then, we propose a robust divide-And-conquer absolute scale estimation method based on the ground plane and camera height by analyzing the advantages and disadvantages of different approaches. By using the estimated scale, an effective scale correction strategy has been proposed to reduce the scale drift during the monocular visual odometry estimation process. Finally, the effectiveness and robustness of the proposed method have been verified on both public and self-collected image sequences.

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Ground-Plane-Based Absolute Scale Estimation for Monocular Visual Odometry

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