Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data

Hyukmin Kwon; Mincheol Kim; Juseong Lee; Jinbaek Kim; Nakju Lett Doh; Bum Jae You

doi:10.1109/URAI.2018.8441776

Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data

Hyukmin Kwon, Mincheol Kim, Juseong Lee, Jinbaek Kim, Nakju Lett Doh, Bum Jae You

School of Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Citations (Scopus)

Abstract

Robust plane extraction from point cloud is important for 3D environment modeling in autonomous navigation and 3D object manipulation in robotics. Conventional plane extraction approaches using repetitive decomposing and merging process, however, suffered from low accuracy when the point cloud data density is low or varies significantly. In this paper, a fast and robust plane extraction algorithm is introduced by proposing an expansion stage after every decomposition stage unlike traditional decompose-and-merge approaches that continue to decompose until a terminal condition is reached. The proposed method uses the Mahalanobis distance from the center of the plane for plane expansion while previous works utilized the orthogonal distance in the process of plane extension. This enables the algorithm to omit points that are orthogonally close to the plane but do not actually belong on the plane. Various experimental results show that the proposed structure leads to more accurate and succinct results under the conditions where traditional decomposing and merging algorithms fall behind in performance. The number of divided planes is reduced by 73% and this shortened the elapsed time by 62%. In the end, the proposed method excelled in performance successfully where point cloud density falls low or where different planes meet to make an edge.

Original language	English
Title of host publication	2018 15th International Conference on Ubiquitous Robots, UR 2018
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	501-505
Number of pages	5
ISBN (Print)	9781538663349
DOIs	https://doi.org/10.1109/URAI.2018.8441776
Publication status	Published - 2018 Aug 20
Event	15th International Conference on Ubiquitous Robots, UR 2018 - Honolulu, United States Duration: 2018 Jun 27 → 2018 Jun 30

Publication series

Name	2018 15th International Conference on Ubiquitous Robots, UR 2018

Other

Other	15th International Conference on Ubiquitous Robots, UR 2018
Country/Territory	United States
City	Honolulu
Period	18/6/27 → 18/6/30

ASJC Scopus subject areas

Artificial Intelligence
Control and Optimization
Mechanical Engineering

Access to Document

10.1109/URAI.2018.8441776

Cite this

Kwon, H., Kim, M., Lee, J., Kim, J., Doh, N. L., & You, B. J. (2018). Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data. In 2018 15th International Conference on Ubiquitous Robots, UR 2018 (pp. 501-505). [8441776] (2018 15th International Conference on Ubiquitous Robots, UR 2018). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/URAI.2018.8441776

Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data. / Kwon, Hyukmin; Kim, Mincheol; Lee, Juseong et al.
2018 15th International Conference on Ubiquitous Robots, UR 2018. Institute of Electrical and Electronics Engineers Inc., 2018. p. 501-505 8441776 (2018 15th International Conference on Ubiquitous Robots, UR 2018).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Kwon, H, Kim, M, Lee, J, Kim, J, Doh, NL & You, BJ 2018, Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data. in 2018 15th International Conference on Ubiquitous Robots, UR 2018., 8441776, 2018 15th International Conference on Ubiquitous Robots, UR 2018, Institute of Electrical and Electronics Engineers Inc., pp. 501-505, 15th International Conference on Ubiquitous Robots, UR 2018, Honolulu, United States, 18/6/27. https://doi.org/10.1109/URAI.2018.8441776

Kwon H, Kim M, Lee J, Kim J, Doh NL, You BJ. Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data. In 2018 15th International Conference on Ubiquitous Robots, UR 2018. Institute of Electrical and Electronics Engineers Inc. 2018. p. 501-505. 8441776. (2018 15th International Conference on Ubiquitous Robots, UR 2018). doi: 10.1109/URAI.2018.8441776

@inproceedings{0652e539e6354ece908fcd0e3eaa51f0,

title = "Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data",

abstract = "Robust plane extraction from point cloud is important for 3D environment modeling in autonomous navigation and 3D object manipulation in robotics. Conventional plane extraction approaches using repetitive decomposing and merging process, however, suffered from low accuracy when the point cloud data density is low or varies significantly. In this paper, a fast and robust plane extraction algorithm is introduced by proposing an expansion stage after every decomposition stage unlike traditional decompose-and-merge approaches that continue to decompose until a terminal condition is reached. The proposed method uses the Mahalanobis distance from the center of the plane for plane expansion while previous works utilized the orthogonal distance in the process of plane extension. This enables the algorithm to omit points that are orthogonally close to the plane but do not actually belong on the plane. Various experimental results show that the proposed structure leads to more accurate and succinct results under the conditions where traditional decomposing and merging algorithms fall behind in performance. The number of divided planes is reduced by 73% and this shortened the elapsed time by 62%. In the end, the proposed method excelled in performance successfully where point cloud density falls low or where different planes meet to make an edge.",

author = "Hyukmin Kwon and Mincheol Kim and Juseong Lee and Jinbaek Kim and Doh, {Nakju Lett} and You, {Bum Jae}",

note = "Funding Information: *This research was supported by the Global Frontier Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT. (NRF-2010-0029759) 1H. Kwon and N. L. Doh are with the School of Electrical Engineering, Korea University, Seoul 02841, Korea. ttnpta@korea.ac.kr, nakju@korea.ac.kr 2M. Kim, J. Lee, J. Kim, and B.-J. You are with Center of Human-centered Interaction for Coexistence (CHIC), Seoul 02792, Korea. balla@chic.re.kr, juseong.lee@chic.re.kr, jbkim@chic.re.kr, ybj@chic.re.kr 3H. Kwon and B.-J. You are with Center for Robotics Research, Korea Institute of Science and Technology (KIST), Seoul 02792, Korea. ttnpta@kist.re.kr, ybj@kist.re.kr 4N. L. Doh is with TeeLabs, Seoul 02857, Korea. nakju@teevr.com N. L. Doh and B.-J. You are contributed equally as corresponding authors. Publisher Copyright: {\textcopyright} 2018 IEEE.; 15th International Conference on Ubiquitous Robots, UR 2018 ; Conference date: 27-06-2018 Through 30-06-2018",

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AU - Lee, Juseong

AU - Kim, Jinbaek

AU - Doh, Nakju Lett

AU - You, Bum Jae

N1 - Funding Information: *This research was supported by the Global Frontier Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT. (NRF-2010-0029759) 1H. Kwon and N. L. Doh are with the School of Electrical Engineering, Korea University, Seoul 02841, Korea. ttnpta@korea.ac.kr, nakju@korea.ac.kr 2M. Kim, J. Lee, J. Kim, and B.-J. You are with Center of Human-centered Interaction for Coexistence (CHIC), Seoul 02792, Korea. balla@chic.re.kr, juseong.lee@chic.re.kr, jbkim@chic.re.kr, ybj@chic.re.kr 3H. Kwon and B.-J. You are with Center for Robotics Research, Korea Institute of Science and Technology (KIST), Seoul 02792, Korea. ttnpta@kist.re.kr, ybj@kist.re.kr 4N. L. Doh is with TeeLabs, Seoul 02857, Korea. nakju@teevr.com N. L. Doh and B.-J. You are contributed equally as corresponding authors. Publisher Copyright: © 2018 IEEE.

PY - 2018/8/20

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N2 - Robust plane extraction from point cloud is important for 3D environment modeling in autonomous navigation and 3D object manipulation in robotics. Conventional plane extraction approaches using repetitive decomposing and merging process, however, suffered from low accuracy when the point cloud data density is low or varies significantly. In this paper, a fast and robust plane extraction algorithm is introduced by proposing an expansion stage after every decomposition stage unlike traditional decompose-and-merge approaches that continue to decompose until a terminal condition is reached. The proposed method uses the Mahalanobis distance from the center of the plane for plane expansion while previous works utilized the orthogonal distance in the process of plane extension. This enables the algorithm to omit points that are orthogonally close to the plane but do not actually belong on the plane. Various experimental results show that the proposed structure leads to more accurate and succinct results under the conditions where traditional decomposing and merging algorithms fall behind in performance. The number of divided planes is reduced by 73% and this shortened the elapsed time by 62%. In the end, the proposed method excelled in performance successfully where point cloud density falls low or where different planes meet to make an edge.

AB - Robust plane extraction from point cloud is important for 3D environment modeling in autonomous navigation and 3D object manipulation in robotics. Conventional plane extraction approaches using repetitive decomposing and merging process, however, suffered from low accuracy when the point cloud data density is low or varies significantly. In this paper, a fast and robust plane extraction algorithm is introduced by proposing an expansion stage after every decomposition stage unlike traditional decompose-and-merge approaches that continue to decompose until a terminal condition is reached. The proposed method uses the Mahalanobis distance from the center of the plane for plane expansion while previous works utilized the orthogonal distance in the process of plane extension. This enables the algorithm to omit points that are orthogonally close to the plane but do not actually belong on the plane. Various experimental results show that the proposed structure leads to more accurate and succinct results under the conditions where traditional decomposing and merging algorithms fall behind in performance. The number of divided planes is reduced by 73% and this shortened the elapsed time by 62%. In the end, the proposed method excelled in performance successfully where point cloud density falls low or where different planes meet to make an edge.

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BT - 2018 15th International Conference on Ubiquitous Robots, UR 2018

PB - Institute of Electrical and Electronics Engineers Inc.

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Y2 - 27 June 2018 through 30 June 2018

ER -

Robust Plane Extraction using Supplementary Expansion for Low-Density Point Cloud Data

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