An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds

An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds

Automatic leaf segmentation, as well as identification and classification methods that built upon it, are able to provide immediate monitoring for plant growth status to guarantee the output. Although 3D plant point clouds contain abundant phenotypic features, plant leaves are usually distributed in...

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Main Authors: Dawei Li, Yan Cao, Guoliang Shi, Xin Cai, Yang Chen, Sifan Wang, Siyuan Yan
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Facet over-segmentation
leaf segmentation
leaf area estimation
point cloud
3D joint filtering
Online Access:https://ieeexplore.ieee.org/document/8830350/
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spelling doaj-d04272b286ad44d2b1baa880b325ad482021-03-29T23:38:23ZengIEEEIEEE Access2169-35362019-01-01712905412907010.1109/ACCESS.2019.29403858830350An Overlapping-Free Leaf Segmentation Method for Plant Point CloudsDawei Li0https://orcid.org/0000-0002-9702-8848Yan Cao1Guoliang Shi2Xin Cai3https://orcid.org/0000-0002-5300-9733Yang Chen4Sifan Wang5Siyuan Yan6College of Information Sciences and Technology, Donghua University, Shanghai, ChinaCollege of Information Sciences and Technology, Donghua University, Shanghai, ChinaCollege of Information Sciences and Technology, Donghua University, Shanghai, ChinaCollege of Information Sciences and Technology, Donghua University, Shanghai, ChinaCollege of Information Sciences and Technology, Donghua University, Shanghai, ChinaCollege of Information Sciences and Technology, Donghua University, Shanghai, ChinaCollege of Information Sciences and Technology, Donghua University, Shanghai, ChinaAutomatic leaf segmentation, as well as identification and classification methods that built upon it, are able to provide immediate monitoring for plant growth status to guarantee the output. Although 3D plant point clouds contain abundant phenotypic features, plant leaves are usually distributed in clusters and are sometimes seriously overlapped in the canopy. Therefore, it is still a big challenge to automatically segment each individual leaf from a highly crowded plant canopy in 3D for plant phenotyping purposes. In this work, we propose an overlapping-free individual leaf segmentation method for plant point clouds using the 3D filtering and facet region growing. In order to separate leaves with different overlapping situations, we develop a new 3D joint filtering operator, which integrates a Radius-based Outlier Filter (RBOF) and a Surface Boundary Filter (SBF) to help to separate occluded leaves. By introducing the facet over-segmentation and facet-based region growing, the noise in segmentation is suppressed and labeled leaf centers can expand to their whole leaves, respectively. Our method can work on point clouds generated from three types of 3D imaging platforms, and also suitable for different kinds of plant species. In experiments, it obtains a point-level cover rate of 97% for Epipremnum aureum, 99% for Monstera deliciosa, 99% for Calathea makoyana, and 87% for Hedera nepalensis sample plants. At the leaf level, our method reaches an average Recall at 100.00%, a Precision at 99.33%, and an average F-measure at 99.66%, respectively. The proposed method can also facilitate the automatic traits estimation of each single leaf (such as the leaf area, length, and width), which has potential to become a highly effective tool for plant research and agricultural engineering.https://ieeexplore.ieee.org/document/8830350/Facet over-segmentationleaf segmentationleaf area estimationpoint cloud3D joint filtering
collection DOAJ
language English
format Article
sources DOAJ
author Dawei Li
Yan Cao
Guoliang Shi
Xin Cai
Yang Chen
Sifan Wang
Siyuan Yan
spellingShingle Dawei Li
Yan Cao
Guoliang Shi
Xin Cai
Yang Chen
Sifan Wang
Siyuan Yan
An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds
IEEE Access
Facet over-segmentation
leaf segmentation
leaf area estimation
point cloud
3D joint filtering
author_facet Dawei Li
Yan Cao
Guoliang Shi
Xin Cai
Yang Chen
Sifan Wang
Siyuan Yan
author_sort Dawei Li
title An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds
title_short An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds
title_full An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds
title_fullStr An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds
title_full_unstemmed An Overlapping-Free Leaf Segmentation Method for Plant Point Clouds
title_sort overlapping-free leaf segmentation method for plant point clouds
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description Automatic leaf segmentation, as well as identification and classification methods that built upon it, are able to provide immediate monitoring for plant growth status to guarantee the output. Although 3D plant point clouds contain abundant phenotypic features, plant leaves are usually distributed in clusters and are sometimes seriously overlapped in the canopy. Therefore, it is still a big challenge to automatically segment each individual leaf from a highly crowded plant canopy in 3D for plant phenotyping purposes. In this work, we propose an overlapping-free individual leaf segmentation method for plant point clouds using the 3D filtering and facet region growing. In order to separate leaves with different overlapping situations, we develop a new 3D joint filtering operator, which integrates a Radius-based Outlier Filter (RBOF) and a Surface Boundary Filter (SBF) to help to separate occluded leaves. By introducing the facet over-segmentation and facet-based region growing, the noise in segmentation is suppressed and labeled leaf centers can expand to their whole leaves, respectively. Our method can work on point clouds generated from three types of 3D imaging platforms, and also suitable for different kinds of plant species. In experiments, it obtains a point-level cover rate of 97% for Epipremnum aureum, 99% for Monstera deliciosa, 99% for Calathea makoyana, and 87% for Hedera nepalensis sample plants. At the leaf level, our method reaches an average Recall at 100.00%, a Precision at 99.33%, and an average F-measure at 99.66%, respectively. The proposed method can also facilitate the automatic traits estimation of each single leaf (such as the leaf area, length, and width), which has potential to become a highly effective tool for plant research and agricultural engineering.
topic Facet over-segmentation
leaf segmentation
leaf area estimation
point cloud
3D joint filtering
url https://ieeexplore.ieee.org/document/8830350/
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