Achtung: hohPublica wurde am 18.11.2024 aktualisiert. Falls Sie auf Darstellungsfehler stoßen, löschen Sie bitte Ihren Browser-Cache (Strg + Umschalt + Entf). *** Attention: hohPublica was last updated on November 18, 2024. If you encounter display errors, please delete your browser cache (Ctrl + Shift + Del).
 

A new version of this entry is available:

Thumbnail Image
Article
2024

Effects of different ground segmentation methods on the accuracy of UAV-based canopy volume measurements

Han, Leng Wang, Zhichong He, Miao He, Xiongkui
  fpls-15-1393592.pdf  (2.93 MB)

Abstract

The nonuniform distribution of fruit tree canopies in space poses a challenge for precision management. In recent years, with the development of Structure from Motion (SFM) technology, unmanned aerial vehicle (UAV) remote sensing has been widely used to measure canopy features in orchards to balance efficiency and accuracy. A pipeline of canopy volume measurement based on UAV remote sensing was developed, in which RGB and digital surface model (DSM) orthophotos were constructed from captured RGB images, and then the canopy was segmented using U-Net, OTSU, and RANSAC methods, and the volume was calculated. The accuracy of the segmentation and the canopy volume measurement were compared. The results show that the U-Net trained with RGB and DSM achieves the best accuracy in the segmentation task, with mean intersection of concatenation (MIoU) of 84.75% and mean pixel accuracy (MPA) of 92.58%. However, in the canopy volume estimation task, the U-Net trained with DSM only achieved the best accuracy with Root mean square error (RMSE) of 0.410 m 3 , relative root mean square error (rRMSE) of 6.40%, and mean absolute percentage error (MAPE) of 4.74%. The deep learning-based segmentation method achieved higher accuracy in both the segmentation task and the canopy volume measurement task. For canopy volumes up to 7.50 m 3 , OTSU and RANSAC achieve an RMSE of 0.521 m 3 and 0.580 m 3 , respectively. Therefore, in the case of manually labeled datasets, the use of U-Net to segment the canopy region can achieve higher accuracy of canopy volume measurement. If it is difficult to cover the cost of data labeling, ground segmentation using partitioned OTSU can yield more accurate canopy volumes than RANSAC.

File is subject to an embargo until

This is a correction to:

A correction to this entry is available:

This is a new version of:

Notes

Publication license


CC BY 4.0

Publication series

Published in

Frontiers in plant science, 15 (2024), 1393592. https://doi.org/10.3389/fpls.2024.1393592. ISSN: 1664-462X
Faculty
Institute

Examination date

Supervisor

Edition / version

Citation

Identification

https://doi.org/10.3389/fpls.2024.1393592
 https://hohpublica.uni-hohenheim.de/handle/123456789/16023

DOI

ISSN

ISBN

Language
English

Publisher

Publisher place

Classification (DDC)
630 Agriculture

Collections

Institut für Agrartechnik

Original object

Free keywords

UAV Ground segmentation Canopy volume OTSU RANSAC

Standardized keywords (GND)

Sustainable Development Goals

BibTeX

@article{Han2024-06-18, doi = {10.3389/fpls.2024.1393592}, author = {Han, Leng and Wang, Zhichong and He, Miao et al.}, title = {Effects of different ground segmentation methods on the accuracy of UAV-based canopy volume measurements}, journal = {Frontiers in plant science}, year = {2024}, volume = {15}, }
Share this publication
Full item page