Hypertemporal Imaging Capability of UAS Improves Photogrammetric Tree Canopy Models
Fletcher, Andrew and Mather, Richard (2020) Hypertemporal Imaging Capability of UAS Improves Photogrammetric Tree Canopy Models. Remote Sensing, 12 (8). p. 1238. ISSN 2072-4292
|
Text
17996_Mather_R.pdf - Accepted Version Available under License Creative Commons Attribution Non-commercial No Derivatives. Download (29MB) | Preview |
Abstract
Small uncrewed aerial systems (UASs) generate imagery that can provide detailed information regarding condition and change if the products are reproducible through time. Densified point clouds form the basic information for digital surface models and orthorectified mosaics, so variable dense point reconstruction will introduce uncertainty. Eucalyptus trees typically have sparse and discontinuous canopies with pendulous leaves that present a difficult target for photogrammetry software. We examine how spectral band, season, solar azimuth, elevation, and some processing settings impact completeness and reproducibility of dense point clouds for shrub swamp and Eucalyptus forest canopy. At the study site near solar noon, selecting near infrared camera increased projected tree canopy fourfold, and dense point features more than 2 m above ground were increased sixfold compared to red spectral bands. Near infrared (NIR) imagery improved projected and total dense features two- and threefold, respectively, compared to default green band imagery. The lowest solar elevation captured (25°) consistently improved canopy feature reconstruction in all spectral bands. Although low solar elevations are typically avoided for radiometric reasons, we demonstrate that these conditions improve the detection and reconstruction of complex tree canopy features in natural Eucalyptus forests. Combining imagery sets captured at different solar elevations improved the reproducibility of dense point clouds between seasons. Total dense point cloud features reconstructed were increased by almost 10 million points (20%) when imagery used was NIR combining solar noon and low solar elevation imagery. It is possible to use agricultural multispectral camera rigs to reconstruct Eucalyptus tree canopy and shrub swamp by combining imagery and selecting appropriate spectral bands for processing
| Item Type: | Article |
|---|---|
| Keywords: | UAS, canopy, repeatability, photogrammetry, eucalyptus, shrubs |
| Depositing User: | RED Unit Admin |
| Date Deposited: | 15 Apr 2020 08:38 |
| Last Modified: | 03 Jun 2020 07:25 |
| URI: | https://bnu.repository.guildhe.ac.uk/id/eprint/17996 |
Actions (login required)
 |
Edit Item |