NZJFor Home Search Join Author instructions NZIF website NZJFor Home NZJFor

    ABSTRACT

New Zealand Journal of Forestry (2021) 65(4): 6–11
©New Zealand Institute of Forestry

Feature article
Structure-from-Motion photogrammetry as a tool for harvest residue pile measurement

Luke Riedinger *,1 and Campbell Harvey 2

1 Final year Forest Engineering Honours student, 2020. Corresponding author: lukeariedinger@gmail.com
2 PhD student, School of Forestry, University of Canterbury, Christchurch.
*Corresponding author.

Abstract: The issue of harvest residue management has been brought to the forefront of public knowledge after recent storms. Key to managing residue piles is the ability to measure them in a repeatable manner. This work aims to evaluate the method of Structure-from- Motion (SfM) photogrammetry for determining the bulk volume of piled harvest residues. A series of piles were photographed and reconstructed as Point Clouds and Digital Elevation Models (DEMs) using SfM for the measurement of bulk volume. True dimensions of the piles were well preserved in the models, with most models reproducing to within 0.1 m of actual dimensions. The DEMs, from which bulk volumes were determined, had resolutions ranging from 3.36 to 1.51 cm/pixel. The combination of these factors indicates that the volumes determined from the models were accurate representations of actual pile volumes. It is concluded that SfM photogrammetry is a reasonable method to be employed by harvest managers looking to determine the volume of piled forestry slash. Due to the time involved in processing the imagery, which ranges from 30 minutes to over three hours, it is likely that its use is targeted at high-risk residue piles or as a part of a residue monitoring study.
(no keywords)


Issues > 65(4) > Abstract
Cover

Get PDF
Download article as 466 KB PDF file

As an issue ≤ 3 years old, access to this article is restricted to subscribers. (All articles from issues > 3 years old are free.)

(You can read PDF files with the free Adobe Acrobat Reader)