Open Access Repository

Comparing yield estimates derived from LiDAR and aerial photogrammetric point-cloud data with cut-to-length harvester data in a Pinus radiata plantation in Tasmania

Caccamo, G, Iqbal, AI, Osborn, J ORCID: 0000-0003-2278-3766, Bi, H, Arkley, K, Melville, G, Aurik, D and Stone, C 2018 , 'Comparing yield estimates derived from LiDAR and aerial photogrammetric point-cloud data with cut-to-length harvester data in a Pinus radiata plantation in Tasmania' , Australian Forestry , pp. 1-11 , doi: 10.1080/00049158.2018.1458582.

Full text not available from this repository.


Accurate mapping of timber resources in commercial forestry is essential to support planning and management operations of forest growers. Over the last two decades, Light Detection and Ranging (LiDAR) systems have been successfully deployed for the collection of point-cloud data for accurate modelling of forest attributes that are traditionally obtained from plot-based inventory. In recent years, studies conducted in North America and Scandinavia have shown that three-dimensional point clouds derived from digital aerial photogrammetric (AP) data can be used to model forest attributes with a level of accuracy similar to traditional LiDAR-based approaches. A comparative analysis of the performance of the two point-cloud technologies has never been attempted in Australian plantations. In this study, we compared the performance of LiDAR-based and AP-based point clouds for estimating total recoverable volume in a Pinus radiata plantation at Springfield in north-eastern Tasmania, using volume data collected by harvesting machines as a reference. Our results showed that AP point clouds can be used for mapping total recoverable volume in P. radiata plantations with levels of accuracy that are comparable to LiDAR-based estimates. Plot-level relative root mean squared error (RMSE%) values were 23.85% for LiDAR and ranged from 22.07 to 27.10% for the three AP dense point-cloud settings evaluated. At the stand level, RMSE% decreased to 9.86 and 8.91% for LiDAR and AP, respectively. Both LiDAR-based and AP-based modelled volumes showed a close agreement with volumes measured using harvester head data, demonstrating the potential of AP technology for the management and planning of forestry operations in softwood plantations.

Item Type: Article
Authors/Creators:Caccamo, G and Iqbal, AI and Osborn, J and Bi, H and Arkley, K and Melville, G and Aurik, D and Stone, C
Keywords: remote sensing, photogrammetry, forestry, forest inventory
Journal or Publication Title: Australian Forestry
Publisher: Taylor & Francis Australasia
ISSN: 0004-9158
DOI / ID Number: 10.1080/00049158.2018.1458582
Copyright Information:

Copyright 2018 Crown Copyright in the Commonwealth of Australia. State of New South Wales through the Department of Industry, Skills and Regional Development

Related URLs:
Item Statistics: View statistics for this item

Actions (login required)

Item Control Page Item Control Page