Aerometrex launches bushfire fuel load calculation technology

By on 27 October, 2020

Calculated 3D fuel load densities around buildings with Aerometrex’s new system. Image provided.

Aerometrex has announced the launch of a sophisticated 3D fuel load calculation tool that leverages LiDAR-derived point cloud data and aerial imagery with custom algorithms. 

The aerial imagery firm says that the new tool can deliver high resolution 3D data of fuel loads under tree canopies in real time, able to provide detailed information not previously available to emergency services.

The launch comes after a period of intensive R&D by the firm, in a year that saw the Bushfire Royal Commission produce detailed recommendations, along with state inquiries and new funding for bushfire and disaster research.

Aerometrex carried out research at ten eucalypt forest sites in Belair National Park, testing the capability of aerial LiDAR acquisition to measure vegetation density and structure.

Managing director Mark Deuter said that the firm understands it is the first system able to standardise LiDAR capture for bushfire fuel load mapping in Australia, and the system is capable of high accuracy down to a height of 25-50cm above the ground.

“Aerometrex researchers developed a set of targeted vegetation metrics that accurately define the density, vertical connectivity and the horizontal continuity of the vegetation across the three key vegetation layers¬† — near-surface, elevated lower canopy and upper canopy –which are analogous to those defined in South Australian bushfire fuel load assessment standards,” he said.

“Proprietary algorithms were then developed that can be used to combine these fuel layer specific vegetation metrics into regional bushfire fuel load estimates, that show strong statistical correlation with overall fuel assessments previously collected within the study area by bushfire management experts using South Australian standardised field methods.”

The firm says that the technology is far more accurate than satellite imagery or RADAR with respect to capturing vegetation structure and density, and can be scaled from a single square metre, to a single home or entire region.

Stay up to date by getting stories like this delivered to your mailbox.
Sign up to receive our free weekly Spatial Source newsletter.

You may also like to read:


, , , , , , , , , , , ,

No comments yet.

Leave a Reply


Newsletter

Sign up now to stay up to date about all the news from Spatial Source. You will get a newsletter every week with the latest news.

  • This field is for validation purposes and should be left unchanged.
Q&A with spatial specialist, Inga Playle
Making a positive contribution to society and the environmen...
Singapore launches new 3D national map, OneMap3D
OneMap3D aims to enhance geospatial capabilities and provide...
Teamwork and talent for data analytics enterprise
Australian Spatial Analytics is a not-for-profit that trains...
CASA CEO outlines RPAS regulatory roadmap
At the AAM Summit, Pip Spence discussed ongoing RPAS regulat...
Delving into digital doppelgangers
We speak with three industry experts to get a view into the ...