Segmentation example using scanned CT images of wildlife for algorithm development to generate grayscale images. His 3D image in color is used for visualization only. Image segmentation is calculated directly from the grayscale reconstructed radiodensity values. (A) an Australian water dragon (Intellagama lesueurii) under a metal frying pan, (B) a barramundi fish (Lates calcarifer) in a mock test bag scenario with a metal toy car, sock and water bottle, (C) Lorikeet (Trichoglossus moluccanus) to the next 3 liter water bottle. credit: Frontiers of Conservation Science (2022). DOI: 10.3389/fcosc.2022.757950
Frontiers of Conservation Science (2022). DOI: 10.3389/fcosc.2022.757950″ width=”800″ height=”438″/>
A paper titled “Real-time Tomographic 3D X-ray Imaging and Automated Algorithms to Detect Illicit Trade in Wildlife” Frontiers of Conservation Sciencewas the first to document the use of 3D X-ray CT scanning technology for wildlife conservation in the scientific literature.
This study is the result of a detection and protection agency. Department of Agriculture, Fisheries and Forestry (DAFF), Department for Climate Change, Energy, Environment and Water (DCCEEW), Lapiscan Systems and Taronga Conservation Society Australia to combat illegal wildlife smuggling through the mail and traveler parcel routes. We are working together to
Chris Locke, Deputy Director of the DAFF’s Biosecurity and Compliance Group, and Sam Hush, Acting Deputy Director for Environmental Compliance, DCCEEW, said the paper, published in Frontiers, the journal Human-Wildlife Interactions in Conservation Science, , said they provided reported results for three wildlife classes (lizards, birds, fish, etc.) within 3D X-ray CT security scan images.
“Illegal wildlife trafficking poses a significant biosecurity risk to Australia as it can introduce pests and diseases that can affect the environment as well as human and animal health.” said Dr. Locke.
“This paper demonstrates the endless potential of 3D X-ray algorithms to help deter exotic wildlife trafficking and help protect the Australian agricultural industry and unique natural environment from exotic pests and diseases.
“This innovative technology is an invaluable platform that complements existing biosecurity and wildlife detection tools at Australian borders, with potential for global applications in the future.”
Hush said wildlife trafficking is also detrimental to Australia’s biodiversity.
“Removing wildlife from the wild poses risks to species conservation, local populations, habitats and ecosystems. It protects our unique natural environment from disease and disease,” Hash said.
“It’s also very cruel. Smuggled animals often suffer from stress, dehydration and starvation, and many die in transit.
“We have been working with DAFF to test and validate wildlife 3D X-rays and algorithms, both of which have been proven to be highly effective and lead to many important detections. .”
US impact on Australia’s illegal pet trade
Vanessa Pirotta et al., Detecting Illegal Wildlife Trade with Real-Time Tomographic 3D X-Ray Imaging and Automated Algorithms, Frontiers of Conservation Science (2022). DOI: 10.3389/fcosc.2022.757950
Provided by the Australian Department of Agriculture, Forestry and Fisheries
Quote: Using 3D X-ray technology for thedetection of illegal Wildlife Trafficking (September 23, 2022) from https://phys.org/news/2022-09-3d-x-ray-technology-illegal-wildlife on September 2022 Obtained on the 23rd of the month.html
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