Archaeology / Cultural Heritage / History

[Archaeology] [twocolumns]

Anthropology / Human Evolution / Linguistics

[Anthropology] [twocolumns]

Palaeontology / Palaeoclimate / Earth Sciences

[Palaeontology] [twocolumns]

Evolution / Genetics / Biology

[Evolution][twocolumns]

Automated laser-scanning 'hunter drone' seeks out fossils, minerals and biological targets


Science fiction came up with machine-intelligent hunter drones and they have now become science fact with a new HKU-codeveloped autonomous 'hunter drone' that seeks out targets at night using a scanning laser.

Automated laser-scanning 'hunter drone' seeks out fossils, minerals and biological targets
New HKU-codeveloped automated laser-scanning ‘hunter drone’ seeks out fossils, minerals and biological
targets at night (artist visualised image) [Credit: Thomas G Kaye & Michael Pittman]
This technique—laser-stimulated fluorescence (LSF)—was codeveloped at HKU and has been highly successful in paleontology, making fossil bones glow and revealing otherwise invisible details like skin and cartilage. The application of LSF to an aerial system is possible because of the laser's ability to project over great distances with little loss in power.

Automated laser-scanning 'hunter drone' seeks out fossils, minerals and biological targets
Hot spot on laser ‘scan strip’ produced by the Laser Raptor drone system is ~2cm wide fragment
of a fossil mammal tooth [Credit: Thomas G Kaye & Michael Pittman]



HKU Research Assistant Professor Dr. Michael Pittman (Vertebrate Paleontology Laboratory, Division of Earth & Planetary Science and Department of Earth Sciences) and his colleague Thomas G Kaye of the Foundation for Scientific Advancement made this a reality by developing a fully autonomous LSF drone system. "Nicknamed 'Laser Raptor,' this system is designed to more efficiently seek out fossils exposed on the surface in the field," said Dr. Pittman.

Automated laser-scanning 'hunter drone' seeks out fossils, minerals and biological targets
~2cm wide fragment of a fossil mammal tooth found using the Laser Raptor drone system. The tooth belongs
to a brontothere which lived in ancient Wyoming, USA ~35 million years ago. Scale is 5mm
[Credit: Thomas G Kaye & Michael Pittman]
Loaded with pre-programmed flight paths during the day, this prototype was launched at night in the badlands of Arizona and Wyoming, U.S. to search for fossils. Laser Raptor flies rapidly to search locations using its on-board navigation and then descends and maintains an altitude of 4 meters above ground so it can 'mow the lawn' in search of glowing targets as small as a thumbnail. After each "mission" is complete, a video of the laser scan is processed to find hot spots that are investigated the next day, leading to the recovery of new fossil specimens.





Fluorescence is extremely sensitive to differences in mineral composition. Although Laser Raptor was designed to locate fossils, it is ready to seek out a whole range of fluorescent targets including minerals e.g. to study rare and unusual geology or in search of mining materials like gemstones, certain organisms like scorpions, shellfish and cyanobacteria, and even archaeological artifacts and structures.

Asked about future plans, Thomas Kaye replied, "As members of HKU's Laboratory of Space Research, Dr. Pittman and I are currently working to develop LSF applications for the study of geologic landscapes beyond Earth."

The paper is published in Methods in Ecology and Evolution.

Source: The University of Hong Kong [June 23, 2020]

TANN

Post A Comment
  • Blogger Comment using Blogger
  • Facebook Comment using Facebook
  • Disqus Comment using Disqus

1 comment :


Exhibitions / Travel

[Exhibitions] [bsummary]

Natural Heritage / Environment / Wildlife

[Natural Heritage] [list]

Astronomy / Astrobiology / Space Exploration

[Universe] [list]