Although it’s still the “dawn of drone ecology,” as one innovator calls it, these unmanned aircraft are already skimming over Indonesia’s jungle canopy to photograph orangutans, protecting rhinos in Nepal and studying invasive aquatic plants in Florida.
Relatively cheap, portable and earth-hugging, they fill a gap between satellite and manned aircraft imagery and on-the-ground observations, says Percival Franklin at the University of Florida, which has been developing such unmanned aircraft for more than a decade.
“The potential uses are almost unlimited,” says Ian Singleton, director of the Sumatran Orangutan Conservation Program, testing UAS this year over Indonesia’s Tripa peat forest where fires set by palm oil growers are threatening the world’s highest density habitat of the great apes.
Conservation is one of the latest roles for these multi-taskers, either autonomously controlled by on-board computers or under remote guidance of a navigator. Ranging in size from less than half a kilogram (pound) to more than 18 metric tons (20 tons), UAS have been used for firefighting, road patrols, hurricane tracking and other jobs too dull, dirty or dangerous for piloted craft.
A conservation drone pioneer, Lian Pin Koh of the Swiss Federal Institute of Technology, says the idea came to him after another sweaty, jungle slog in Sabah, Malaysia, hauling heavy equipment for his field work.
“I told my assistant, who happened to be my wife, `How wonderful it would be if we could fly over that area rather than walk there again tomorrow,'” recalled the Singaporean expert on tropical deforestation, and a model plane hobbyist.
Unlike eco-drones in the United States, mostly custom-built or commercial models, Koh last year cobbled together a far cheaper, off-the-shelf version that poorer organizations and governments in the developing world can better afford.
He and partner Serge Wich bought a model plane – some are available in China for as little as $100 – added an autopilot system, open source software to program missions, and still and video cameras. All for less than $2,000, or ten times cheaper than some commercial vehicles with similar capabilities.
This year, they have flown more than 200 mostly test runs in Asia using an improved version with a 2-meter (6.5 foot) wing span, air time of 45 minutes and a 25-kilometer (15.5-mile) range.
The aircraft were flown over rough terrain in Malaysia where GPS-collared elephants are difficult to monitor from the ground. In Nepal’s Chitwan National Park, the World Wide Fund for Nature (WWF) and the Nepal Army conducted trials on detecting rhino and elephant poachers. The duo also assisted the Ugalla Primate Project to head count chimpanzees in western Tanzania.
“Counting orangutan nests is the main way of surveying orangutan populations,” says Graham Usher of the Sumatran project, which captured one of the apes atop a palm tree feeding on palm heart in a sharp photograph. From higher altitudes the drones, he said, also provide high-resolution, real-time images showing where forests are being cleared and set ablaze.
By contrast ground expeditions are time-consuming, logistically cumbersome and expensive. A conventional orangutan census in Sumatra, which may also involve helicopters and aircraft, costs some $250,000. Surveying land use by satellite is likewise costly and hampered by frequent cloud cover over tropical areas.
But there are drawbacks with UAS, including landing them in often thickly vegetated areas since they need clear touch-down zones of about 100 by 100 meters (yards). Koh said he was working to rig the vehicle with a parachute to allow landing in confined space.
Franklin says the hardware and image interpretation are still being developed as more missions are planned in the United States, ranging from counting pygmy rabbit burrows in Idaho to monitoring salmon-eating seabirds off the Oregon coast.
The University of Florida is testing thermal imaging, to hunt for Burmese pythons invading the state’s Everglades, having found the snakes regulate temperatures of their nests in a way that makes them visible through such technology.
Photo: UAS developed by conservation drone pioneer Lian Pin Koh of the Swiss Federal Institute of Technology and partner Serge Wich is shown in Zurich, Switzerland. This year, they have flown more than 200, mostly test runs in Asia using an improved 2.0 version with a 2-meter (6.5 foot) wing span, air time of 45 minutes and a 25-kilometer (15.5-mile) range to track endangered wildlife, spot poachers and chart forest loss. (AP Photo/Lian Pin Koh, ConservationDrones.org)
Source: Huffington Post