UAS in Peru Study Ancient Ruins

In Peru, unmanned aircraft are being used to monitor crops and study ancient ruins.They are equipped with a microcomputer, a GPS tracker, a compass, cameras and an altimeter, and can be easily programmed by using Google Maps to fly autonomously and return to base with vital data.

“These aircraft are small in size, are equipped with high-precision video or photo cameras and go virtually unnoticed in the sky,” said Andres Flores, an electrical engineer in charge of the UAS programme at Peru’s Catholic University.

Flores heads a multidisciplinary team brainstorming the best ways to use UAS for civilian purposes.

“Up to now we have managed to use them for agricultural purposes, where they gather information on the health of the plants, and in archeology, to better understand the characteristics of each site and their extensions,” Flores said.

One UAS model built by Catholic University engineers is made with light balsa wood and carbon fibre. At a glance the devices look like souped-up hand-held glider.

One limitation is that these UAS must fly below the clouds. If not their instruments, especially the cameras, could fail, said Aurelio Rodriguez, who is both an aerial model-maker and archeologist.

Some of the earliest human settlements in the Americas are found in Peru.

There are thousands of archeological sites, many unexplored, dotting the Peruvian landscape, most of them pre-dating the Incas, a major civilization which was defeated by Spanish conquistadors in the 16th century.

Along the dry coastline, where the main construction material was adobe brick, whole societies flourished.

After centuries of abandon some of these ancient cities have deteriorated to the point that they are hard to distinguish in the sandy, hilly region.

Archeologist Luis Jaime Castillo is using drones to help map the 1,300 year-old Moche civilization around San Idelfonso and San Jose del Moro, two sites on the Peruvian coast north of Lima.

“We can convert the images that the UAS provide into topographical and photogrammetry data to build three-dimensional models,” Castillo told AFP.

“By using the pictures taken by UAS we can see walls, patios, the fabric of the city.”

Separately, Hildo Loayza, a physicist with the Lima-based International Potato Center, is perfecting ways to apply drone technology to agriculture.

“They allow us to resolve problems objectively, while people do it subjectively,” he told AFP.

“In agriculture UAS allow us to observe a larger cultivation area and estimate the health of the plants and the growth of the crops. The cameras aboard them provide us with 500 pieces of high-technology data, while with the human eye one can barely collect ten,” Loayza said.

Precise, high-quality images allow experts to measure the amount of sunlight the plants are getting, and study plant problems like stress from heat, drought or lack of nutrients, he said.

Other potential civilian UAS use, Flores said, includes closely observing areas of natural disasters or studying urban traffic patterns.

In the thick Amazon jungle, where access by ground is often extremely difficult, drones can be used to study wild animals. “Every time an animal goes by, it can snap a picture,” said Flores.

Source: France 24

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