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Texas A&M University-Corpus Christi, AgriLife Research Approved For Drone-Based Plant Health Study

Texas A&M University-Corpus Christi and Texas A&M AgriLife Research have received the state’s first permit to use drones to conduct agricultural research at the Texas A&M AgriLife Research and Extension Center in Corpus Christi.

Dr. Michael Starek

Dr. Michael Starek, assistant professor of geospatial surveying engineering at Texas A&M-Corpus Christi, holds a  Sensefly eBee UAV, the type to be used in agricultural research at the Texas A&M AgriLife Research and Extension Center at Corpus Christi.

Research will begin soon in the use of unmanned aerial vehicles — UAVs, sometimes called drones — that are expected to help growers improve crop quality and yields while reducing production costs, savings that could be passed on to consumers.

“This represents another excellent opportunity for us to continue conducting cutting-edge agricultural research,” said Dr. Juan Landivar, director at AgriLife Research’s Corpus Christi center. “After submitting an application and undergoing an extensive review process by the Federal Aviation Administration, we were issued a permit to conduct research on in-flight operations for precision agriculture. This technology will eventually improve agriculture and, in addition, could bring an entirely new remote-sensing, multi-million dollar industry to Texas.”

The first test flight of the UAV, a fixed-wing lightweight platform called a Sensefly eBee, will take flight within days, according to Dr. Michael Starek, assistant professor of geospatial surveying engineering at Texas A&M-Corpus Christi.
A demonstration for the media will be planned in the next few months.

“This technology has huge potential,” Starek said. “Such systems can be equipped with specialized cameras to precisely map where crops are stressed, assess moisture conditions, image 3-D plant structure, detect pest infiltration, and potentially determine early on where crops are diseased. Compared to traditional aircraft or satellites, UAVs provide the capability to scout crops at a fraction of the cost and at spatial and temporal scales previously unattainable.”

Current FAA regulations prohibit flying unmanned aircraft systems for commercial purposes, Starek said. While a few companies have received waivers or permits, the permit that A&M-Corpus Christi and AgriLife Research received is specific to their role as state agencies and does not pertain to commercial uses.

The technology for growers is already here, he said. But challenges still remain on how to effectively operate and process data that is easily useable for the end users.

“I see small-scale UAVs becoming an integral tool for growers, big and small, enabling  them to target their needs to better manage crops,” Starek said.  “It’s relatively inexpensive, capable, and a technology that is rapidly evolving. Eventually these platforms will perform all kinds of applications beyond crop scouting, such as precisely watering or distributing insecticides. The possibilities and potential are impressive.”

Starek said the current flight permit has very strict guidelines about how, when, and where the fixed-wing UAV can be used. Initial operations will include conducting baseline surveys of crops fields at the Corpus Christi center.

Texas A&M-Corpus Christi and AgriLife Research are in the process of applying for another agricultural UAV permit.

“A second permit would use a roto-copter that operates more like a helicopter to hover and focus in on a particular problem in a field,” Starek said.

Depending on the objective and the particular sensors on a drone, an entire field crop can be surveyed in less than 30 minutes, Landivar said. The data could then be plugged into a “smart” tractor via a computer jump drive. The tractor would proceed through the field, responding to plants’ needs based on a data map showing the tractor where to apply herbicides, insecticides, water, growth hormone regulators or whatever the crop requires.

“That’s precision agriculture,” he said. “It would apply only what’s needed where it’s needed. It will make for a higher-quality, higher-yielding crop, saving the grower time and money.”

Landivar said UAVs could also eventually drastically reduce the amount of time crop managers spend in the field evaluating crop performance.

“This technology could help in phenotyping, or evaluating the thousands of prodigy lines that now must be done by hand, plant by plant,” he said. “With the proper sensors on the platform, the UAV could do in very short order what normally can take up to several days, depending on the size of the study.”

A new, technology-based industry for the state could result from the preliminary work now being done, he said.
 

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