NDSU researchers are taking to the air to monitor crop and livestock research projects on the ground.
Several researchers on campus are working with colleagues at NDSU's Carrington Research Extension Center to evaluate whether unmanned aircraft systems, known as UAS, can be effective management tools in crop and livestock production.
"There is currently much interest in using UAS in agriculture," says John Nowatzki, the NDSU Extension Service's agricultural machine systems specialist and the lead investigator on this project. "However, there is little research to show that UAS can be used effectively or economically for crop or livestock management."
Researchers are using unmanned aircraft system-mounted thermal, infrared sensors and cameras that capture image data at specific frequencies to collect data from fields and livestock at specified times.
The researchers plan to identify plant emergence and populations in corn, soybeans and sunflowers, and nitrogen deficiencies in corn and wheat. They also are hoping the unmanned aircraft systems can help them make early plant health assessments, and spot disease and insect damage symptoms, weed infestations and indications of moisture stress on irrigated crops.
In addition, they plan to use the unmanned aircraft systems to determine the impacts of tillage and crop rotations on crop emergence, vigor and yield, and the impacts of soil salinity on crop yields, as well as monitor the dry-down times of individual corn hybrids to determine when to harvest the crops.
"The objective is to find out which observations taken from the plane can translate into immediate management actions, or possibly some observations may lead to corrective action for the following season," says NDSU professor and Extension agronomist Hans Kandel, who is one of the project's co-investigators.
Crop production researchers have identified at least 40 research trials at the Carrington center they want included in the unmanned aircraft systems project, according to Blaine Schatz, the center's director.
"On the livestock side of our research efforts, we will mostly be observing the beef cattle within multiple projects, and the observations will focus on capturing images that may help to determine animal health contrasts and animal behavior patterns," Schatz says.
For example, researchers plan to monitor the breeding activity of the center's beef cattle, count the cattle in pastures to make sure they are where they are supposed to be, detect animals that are ill so they can be isolated from the rest of the herd and treated as quickly as possible, and identify animals that are aggressive toward other livestock or humans so they can be removed from herds.
The researchers also intend to monitor animal temperatures and determine the feedlot surface temperatures of various bedding materials to mitigate stress from extreme weather conditions.
"The individual NDSU Carrington Research Extension Center researchers will collaborate with project principal investigators to select appropriate sensors and monitoring schedules for their projects," Nowatzki says. "These researchers also will collaborate with NDSU agricultural and biosystems engineering department personnel to correlate the UAS-sensed data with the data collected on the ground for each project."
The project’s first unmanned aircraft systems flights were on May 5. The Federal Aviation Administration gave North Dakota approval in April for the test flights.
A Research ND grant from the North Dakota Department of Commerce and a North Dakota Soybean Council research grant funded the project, Nowatzki says. The Research ND grant includes matching funds from two private-sector partners: the North Dakota Corn Council and LW Survey of Duluth, Minnesota.
The University of North Dakota's Center for Unmanned Aircraft Systems Research, Education and Training is collaborating on this research by flying the unmanned aircraft systems at the Carrington center. UND also will collect flight information from each flight of both unmanned aircraft systems used in the project. The flight information will be shared with the Federal Aviation Administration for its use in developing future regulations.
In addition to finding out whether unmanned aircraft systems are effective in monitoring crop and livestock production, the researchers plan to develop methods to convert the image data to information that's useful to producers and crop consultants, and help producers identify how they can make use of unmanned aircraft systems on their operations.
"The major benefit of UAS is that it offers a very affordable technology that the farmers or consultants can easily adopt," says Sreekala Bajwa, NDSU agricultural and biosystems engineering department chair and an unmanned aircraft systems project co-investigator whose expertise is in remote sensing for precision agriculture. "It offers the flexibility that you can fly it anytime and at any area of interest with the proper safety regulations in place."
She thinks another huge advantage is that unmanned aircraft systems potentially could cover a whole farm in a day or a few days and provide the producer with a visual of his or her entire field.
"Monitoring the entire farm is a very time- and labor-intensive job," she notes. "It is virtually impossible to look at all the field, even when a consultant is walking the fields. A UAS will allow the farmer or consultant to identify potential areas of concern and focus on those areas which may otherwise go undetected."
NDSU is recognized as one of the nation's top 108 public and private universities by the Carnegie Commission on Higher Education.