News Release

Drones give scientists a new self-service approach

Peer-Reviewed Publication

Arizona State University

Drones with Cameras Mounted On

image: Fixed-wing unmanned autonomous vehicles (UAVs) with multi-spectral cameras -- like the drone mounted atop the van in this photograph -- are becoming popular tools for researchers who need to gather environmental and ecological data across a vast expanse of terrain.. view more 

Credit: Al Rango, U.S. Department of Agricuture/Agricultural Research Center Jornada Experimental Range.

TEMPE, Ariz., Feb. 5, 2016 - Earth and environmental scientists have often had to rely on piloted aircraft and satellites to collect remote sensing data, platforms that have traditionally been controlled by large research organizations or regulatory agencies.

Thanks to the increased affordability and dramatic technological advances of drones, or Unmanned Aerial Vehicles (UAVs), however, earth and environmental scientists can now conduct their own long-term high-resolution experiments at a fraction of the cost of using aircraft or satellites.

"UAVs are poised to revolutionize remote sensing in the earth and environmental sciences," says Enrique Vivoni, hydrologist and professor at Arizona State University's School of Earth and Space Exploration and Ira A. Fulton Schools of Engineering. "They let individual scientists obtain low-cost repeat imagery at high resolution and tailored to a research team's specific interest area."

Vivoni's own research has focused on rangeland locations in the Sonoran and Chihuahuan deserts, which cover large expanses of northern Mexico and the U.S. Southwest. Using UAVs in these areas has allowed for improved studies on land-atmosphere exchanges and vegetation-runoff interactions.

Once used exclusively for military application, UAV's now offer many civilian uses. Their advances in flight control, robotics and miniaturized sensors, are providing an unprecedented opportunity for high-resolution data collection.

"The biggest challenge for earth and environmental scientists has been obtaining high-resolution [data for] characterizations and predictions," says Vivoni.

Both fixed wing and rotary wing UAVs can be used for ecohydrologic investigations, according to Vivoni. Researchers can also use quad-copters with photo cameras or video cameras, such as the Phantom series.

Vivoni will give his talk "Ecohydrology with Unmanned Aerial Vehicles" on February 13 at the American Association for the Advancement of Science (AAAS) 2016 Annual Meeting in Washington, D.C.

The presentation summarizes his work with associate professor Srikanth Saripalli of the School of Earth and Space Exploration, graduate students Nicole Pierini, Cody Anderson and Adam Schreiner-McGraw as well as collaborators from the Agriculture Research Service of the U.S. Department of Agriculture Jornada Experimental Range.

"We believe unmanned aerial vehicles can fundamentally change how ecological and hydrological science is conducted and offer ways to merge remote sensing, environmental sensor networks and numerical models," Vivoni says.

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AAAS is the world's largest science and technology society, and its annual meeting draws thousands of scientists, engineers, educators, policymakers and journalists from around the world. Vivoni will participate in this year's annual meeting in a session on 'Unmanned Autonomous Systems for Climate and Environmental Research' organized by US Department of Energy.

About Arizona State University

Arizona State University has developed a new model for the American Research University, creating an institution that is committed to access, excellence and impact. ASU measures itself by those it includes, not by those it excludes. As the prototype for a New American University, ASU pursues research that contributes to the public good, and ASU assumes major responsibility for the economic, social and cultural vitality of the communities that surround it.

Source:

Enrique Vivoni, e-mail: vivoni@asu.edu, phone: (480)727-3575


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