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National & World Ag News Headlines |
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New Algorithm Fuses Quality and Quantity in Satellite Imagery
USAgNet - 06/14/2018
Using a new algorithm, University of Illinois researchers may have found the solution to an age-old dilemma plaguing satellite imagery -- whether to sacrifice high spatial resolution in the interest of generating images more frequently, or vice versa. The
team's new tool eliminates this trade-off by fusing high-resolution and high-frequency satellite data into one integrated product, and can generate 30-meter daily continuous images going back to the year 2000.
Monitoring of agriculture, urban development, environmental quality, and economic development are just a few ways people make use of satellite data. The new algorithm is generic enough for use in virtually any application.
In agricultural applications, imaging at 10- to 30-meter resolution is critical for farmers to see field-level rapid and subtle changes in crop conditions that affect yield, such as crop stress and disturbance after extreme weather events. Existing data have
either insufficient spatial resolution or low frequency, the researchers said. Farmers usually require information with both high-resolution and near real-time occurrence.
"We struggled to find satellite data that has both high spatial resolution and high frequency in our own research -- it simply did not exist," said Kaiyu Guan, assistant professor in the Department of Natural Resources and Environmental Sciences at
Illinois and study co-author. "So we took the initiative to produce it ourselves."
Guan, a Blue Waters professor at the National Center for Supercomputing Applications at Illinois, teamed up with professor Jian Peng and graduate student Yunan Luo of the Department of Computer Science at Illinois to develop an algorithm that
fuses satellite images from multiple sources into continuous, daily high-resolution images. The researchers describe their methodology and findings in the journal Remote Sensing of Environment.
"We first ingested all of the available satellite data sets into Blue Waters, the National Science Foundation's leadership-class supercomputer. With a click of a button to run our algorithm, what automatically comes out are daily high-resolution images
available for all sorts of scientific applications," Guan said.
Previous researchers have developed methods for fusing high-resolution spatial and temporal data, but these came with limitations. Almost all of the algorithms lacked automation and could not simultaneously deal with missing pixels and temporal
fusion. These drawbacks led to short-term and localized applications.
To overcome the limitations of previous methods, the team designed the algorithm to automatically integrate information from existing data. This compensates for missing information resulting from cloud coverage or data gaps. The new algorithm can
create images without any missing pixels, for any site or region, by leveraging time-series information and relations with neighboring pixels.
In addition to near-real-time daily high-resolution data collection, the team envisions building long-term daily, continental-scale images for various applications.
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