The LiDAR scanner, which gathers 300,000 data points per second, delivers cutting-edge depth-sensing capabilities, enables detection of objects, and builds 3D maps of surroundings in near real-time.

"This technology is a huge improvement over traditional techniques, especially in looking at vulnerability to flooding and level of protection afforded by the existing dune structures," said Gayes, who has been studying beach erosion along the Grand Strand for decades. "Besides the considerable improvement in utility and some very interesting science applications, several of my graduate students are getting valuable hands-on experience with this technology."

"To give students the experience to work with such equipment really sets us up for good jobs and a good career," said Christina Boyce, a coastal marine and wetlands studies graduate student.

According to Gayes, the LiDAR enhances the Burroughs & Chapin Center's cutting-edge technology that is used for diverse applications such as coastal erosion/flood modeling, oyster reef restoration, and living shorelines applications. He says the center's research programs continue to focus on better observing and measuring of storm processes. The results of these efforts are communicated to key decision makers in the disaster planning and management areas.

The center also is collaborating with Florida Atlantic University's Institute for Sensing and Embedded Network Systems Engineering to develop a warning system for more accurate and timely detection and forecasting of inland and coastal floods, under a variety of precipitation systems. The technology will enable local and state governments to more effectively plan and respond to storms.