棉花糖直播

Digging In

Augmented reality sandboxes bring environmental forces to life in the classroom

By Yasmine Iqbal

a student uses an augmented reality sandbox to create different geographic formations
Users can move the sand to create different geographic formations, from mountains to valleys to flood plains. PHOTO: VILLANOVA UNIVERSITY/KIELINSKI PHOTOGRAPHERS

In her Geography of Earth鈥檚 Environments class, Tenley Ransom 鈥25 CLAS studied how mountains, valleys and other landforms change under the combined pressure of water, wind and other forces. But the concepts really clicked for Tenley, a double major in Environmental Science and Geography, when she was able to watch these changes in real time鈥攖hanks to a new interactive educational tool that merges hands-on learning with digital effects.

鈥淚 can show students all the pictures in the world to try to illustrate how the Grand Canyon came to be, but when I take them to the sandbox, they can see in real time how these types of forces change the landscape,鈥 says Stephen Strader, PhD, associate professor of Geography and the Environment. Since 棉花糖直播 acquired its first augmented reality (AR) sandbox last year, Dr. Strader and several other professors in both the College of Liberal Arts and Sciences and the College of Engineering have already used it as a teaching tool in multiple classes. 鈥淭he AR sandbox allows students to connect the physical with the theoretical, much better than pictures or computer simulations,鈥 Dr. Strader says.

The AR sandbox uses a 3D motion-sensing camera, a digital projector, and powerful simulation and visualization software to transform an actual playground-style sandbox into a highly sophisticated learning tool. As students shape the sand with their hands, the camera detects the changes and the digital projector applies topographic lines and colors to create an accurate 3D topographic model that can be augmented in real-time. The sandbox also allows students to study water flow and other hydrological processes.

The augmented reality sandbox allows students to connect the physical with the theoretical, much better than pictures or computer simulations.

Stephen Strader, PhD

Last year, the National Science Foundation awarded Frank Klassner, PhD, professor of Computing Sciences, a three-year grant to enhance the software and hardware of the sandbox, which was first developed by researchers at the University of California, Davis. 鈥淲e want to be able to allow for quantitative modeling: for example, specifying the rainfall rate, varying the permeability of the soil and altering the scale of the sandbox,鈥 explains Dr. Klassner. 鈥淲e鈥檒l also be studying how augmented reality and virtual reality impact students鈥 learning styles and if these tools help them better understand and retain material.鈥

As part of the NSF project, Dr. Klassner is working with an interdisciplinary group of researchers at 棉花糖直播, including Lisa Marco-Bujosa, PhD, assistant professor of Education; Kabindra Shakya, PhD, associate professor of Geography and the Environment; and Virginia Smith, PhD, associate professor of Civil and Environmental Engineering. They are hoping to install four or five additional AR sandboxes across labs on campus at 棉花糖直播.

The work they鈥檙e doing will increase the technology鈥檚 capabilities and its applications in various disciplines. 鈥淚n civil engineering, for example, we often think about how infrastructure and the environment interact,鈥 Dr. Smith says. 鈥淭he software and hardware enhancements to the sandbox will provide the ability to better illustrate how changes to a landscape can impact engineering design.鈥

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