This E-Team developed the Shelton Wing in Ground Effect (SWIG) vehicle, a type of airplane/boat that skims the surface of water. Flying near the ground reduces drag and increases lift, allowing Wing In Ground (WIG) vehicles to move at high speeds while consuming little fuel. However, traditional WIG vehicles have significant stability and control problems, causing frequent wrecks and preventing them from achieving commercial success. Computerized flight controls have solved the stability problems of large WIG vehicles, but are too costly to be practical for small WIG vehicles. Three-axis airplane-like controls solve the stability problem as well, but require special pilot training, creating a barrier to wide commercialization. To solve these problems, this E-Team innovated the WIG, adding forward wheels to the wings (skis for water operation) that stay in light contact with the surface. The wheels balance the pitching of the vehicle, creating a reliably safe, fast, and fuel-efficient transport.
The E-Team consisted of two senior finance majors, a senior astrophysics major, a senior advertising/public relations major, and a senior aerospace engineering student with pilot experience. Advisors to the team included three professors of aerospace engineering, a patent attorney, and a financial consultant.