Wings in Ground Effect -- WIG Craft Development -- Longitudinal Force Balance and Trim -- Hovering and Slow-Speed Performance -- Aerodynamics in steady Flight -- Longitudinal and Transverse Stability -- Calm Water Drag and Power -- Seakeeping and Manoeuvrability -- Model Tests and Aero-hydrodynamic Simulation -- Structural Design and Materials -- Power plant and Transmission -- Lift and Propulsion Systems -- Concept Design.

WIGs (Wing in Ground) are advanced hybrid air cushion crafts and they offer the combination of speed, fuel efficiency, and ride smoothness. WIG rides above the surface like an airplane on a dynamic air cushion that is produced by the vessel’s forward motion. The adoption of WIG has been slow due to the complicated technology issues surrounding the vessel; it is a hybrid vehicle that combines marine and aviation theory, wing theory and air cushion theory, aerodynamic and hydrodynamic theory. "WIG Craft and Ekranoplan: Ground Effect Craft Technology" provides a comprehensive overview of the design, development and building of WIG vessels. Drawing upon years of practical experience and using numerous examples and illustrative applications, Liang Yun, Alan Bliault and Johnny Doo discuss: Basic principles of WIG craft technology State of the art overview of WIG craft technology in the United States, Russia, Germany, China and Australia Material and structural design of WIG craft Lift and propulsion systems of WIG craft WIG Craft and Ekranoplan: Ground Effect Craft Technology will be of interest to naval engineers, aviation engineers, naval architects, and mechanical engineers interested in the development and research of wing in ground (WIG) and high performance marine vehicles.