Spatial disorientation has been blamed for 20% of all fatal mishaps in military aviation and has been named as a factor in many high-profile civilian accidents, such as the death of John Kennedy Jr and his wife, Carolyn Bessette Kennedy. It occurs when pilots’ sensory systems, such as their vestibular or balance system, cause them to misinterpret their position in flight relative to Earth or other aircraft. Often, pilots do not know they are disoriented until it is too late.
This book is unique because it is the first to cover the entire spectrum of spatial disorientation in flight. This text draws on the knowledge of expert authors from a broad background, several of whom have worked with the AFRL Human Effectiveness Directorate (AFRF/HE) at Wright Patterson AFB, OH and Brooks City-Base, TX.
The book examines the long history of spatial disorientation in flight, describes the movements of aircraft in mathematical detail, and explains how these movements can conspire to fool human sensory systems that evolved for life on the ground.
The book also examines the visual mechanisms that contribute to perceptions of self motion and describes the contribution of psychological factors to spatial disorientation. The book defines the types of visual and nonvisual illusions pilots experience in flight.
These chapters set the stage for a highly detailed examination of countermeasures, including ground-based training methodologies, in-flight sorties, instrument training, and display design.
Much of the book is technical, but it is also rich in real-world statistics and anecdotes about accidents and close calls that have been attributed to spatial disorientation.
Author(s): Fred H. Previc, William R. Ercoline (eds.)
Series: Progress in Astronautics and Aeronautics, #203
Publisher: American Institute of Aeronautics and Astronautics
Year: 2004
Language: English
Pages: 580
Tags: psychology, aeronautics, HCI, visual illusions, accidents, safety, vestibular system, balance system, navigation, spatial disorientation, history of flight, overview effect, pilot vertigo, training, instrument flight, semicircular canals, otoliths, inner-ear, flight simulators, HUDs, HMDs, UAV