Everything about Spatial Disorientation totally explained
Spatial disorientation is a condition in which an
aircraft pilot's perception of direction (
proprioception) doesn't agree with reality. While it can be brought on by disturbances or disease within the
vestibular system, it's more typically a temporary condition resulting from flight into poor weather conditions with low or no visibility. Under these conditions the pilot may be deprived of an external
visual horizon, which is critical to maintaining a correct sense of up and down while flying.
A pilot who enters such conditions will quickly lose spatial orientation if there has been no
training in flying with reference to instruments. Approximately 80% of the private pilots in the
United States don't have an
instrument rating, and therefore are prohibited from flying in conditions where instrument skills are required. Not all pilots abide by this rule, and approximately 40% of the
NTSB fatal general aviation accident reports list
continuation of flight into conditions for which the pilot wasn't qualified as either a cause.
Senses during flight
During flight, most of the
senses are 'fooled' by
centrifugal force, and indicate to the brain that 'down' is at the bottom of the cockpit no matter the actual attitude of the aircraft. Only the inner
ear and the visual sense provide data to the contrary. The inner ear contains rotational '
accelerometers,' known as the
semicircular canals, which provide information to the lower brain on rotational accelerations in the
pitch, roll and yaw axes. This system is imperfect, and errors develop in the brain's estimate of rate and direction of turn in each axis. Normally these errors are corrected using information from the visual sense, in particular an external visual horizon.
Effects of disorientation
Once an aircraft enters conditions under which the pilot can't see a distinct visual horizon, the drift in the inner ear continues uncorrected. Errors in the perceived rate of turn about any axis can build up at a rate of 0.2 to 0.3 degrees per second. If the pilot isn't proficient in the use of gyroscopic flight instruments, these errors will build up to a point that control of the aircraft is lost, usually in a steep, diving turn known as a
graveyard spiral. During the entire time, leading up to and well into the maneuver the pilot remains unaware that he's turning, believing that he's maintaining straight flight.
The graveyard spiral usually terminates when the
g-forces on the aircraft build up to and exceed the structural strength of the
airframe, resulting in catastrophic failure, or when the aircraft contacts the ground. In a 1954 study, the
Air Safety Foundation found that out of 20 non-instrument-rated subject pilots, 19 of the 20 entered a graveyard spiral soon after entering simulated instrument conditions. The 20th pilot also lost control of his aircraft, but in another maneuver. The average time between onset of instrument conditions and loss of control was 178 seconds.
Spatial disorientation can also affect
instrument-rated pilots in certain conditions. A powerful tumbling sensation (
vertigo) can be set up if the pilot moves his head too much during instrument flight. This is called the
Coriolis illusion. Pilots are also susceptible to spatial disorientation during night flight over featureless terrain.
Spatial Orientation
Spatial orientation is our ability to maintain our body orientation and/or posture in relation to the surrounding environment (physical space) at rest and during motion. Humans are designed to maintain spatial orientation on the ground. The three-dimensional environment of flight is unfamiliar to the human body, creating sensory conflicts and illusions that make spatial orientation difficult and sometimes impossible to achieve. Statistics show that between 5% and 10% of all general aviation accidents can be attributed to spatial disorientation, 90% of which are fatal.
Good spatial orientation on the ground relies on the use of visual, vestibular (organs of equilibrium located in the inner ear), and proprioceptive (receptors located in the skin, muscles, tendons, and joints) sensory information. Changes in linear acceleration, angular acceleration, and gravity are detected by the vestibular system and the proprioceptive receptors, and then compared in the brain with visual information.
Spatial orientation in flight is difficult to achieve because numerous sensory stimuli (visual, vestibular, and proprioceptive) vary in magnitude, direction, and frequency. Any differences or discrepancies between visual, vestibular, and proprioceptive sensory inputs result in a sensory mismatch that can produce illusions and lead to spatial disorientation.
The Otolith Organs and Orientation
Two
otolith organs, the saccule and utricle, are located in each ear and are set at right angles to each other. The utricle detects changes in linear acceleration in the horizontal plane, while the saccule detects gravity changes in the vertical plane. However, the inertial forces resulting from linear accelerations can't be distinguished from the force of gravity; therefore, gravity can also produce stimulation of the utricle and saccule. A response of this type will occur during a vertical take-off in a helicopter or following the sudden opening of a parachute after a free fall.
"Seat of the pants" flying
Anyone in an aircraft that's making a coordinated turn, no matter how steep, will have little or no sensation of being tilted in the air unless the horizon is visible. Similarly, it's possible to gradually climb or descend without a noticeable change in pressure against the seat. In some aircraft, it's possible to execute a loop without pulling negative G so that without visual reference, the pilot could be upside down without being aware of it. That's because a gradual change in any direction of movement may not be strong enough to activate the fluid in the semicircular canals, so the pilot may not realize that the aircraft is accelerating, decelerating, or banking.
In the media
This phenomenon was extensively reported in the press in 1999, after John F. Kennedy, Jr.'s plane went down during a night flight over water near Martha's Vineyard. Subsequent investigation pointed to spatial disorientation as a probable cause of the accident.
Intentionally-induced spatial disorientation (by use of giant mirrors) was a major plot point in the two-part TaleSpin episode "A Bad Reflection on You."
How to prevent spatial disorientation
Take the opportunity to experience spatial disorientation illusions in a Barany chair, a Vertigon, a GYRO-LAB or a Virtual Reality Spatial Disorientation Demonstrator.
Before flying with less than 3 miles visibility, obtain training and maintain proficiency in aircraft control by reference to instruments.
When flying at night or in reduced visibility, use the flight instruments.
If intending to fly at night, maintain night-flight currency. Include cross-country and local operations at different airports.
If only Visual Flight Rules-qualified, don't attempt visual flight when there's a possibility of getting trapped in deteriorating weather.
If you experience a vestibular illusion during flight, trust your instruments and disregard your sensory perceptions.Further Information
Get more info on 'Spatial Disorientation'.
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