Influence of Gravity on the Perception of Egocentric Distance (Blindpulling)

Summary

Parabolic flight is the only ground-based condition in which weightlessness (0G) can be created long enough for safely testing changes in human perception and behavior. In addition to the 0G period, parabolic flight generates equal duration periods of 1.8G, which present another unique opportunity to test the same responses to hypergravity and back to 1G.

Cognitive function, together with good oculomotor control, eye-hand coordination, and spatial orientation perception, is a critical subsystem that is used by the CNS in the control of vehicles and other complex systems in a high-level integrative function. Evidence from space flight research demonstrates that the function of each of these subsystems is altered by the transitions in gravito-inertial force levels. These neuro-vestibular alterations, unfortunately, correspond to mission phases where physical and cognitive performance are particularly critical for crew safety and mission success. To date, there is only limited operational evidence that these alterations cause functional impacts on mission-critical vehicle (or complex system) control capabilities. However, the true operational risks will be estimable only after the investigators have filled the knowledge gaps and when the investigators can accurately assess integrated performance in off-nominal operational settings.

Accurate perception of self-in-space motion and self-motion relative to other objects are critical to piloting, driving, and remote manipulator operations. Immediately after space flight, most crewmembers have reported some degree of disorientation/perceptual illusion, often accompanied by nausea (or other symptoms of motion sickness), and frequently manifested by lack of coordination, particularly during locomotion. Despite recent, intensive training, some Shuttle landings were outside of the desired performance boundaries. Scores indicating neurovestibular dysfunction in returning astronauts generally correlated with poorer flying performances, including a lower approach and landing shorter, faster, and harder. An underestimation of distance, coupled to an overestimation of tilt magnitude or misperception of the type of motion, could be at the origin of these poorer performances.

This study should confirm that the unloading of the otoliths in weightlessness induces an alteration in the egocentric reference during space flight. Errors in egocentric localization might contribute at a higher level to the computation of misleading world-centered representations, and therefore be partly responsible for illusory sensations and motion sickness symptoms during space flight, and postural instability and oscillopsia after returning in a reduced or terrestrial gravitational force level.

Beside their fundamental implications, the results of this study have also practical implications in the design of man-machine interfaces. Changes in judgment of distance in microgravity or in reduced gravity affect crew posture and reach, display orientation, and other visual cues, which should be considered in hardware and operations design.

Conditions

• Healthy Volunteers

Interventions

OTHER

perceived egocentric distance (PED) measurements

OTHER

Parabolic flight

Sponsors & Collaborators

• University Hospital, Caen

  lead OTHER

Study Design

Allocation

NA

Purpose

BASIC_SCIENCE

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

21 Years

Max Age

65 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2014-02-28

Primary Completion

2017-10-31

Countries

• France

Study Locations