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Eye Tracking Device (ETD)
03.22.12

Overview | Description | Applications | Operations | Results | Publications | Images

Experiment/Payload Overview

Information provided courtesy of the Erasmus Experiment Archive.
Brief Summary

The Eye Tracking Device (ETD) will determine the influence of prolonged microgravity and the accompanying vestibular (inner ear) adaptation on the orientation of Listing's Plane (a coordinate framework, which is used to define the movement of the eyes in the head).

Principal Investigator

  • Andrew H. Clarke, Ph.D., Charite Medical School, Berlin, , Germany

    • Co-Investigator(s)/Collaborator(s)

  • Elena Tomilovskaya, , Institute for Biomedical Problems, Moscow, , Russia
  • Inesa Kozlovskaya, Ph.D., M.D., D.Sc., Institute for Biomedical Problems, Moscow, , Russia
  • Jelte E. Bos, M.D., Free University, Amsterdam, , The Netherlands
  • Thomas Haslwanter, Ph.D., University of Zurich, Zurich, , Switzerland

    • Payload Developer

    Kayser Threde, Munich, , Germany

    Sponsoring Space Agency

    European Space Agency (ESA)

    Sponsoring Organization:

    Information Pending

    ISS Expedition Duration:

    October 2003 - April 2008



    Expeditions Assigned

    8, 9, 10, 11, 13, 14, 16

    Previous ISS Missions

    Performed on ISS Expeditions 9, 10, 11.

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    Experiment/Payload Description

    Research Summary

    • The Eye Tracking Device (ETD) investigation will determine how the vestibular (inner ear) system adapts to a weightless environment and how this relates to the occurrence of space sickness in manned space flights.


    • This type of research can further provide an insight into vestibular disorders on Earth such as Meniere's disease (balance disorder of the inner ear) and related vestibular symptoms such as vertigo and nausea.

    Description

    The working hypothesis is that in microgravity the orientation of Listing's Plane is altered, probably to a small and individually variable degree. Further, with the loss of the otolith-mediated gravitational reference, it is expected that changes in the orientation of the coordinate framework of the vestibular system occur, and thus a divergence between Listing's Plane and the vestibular coordinate frame should be observed. While earlier ground-based experiments indicate that Listing's Plane itself is to a small degree dependent on the pitch orientation to gravity, there is more compelling evidence of an alteration of the orientation of the vestibulo-ocular reflex (VOR), reflex eye movement that stabilizes images on the retina during head movement by producing an eye movement in the direction opposite to head movement, thus preserving the image on the center of the visual field, in microgravity.

    Furthermore, changes in bodily function with relation to eye movement and spatial orientation that occur during prolonged disturbance of the vestibular system most likely play a major role in the problems with balance that astronauts experience following re-entry from space.

    In view of the much larger living and working space in the ISS, and the extended program of spacewalks (EVAs) being planned, particular care must be given to assessing the reliability of functions related to eye movement and spatial orientation.

    The performance of the experiments in space are therefore of interest for their expected contribution to basic research knowledge and to the improvement and assurance of human performance under weightless conditions.

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    Applications

    Space Applications

    Examination of the orientation of the Listing's plane during the course of a prolonged space mission is of particular interest, as on Earth the Listing's plane appears to be dependent on input from the vestibular system, i.e., detected through the head position with relation to gravity. By exposing the astronaut to the weightlessness of space, this experiment can follow the subsequent adaptation of the astronaut's vestibular system during the flight and after re-entry.

    Earth Applications

    This study has important implications understanding basic mechanisms of motor control in microgravity and for rehabilitative training of neurological patients with impaired motor control.

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    Operations

    Operational Requirements

    Information Pending

    Operational Protocols

    The ETD consists of a headset that includes two digital camera modules for binocular recording of horizontal, vertical and rotational eye movements and sensors to measure head movement. The second ETD component is a laptop PC, which permits digital storage of all image sequences and data for subsequent laboratory analysis. Listing's Plane can be examined fairly simply, provided accurate three-dimensional eye-in-head measurements can be made. Identical experimental protocols will be performed during the pre-flight, in-flight and post-flight periods of the mission. Accurate three-dimensional eye-in-head measurements are essential to the success of this experiment. The required measurement specifications (less than 0.1 degrees spatial resolution, 200 Hz sampling frequency) are fulfilled by the Eye Tracking Device (ETD).

    Using the ETD all of the subjects, both short-duration and long-duration, are examined:

    • Pre-flight, on the ground, at L- 6 months (launch minus), then four times leading up to the launch typically at L-3 months (+/- 2 weeks), L-21 days (+/-2 days), L-14 days (+/-2 days) and L-7 days (+/-2 days). The total duration of each session is approximately 30 minutes total for each subject except the last one at L-7 days, which has a duration of 1 hour.


    • In-flight, at 48-hour intervals for a maximum of 4 sessions (Flight Day 3, 5, 7 and 9). Each session lasts approximately 30 minutes.


    • Post-flight, for readaptation on days R+0 (return plus), R+2, R+4, R+6, R+8, R+10 and R+12, and once again at approximately R+60.

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    Results/More Information

    Information Pending

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    Related Web Sites
  • Columbus Mission - European Experiment Programme
  • The information provided is courtesy of the ESA Astrolab Mission web page.
  • Orientation of Listing's Plane

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    Publications

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    Ground Based Results Publications

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    ISS Patent Publications

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    Related Publications
    • Bockisch C J,Haslwanter T ,Three-dimensional eye position during static roll and pitch in humans Vision Research 2001 41 2127-2137
    • Clarke A H,Vestibulo-oculomotor research and measurement technology for the space station era Brain Research Review 1998 28 173-184

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    Images

    imageNASA Image: ISS011E13710 - Cosmonaut Sergei K. Krikalev, Expedition 11 Commander representing Russia's Federal Space Agency, uses the Eye Tracking Device (ETD), a European Space Agency (ESA) payload in the Zvezda Service Module of the International Space Station. The ETD measures eye and head movements in space with great accuracy and precision.


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    Information provided by the investigation team to the ISS Program Scientist's Office.
    If updates are needed to the summary please contact JSC-ISS-Program-Science-Group. For other general questions regarding space station research and technology, please feel free to call our help line at 281-244-6187 or e-mail at JSC-ISS-Payloads-Helpline.
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