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Self-motion magnitude estimation during linear oscillation - Changes with head orientation and following fatigue (1979)

Goodrich, R. L. ; Wood, D. L. ; Parker, D. E. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Two types of experiments concerning the estimated magnitude of self-motion during exposure to linear oscillation on a parallel swing are described in this paper. Experiment I examined changes in magnitude estimation as a function of variation of the subject's head orientation, and Experiments II a, II b, and II c assessed changes in magnitude estimation performance following exposure to sustained, 'intense' linear oscillation (fatigue-inducting stimulation). The subjects' performance was summarized employing Stevens' power law R = k x S to the nth, where R is perceived self-motion magnitude, k is a constant, S is amplitude of linear oscillation, and n is an exponent). The results of Experiment I indicated that the exponents, n, for the magnitude estimation functions varied with head orientation and were greatest when the head was oriented 135 deg off the vertical. In Experiments II a-c, the magnitude estimation function exponents were increased following fatigue. Both types of experiments suggest ways in which the vestibular system's contribution to a spatial orientation perceptual system may vary. This variability may be a contributing factor to the development of pilot/astronaut disorientation and may also be implicated in the occurrence of motion sickness.

Keywords: BEHAVIORAL SCIENCES

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2

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Spatial orientation - Visual-vestibular-somatic interaction (1983)

Gulledge, W. L. ; Parker, D. E. ; Poston, R. L.

In: Other Sources

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Publication Date: 2019-06-28

Description: The compensation signals from somatosensory and vestibular receptors, which act to compensate for disturbances produced by the displacement of our eyes relative to other parts of our bodies and for visual disturbances such as tilted frames or moving visual fields, are investigated. Disturbances were evoked by tilting the head and by rotating a large visual display, while compensation signals related to gravity were altered by placing the subjects horizontally on a board or seating them vertically. The first experiment studied the effects of visual disturbance on the ability of supine observers to set a line to the longitudinal body axis while the head was tilted toward one shoulder or while the head was straight. Results showed that the effects of the visual disturbance were greater when the head was tilted than when it was straight, which indicates that the effects of visual disturbance were greater for a task that required compensation. The second experiment compared the performance of supine and erect observers. No differences were found between the performance of observers on a task requiring the use of compensation signals under these two conditions, which suggests that the enrichment of compensatory signals did not reduce the effects of visual disturbancs.

Keywords: BEHAVIORAL SCIENCES

Type: Perception and Psychophysics (ISSN 0031-5117); 33; 2 Fe; Feb. 198

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3

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Tilt from a head-inverted position produces displacement of visual subjective vertical in the opposite direction (1984)

Parker, D. E. ; Poston, R. L.

In: Other Sources

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Publication Date: 2019-06-28

Description: Observers who lie supine with their heads inverted report large (up to 60 deg) tilt of a light line in an otherwise dark room when their heads and/or bodies are tilted. Most observers report that visual subjective vertical is tilted in the direction opposite to the head/body tilt. The results can be interpreted by employing a model developed by Mittelstaedt (1983), which suggests that visual subjective vertical is derived from a gravity vector transduced by vestibular and somesthetic receptors combined with 'idiotropic vectors' that represent the orientation of the observer's own head and body axes.

Keywords: BEHAVIORAL SCIENCES

Type: Perception and Psychophysics (ISSN 0031-5117); 36; 5

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4

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Influence of auditory fatigue on masked speech intelligibility (1980)

Johnston, P. A. ; Martens, W. L. ; Parker, D. E.

In: Other Sources

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Publication Date: 2019-06-27

Description: Intelligibility of PB word lists embedded in simultaneous masking noise was evaluated before and after fatiguing-noise exposure, which was determined by observing the number of words correctly repeated during a shadowing task. Both the speech signal and the masking noise were filtered to a 2825-3185-Hz band. Masking-noise leves were varied from 0- to 90-dB SL. Fatigue was produced by a 1500-3000-Hz octave band of noise at 115 dB (re 20 micron-Pa) presented continuously for 5 min. The results of three experiments indicated that speed intelligibility was reduced when the speech was presented against a background of silence but that the fatiguing-noise exposure had no effect on intelligibility when the speech was made more intense and embedded in masking noise of 40-90-dB SL. These observations are interpreted by considering the recruitment produced by fatigue and masking noise.

Keywords: BEHAVIORAL SCIENCES

Type: Acoustical Society of America; vol. 67

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5

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Influence of auditory fatigue on masked pure-tone thresholds (1976)

Parker, D. E. ; Johnston, L. S. ; Johnston, P. A. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: A description is presented of four related experiments involving conditions of 3-kHz low-intensity masking, a replication of experiment I with slight variations, 3-kHz high-intensity masking, and 6-kHz low-intensity masking. The frequencies of the tones which the observers detected were 3 and 6 kHz. The observed change in masked-tone threshold as a function of fatigue is discussed. It is found that masked-tone-detection thresholds remain essentially unchanged following fatigue if the masking-noise intensity is sufficiently great.

Keywords: BEHAVIORAL SCIENCES

Type: Acoustical Society of America; vol. 60

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6

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Effects of proposed preflight adaptation training on eye movements, self-motion perception, and motion sickness - A progress report (1987)

Von Gierke, H. E. ; Parker, D. E. ; Reschke, M. F. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: The preflight adaptation trainer (PAT) was designed to produce rearranged relationships between visual and otolith signals analogous to those experienced in space. Investigations have been undertaken with three prototype trainers. The results indicated that exposure to the PAT sensory rearrangement altered self-motion perception, induced motion sickness, and changed the amplitude and phase of the horizontal eye movements evoked by roll stimulation. However, the changes were inconsistent.

Keywords: BEHAVIORAL SCIENCES

Type: Aviation, Space, and Environmental Medicine (ISSN 0095-6562); 58; A42-A49

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