Comprehensive Physiology 1984
DOI: 10.1002/cphy.cp010322
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Perception of the Body in Space: Mechanisms

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Cited by 90 publications
(69 citation statements)
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References 114 publications
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“…The cab and /or the pointer could be moved at constant velocity (cab, 3 cm /sec in the experimental field; pointer, 2.5 mm /sec on the LCD monitor) in all directions during continuous manipulation of the joystick by the monkey. Acceleration of the cab was 4.5 cm /sec 2 to reach a constant velocity (i.e., 3.0 cm /sec), which was comparable to or below the vestibular threshold for humans (Young, 1984;Gianna et al, 1996). The movement direction of the cab and /or the pointer was linked to the direction to which the joystick was brought down by the monkey.…”
Section: Animals and E Xperimental Apparatusmentioning
confidence: 80%
See 1 more Smart Citation
“…The cab and /or the pointer could be moved at constant velocity (cab, 3 cm /sec in the experimental field; pointer, 2.5 mm /sec on the LCD monitor) in all directions during continuous manipulation of the joystick by the monkey. Acceleration of the cab was 4.5 cm /sec 2 to reach a constant velocity (i.e., 3.0 cm /sec), which was comparable to or below the vestibular threshold for humans (Young, 1984;Gianna et al, 1996). The movement direction of the cab and /or the pointer was linked to the direction to which the joystick was brought down by the monkey.…”
Section: Animals and E Xperimental Apparatusmentioning
confidence: 80%
“…Other descriptions as in Figure 3. physiological studies in monkeys reported that the HF neurons responded to whole-body motion and view but not to place (O'Mara et al, 1994;Rolls and O'Mara, 1995). Because the cab moved at very slow speed (i.e., 3 cm /sec) with very slow acceleration (i.e., 4.5 cm /sec 2 ), which was comparable to or below the vestibular thresholds for humans (Young, 1984;Gianna et al, 1996), the HF neurons showing place fields in the RT tasks seemed not to respond to whole-body motion in the present study. Also, the HF and PH neurons consistently showed locationdifferential responses when the monkey went through the field with a different direction.…”
Section: Place Fields Of the Monkey Hf And Ph Neuronsmentioning
confidence: 90%
“…It has been suggested that the GIF is disambiguated based on its frequency content (Paige and Tomko 1991;Telford et al 1997) with low-frequency shifts in the GIF interpreted as tilt and higher frequencies shifts interpreted as translation. Conversely, because head movements typically activate the canals and alter visual orientation cues, a second hypothesis is that the brain's estimates of head orientation and motion are based on a central synthesis of gravitoinertial and nonotolithic afferent signals Young 1984). In rhesus monkeys, numerous eye movement studies are consistent with the sensory synthesis hypothesis as vestibular-mediated eye movements appear to result from an interaction between the rotational cues derived from the canals and the GIF information transduced by the otoliths (e.g., Angelaki et al 1999).…”
Section: Introductionmentioning
confidence: 99%
“…Psychophysical studies have demonstrated that the estimate of the vertical in man depends on a weighed combination of labyrinthine gravitoinertial cues, as well as visual and somatosensory cues (Mittelstaedt, 1983;Young, 1984;Jeannerod & Biguer, 1987). Conflicting information coming from different sensors can result in substantial tilts of the perceived vertical and in corresponding changes of body posture.…”
Section: Body Schemementioning
confidence: 99%