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1-8 of 8
Keywords: Time constant
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Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1988) 50 (5): 319–329.
Published Online: 08 January 2010
... 11 09 1987 8 1 2010 Vestibular model Adaptation Constant acceleration Time constant Gain Secondary response © 1988 S. Karger AG, Basel 1988 Copyright / Drug Dosage / Disclaimer Copyright: All rights reserved. No part of this publication may be translated into other...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1983) 45 (1): 39–51.
Published Online: 07 January 2010
...L.J.J.M. Boumans; M. Rodenburg; A.J.J. Maas From the impulse response of the human vestibulo-ocular reflex system the value of the long time constant T 1 can be calculated in two different ways: (a) by plotting the decay of the response on log-linear graph paper; (b) by plotting the duration...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1983) 45 (1): 52–59.
Published Online: 07 January 2010
..., respectively. The difference between the values calculated by method (a) and those calculated by method (b) is in line with the theoretical predictions as formulated in section I of this paper. Cupulometry Adaptation Vestibular model Time constant Nystagmus reversal Impulsive stimulation 21 06...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1980) 42 (5): 292–303.
Published Online: 07 January 2010
...L.J.J.M. Boumans; M. Rodenburg; A.J.J. Maas The literature on cupulometry shows inconsistent data as to (1) the magnitude of the time constant T 1 ; (2) the iníer-individual variation between subjects; (3) the difference between clockwise and counter-clockwise rotation, and (4) the linearity...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1983) 45 (3): 117–129.
Published Online: 07 January 2010
... is long the decay is mainly governed by the adaptation time constant T a , which enables to reliably estimate this time constant. In the postacceleratory period of constant velocity there is a reversal in response. The magnitude and the time course of the per- and postacceleratory response are calculated...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1983) 45 (3): 130–142.
Published Online: 07 January 2010
... with the results of the theoretical study. This form of stimulation yields a rather high value for the adaptation time constant T a , which perhaps indicates that there is an adaptation gain of less than unity. This supposition is supported by finding of non-linearity within the VOR system at high stimulus...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1983) 45 (2): 72–86.
Published Online: 07 January 2010
... transfer function which represents the VOR system. This is based on a second order differential equation for cupular behaviour, modified by an adaptation term. According to the experimental phase characteristic the cupular restoration time constant T 1 was 16.6 s, and the adaptation time constant was 114 s...
Journal Articles
Subject Area:
Audiology and Speech
Journal:
ORL
ORL (1983) 45 (2): 61–71.
Published Online: 07 January 2010
..., results in considerable changes in the response characteristics in the low frequency region. An attempt has been made to quantify the influence of the cupular time constant T 1 and the adaptation time constant T a on the amplitude and phase characteristics of the transfer function, which represents...