Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 A non-linear model for visual-vestibular interaction during body rotation in man.

Literature DB >> 6965868

A non-linear model for visual-vestibular interaction during body rotation in man.

Abstract

A mathematical model for visual-vestibular interaction during body rotation in an illuminated visual surround is obtained by combining a previous model of the optokinetic reflex (OKR) with a simplified model of the vestibulo-ocular reflex (VOR). OKR is activated by the slip of the image of the external world on the retina, and represents a negative feedback loop around VOR. For large retinal slip velocities OKR behaves as a basically non-linear system. The validity of the model is proved via computer simulation by comparing predicted responses with the experimental results obtained in man by Koenig et al. (1978) in different situations of visual-vestibular interaction.

Entities: Disease Species

Mesh：

Year: 1980 PMID： 6965868 DOI： 10.1007/BF00365768

Source DB: PubMed Journal: Biol Cybern ISSN： 0340-1200 Impact factor: 2.086

13 in total

1. A mathematical model of the optokinetic reflex.

Authors: R Schmid; D Zambarbieri; R Sardi
Journal: Biol Cybern Date: 1979-10-03 Impact factor: 2.086

2. The elementary vestibulo-ocular reflex arc.

Authors: J SZENTAGOTHAI
Journal: J Neurophysiol Date: 1950-11 Impact factor: 2.714

3. Vision during angular oscillation: the dynamic interaction of visual and vestibular mechanisms.

Authors: A J Benson; G R Barnes
Journal: Aviat Space Environ Med Date: 1978-01

4. Visual-vestibular interaction upon nystagmus slow phase velocity in man.

Authors: E Koenig; J H Allum; J Dichgans
Journal: Acta Otolaryngol Date: 1978 May-Jun Impact factor: 1.494

5. Linear model for visual-vestibular interaction.

Authors: C G Lau; V Honrubia; H A Jenkins; R W Baloh; R D Yee
Journal: Aviat Space Environ Med Date: 1978-07

6. Linear addition of optokinetic and vestibular signals in the vestibular nucleus.

Authors: D A Robinson
Journal: Exp Brain Res Date: 1977-11-24 Impact factor: 1.972

7. Visual-vestibular responses in vestibular nuclear neurons in the intact and cerebellectomized, alert cat.

Authors: E L Keller; W Precht
Journal: Neuroscience Date: 1979 Impact factor: 3.590

8. Neuronal activity in the vestibular nuclei of the alert monkey during vestibular and optokinetic stimulation.

Authors: W Waespe; V Henn
Journal: Exp Brain Res Date: 1977-04-21 Impact factor: 1.972

9. Vestibular nucleus units in alert monkeys are also influenced by moving visual fields.

Authors: V Henn; L R Young; C Finley
Journal: Brain Res Date: 1974-05-10 Impact factor: 3.252

10. An analog model of the rabbit's optokinetic system.

Authors: H Collewijn
Journal: Brain Res Date: 1972-01-14 Impact factor: 3.252

9 in total

1. Velocity characteristics of smooth pursuit eye movements to different patterns of target motion.

Authors: A Buizza; R Schmid
Journal: Exp Brain Res Date: 1986 Impact factor: 1.972

2. New experimental data on cat's optokinetic responses. Is there need to revise previous models of the optokinetic reflex?

Authors: A Buizza; R Schmid
Journal: Biol Cybern Date: 1985 Impact factor: 2.086

8. Influence of otolithic stimulation by horizontal linear acceleration on optokinetic nystagmus and visual motion perception.

Authors: A Buizza; A Léger; J Droulez; A Berthoz; R Schmid
Journal: Exp Brain Res Date: 1980 Impact factor: 1.972

9. Human eye movement response to z-axis linear acceleration: the effect of varying the phase relationships between visual and vestibular inputs.

Authors: C E Lathan; C Wall; L R Harris
Journal: Exp Brain Res Date: 1995 Impact factor: 1.972