ZIB

1

Electronic Resource

A Neural Network for Computing Surface Curvature from Optic Flow (1992)

LEONE, G. ; DROULEZ, J. ; CORNILLEAU-PéRèS, V.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 656 (1992), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1992.tb25276.x

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2

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The influence of long-term practice on mental rotation of 3-D objects

Leone, G. ; Taine, M.C. ; Droulez, J.

Amsterdam : Elsevier

Cognitive Brain Research 1 (1993), S. 241-255

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ISSN: 0926-6410

Keywords: 3-D object ; Complexity ; Imaging skill ; Mental rotation ; Practice

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Medicine , Psychology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0926-6410(93)90008-S

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3

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Modulation by horizontal eye position of the vestibulo-collic reflex induced by tilting in the frontal plane in the alert cat (1985)

Darlot, C. ; Denise, P. ; Droulez, J.

Springer

Experimental brain research 58 (1985), S. 510-519

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ISSN: 1432-1106

Keywords: Vestibular system ; Eye movements ; Vestibulo-collic reflex ; Neck muscles ; Motor strategies

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In alert cats, during sinusoidal rotations of head and trunk en bloc around a longitudinal axis, in darkness or in light, the vestibulo-collic reflex induces neck muscle contractions. The phase and gain diagrams are consistent, in the frequency range 0.2 to 1.2 Hz, with previous results from anesthetized or decerebrate cats. In addition, neck muscle contractions are modulated by horizontal eye position, as is the case for rotations in the horizontal plane, around the vertical (Z) axis. Neck muscle contraction is consequently under control of both eye position and head tilt angle. This synergy of eye and head could suppress the effects of vestibulo-collic reflex during orienting reactions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235867

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4

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Motion perceptions induced by off-vertical axis rotation (OVAR) at small angles of tilt (1988)

Denise, P. ; Darlot, C. ; Droulez, J. ; [et al.]

Springer

Experimental brain research 73 (1988), S. 106-114

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ISSN: 1432-1106

Keywords: Otoliths ; Labyrinth ; Motion perception ; Gravity ; Velocity storage mechanism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Off-vertical axis rotation in darkness induces a perception of body motion which lasts as long as rotation continues. Perceived body motion is the combination of two simultaneous displacements. The most easily perceived is a translation without rotation along a conical path, at the frequency of the actual rotation. Meanwhile, the subjects feel as if they were always facing towards the same direction. The summit of the cone is generally below the head, from the waist to below the feet, and subjects have a sense of progression in the direction opposite to actual spinning. Some subjects feel, on the contrary, the summit of the cone above their heads, and the progression in the direction of spinning. Subjects also perceived another body motion, although it was faint for some of them. It consists of a rotation at low velocity in the same direction as progression along the cone. The axis of the cone is perceived as slowly rotating along a larger cone. These motion perceptions increase with tilt angle and rotation velocity. They probably result from the analysis by the Central Nervous System of the acceleration acting on the otoliths. The perceived trajectory would be reconstructed from estimates of gravity, and kinematic variables such as head translational acceleration and velocity, and head rotational velocity. The same variables would account for OVAR-induced nystagmus. Motion sickness would result from the impossibility of reconstructing a consistent body movement from most sets of values of these variables.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00279665

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5

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Eye movements induced by off-vertical axis rotation (OVAR) at small angles of tilt (1988)

Darlot, C. ; Denise, P. ; Droulez, J. ; [et al.]

Springer

Experimental brain research 73 (1988), S. 91-105

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ISSN: 1432-1106

Keywords: Otolith ; Nystagmus ; Labyrinth ; Eye movements ; Velocity storage mechanism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Off-vertical rotation (OVAR) in darkness induced continuous horizontal nystagmus in humans at small tilts of the rotation axis (5 to 30 degrees). The horizontal slow eye velocity had two components: a mean velocity in the direction opposite to head rotation and a sinusoidal modulation around the mean. Mean velocity generally did not exceed 10 deg/s, and was less than or equal to the maximum velocity of optokinetic after-nystagmus (OKAN). Both the mean and modulation components of horizontal nystagmus increased with tilt angle and rotational velocity. Vertical slow eye velocity was also modulated sinusoidally, generally around zero. The amplitude of the vertical modulation increased with tilt angle, but not with rotational velocity. In addition to modulations in eye velocity, there were also modulations in horizontal and vertical eye positions. These would partially compensate for head position changes in the yaw and pitch planes during each cycle of OVAR. Modulations in vertical eye position were regular, increased with increases in tilt angle and were separated from eye velocity by 90 deg. These results are compatible with the interpretation that, during OVAR, mean slow velocity of horizontal nystagmus is produced by the velocity storage mechanism in the vestibular system. In addition, they indicate that the otolith organs induce compensatory eye position changes with regard to gravity for tilts in the pitch, yaw and probably also the roll planes. Such compensatory changes could be utilized to study the function of the otolith organs. A functional interpretation of these results is that nystagmus attempts to stabilize the image on the retina of one point of the surrounding world. Mean horizontal velocity would then be opposite to the estimate of head rotational velocity provided by the output of the velocity storage mechanism, as charged by an otolithic input during OVAR. In spite of the lack of actual translation, an estimate of head translational velocity could, in this condition, be constructed from the otolithic signal. The modulation in horizontal eye position would then be compensatory for the perceived head translation. Modulation of vertical eye velocity would compensate for actual changes in head orientation with respect to gravity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00279664

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6

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Influence of otolithic stimulation by horizontal linear acceleration on optokinetic nystagmus and visual motion perception (1980)

Buizza, A. ; Léger, A. ; Droulez, J. ; [et al.]

Springer

Experimental brain research 39 (1980), S. 165-176

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ISSN: 1432-1106

Keywords: Vestibular system ; Optokinetic ; Otoliths ; Eye movements ; Motion perception

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Several studies in the past have demonstrated the existence of an Otolith-Ocular Reflex (OOR) in man, although much less sensitive than canal ocular reflex. The present paper 1 confirms these previous results. Nystagmic eye movements (L-nystagmus) appear in the seated subject during horizontal acceleration along the interaural axis in the dark for an acceleration level (1 m/s2) about ten times the perception threshold with a sensitivity of about 0.035 rad/m. When sinusoidal linear acceleration is combined with optokinetic stimulation, the recorded nystagmus slow phase velocity exhibits strong periodic modulation related to subject motion. This marked effect of linear acceleration on the optokinetic nystagmus (OKN) appears at a level (0.1 m/s2) close to the acceleration perception threshold and has a 4-fold higher sensitivity than L-nystagmus. Modulation of OKN can reach a peak-to-peak amplitude as great as 20 °/s; for a given optokinetic field size it increases with the velocity of the optokinetic stimulus, i.e. with the slow phase eye velocity. In parallel with changes in OKN slow phase velocity, linear acceleration induces a motion related decrease in the perceived velocity of the visual scene and modifications in selfmotion perception. The results are interpreted in terms of a mathematical model of visual-vestibular interaction. They show that sensory interaction processes can magnify the contribution given to the control of eye movements by the otolithic system and provide a way of exploring its function at low levels of acceleration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237547

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7

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Visual perception of surface curvature. The spin variation and its physiological implications (1990)

Droulez, J. ; Cornilleau-Pérès, V.

Springer

Biological cybernetics 62 (1990), S. 211-224

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ISSN: 1432-0770

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Computer Science , Physics

Notes: Abstract In the context of the models of structure from motion visual processing, we propose that the opticflow field is a source of information for the perception of the curvature of a smooth surface in motion. In particular, it is shown how the spin variation (SV), a second spatial derivative of the retinal velocity field, is mathematically related to the curvature of the surface. Under the hypothesis that the visual system relies on SV to analyse the structure of a moving surface, a neural scheme for SV detection is proposed and psychophysical predictions are developed. Results obtained on artificial images show that the SV scheme presents a rather weak sensitivity to noise in conditions of low image velocity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00198096

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8

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Does the brain use sliding variables for the control of movements? (1997)

Hanneton, S. ; Berthoz, A. ; Droulez, J. ; [et al.]

Springer

Biological cybernetics 77 (1997), S. 381-393

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ISSN: 1432-0770

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Computer Science , Physics

Notes: Abstract. Delays in the transmission of sensory and motor information prevent errors from being instantaneously available to the central nervous system (CNS) and can reduce the stability of a closed-loop control strategy. On the other hand, the use of a pure feedforward control (inverse dynamics) requires a perfect knowledge of the dynamic behavior of the body and of manipulated objects. Sensory feedback is essential both to accommodate unexpected errors and events and to compensate for uncertainties about the dynamics of the body. Experimental observations concerning the control of posture, gaze and limbs have shown that the CNS certainly uses a combination of closed-loop and open-loop control. Feedforward components of movement, such as eye saccades, occur intermittently and present a stereotyped kinematic profile. In visuo-manual tracking tasks, hand movements exhibit velocity peaks that occur intermittently. When a delay or a slow dynamics are inserted in the visuo-manual control loop, intermittent step-and-hold movements appear clearly in the hand trajectory. In this study, we investigated strategies used by human subjects involved in the control of a particular dynamic system. We found strong evidence for substantial nonlinearities in the commands produced. The presence of step-and-hold movements seemed to be the major source of nonlinearities in the control loop. Furthermore, the stereotyped ballistic-like kinematics of these rapid and corrective movements suggests that they were produced in an open-loop way by the CNS. We analyzed the generation of ballistic movements in the light of sliding control theory assuming that they occurred when a sliding variable exceeded a constant threshold. In this framework, a sliding variable is defined as a composite variable (a combination of the instantaneous tracking error and its temporal derivatives) that fulfills a specific stability criterion. Based on this hypothesis and on the assumption of a constant reaction time, the tracking error and its derivatives should be correlated at a particular time lag before movement onset. A peak of correlation was found for a physiologically plausible reaction time, corresponding to a stable composite variable. The direction and amplitude of the ongoing stereotyped movements seemed also be adjusted in order to minimize this variable. These findings suggest that, during visually guided movements, human subjects attempt to minimize such a composite variable and not the instantaneous error. This minimization seems to be obtained by the execution of stereotyped corrective movements.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004220050398

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