Gain and phase of segment angles relative to vision, showing intramodal visual reweighting (blue solid line) and intermodal visual-proprioceptive reweighting (red dashed line).

Dynamics of inter-modality re-weighting during human postural control

Polastri, Paula Fávaro
Barela, Jose A.
Kiemel, Tim
Jeka, John J.

November 2012

Flexible and stable postural control requires adaptation to changing environmental conditions, a pro...

Balance parameters during quiet standing with eyes open and eyes closed.

Nima Toosizadeh (300455)
Jane Mohler (729541)
Vladimir Marlinski (5007653)

March 2018

(A, B, C) Ankle anterio-posterior (AP), medio-lateral (ML) deviations (deg),...

Influence of body tilt on perceived object stability.

Michael Barnett-Cowan (352677)
Roland W. Fleming (311986)
Manish Singh (352678)
Heinrich H. Bülthoff (177413)

February 2013

(A) Stimuli. Critical angle (CA) predictions (shaded areas) relati...

Gain and phase of segment angles relative to galvanic vestibular stimulation (GVS), showing intermodal reweighting.

Sungjae Hwang (518339)
Peter Agada (518340)
Tim Kiemel (315517)
John J. Jeka (315518)

January 2014

Blue color indicates gain responses about changing of visual amplitude and red color indicates ga...

Gain and phase of segment angles relative to vibration.

Sungjae Hwang (518339)
Peter Agada (518340)
Tim Kiemel (315517)
John J. Jeka (315518)

January 2014

A, gain of the leg segment angle relative to vibration. B, gain of the trunk segmen...

FRFS from visual scene angle to segment angles.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A–B: Gain and phase of FRF from visual scene angle to leg segment angle. C–D: Gain and phase of F...

FRF from visual scene angle to weighted EMG.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A: Gain of weighted EMG (all seven muscles from both ankle and hip) from visual scene angle. B: P...

FRFS from platform angle to segment angles.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A–B: Gain and phase of FRF from platform angle to leg segment angle. C–D: Gain and phase of FRF f...

FRF from platform angle to weighted EMG.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A: Gain of weighted EMG (all seven muscles from both ankle and hip) from platform angle. B: Phase...

Asymmetric Sensory Reweighting in Human Upright

David Logan
Tim Kiemel
John J. Jeka

January 2014

To investigate sensory reweighting as a fundamental property of sensor fusion during standing, we pr...

Asymmetric Sensory Reweighting in Human Upright Stance

Logan, David
Kiemel, Tim
Jeka, John J.

June 2014

Funding for Open Access provided by the UMD Libraries Open Access Publishing Fund.To investigate sen...

Dynamic Reweighting of Three Modalities for Sensor Fusion

Sungjae Hwang
Peter Agada
Tim Kiemel
John J. Jeka

January 2013

We simultaneously perturbed visual, vestibular and proprioceptive modalities to understand how senso...

Effect of the viewing condition on postural parameters.

Chrystal Gaertner (300436)
Charlotte Creux (397233)
Marie-Andrée Espinasse-Berrod (397234)
Christophe Orssaud (144936)
Jean-Louis Dufier (397235)
Zoï Kapoula (3181413)

April 2013

Means values of the viewing conditions for the antero-posterior body sway (A) and for the ...

Dynamic reweighting of three modalities for sensor fusion.

Sungjae Hwang
Peter Agada
Tim Kiemel
John J Jeka

We simultaneously perturbed visual, vestibular and proprioceptive modalities to understand how senso...

Sensory reweighting dynamics following removal and addition of visual and proprioceptive cues

Assländer, Lorenz
Peterka, Robert J.

April 2016

Removing or adding sensory cues from one sensory system during standing balance causes a change in t...

Dynamics of inter-modality re-weighting during human postural control

Polastri, Paula Fávaro
Barela, Jose A.
Kiemel, Tim
Jeka, John J.

November 2012

Flexible and stable postural control requires adaptation to changing environmental conditions, a pro...

Balance parameters during quiet standing with eyes open and eyes closed.

Nima Toosizadeh (300455)
Jane Mohler (729541)
Vladimir Marlinski (5007653)

March 2018

(A, B, C) Ankle anterio-posterior (AP), medio-lateral (ML) deviations (deg),...

Influence of body tilt on perceived object stability.

Michael Barnett-Cowan (352677)
Roland W. Fleming (311986)
Manish Singh (352678)
Heinrich H. Bülthoff (177413)

February 2013

(A) Stimuli. Critical angle (CA) predictions (shaded areas) relati...

Gain and phase of segment angles relative to galvanic vestibular stimulation (GVS), showing intermodal reweighting.

Sungjae Hwang (518339)
Peter Agada (518340)
Tim Kiemel (315517)
John J. Jeka (315518)

January 2014

Blue color indicates gain responses about changing of visual amplitude and red color indicates ga...

Gain and phase of segment angles relative to vibration.

Sungjae Hwang (518339)
Peter Agada (518340)
Tim Kiemel (315517)
John J. Jeka (315518)

January 2014

A, gain of the leg segment angle relative to vibration. B, gain of the trunk segmen...

FRFS from visual scene angle to segment angles.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A–B: Gain and phase of FRF from visual scene angle to leg segment angle. C–D: Gain and phase of F...

FRF from visual scene angle to weighted EMG.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A: Gain of weighted EMG (all seven muscles from both ankle and hip) from visual scene angle. B: P...

FRFS from platform angle to segment angles.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A–B: Gain and phase of FRF from platform angle to leg segment angle. C–D: Gain and phase of FRF f...

FRF from platform angle to weighted EMG.

David Logan (588171)
Tim Kiemel (315517)
John J. Jeka (315518)

June 2014

A: Gain of weighted EMG (all seven muscles from both ankle and hip) from platform angle. B: Phase...

Asymmetric Sensory Reweighting in Human Upright

David Logan
Tim Kiemel
John J. Jeka

January 2014

To investigate sensory reweighting as a fundamental property of sensor fusion during standing, we pr...

Asymmetric Sensory Reweighting in Human Upright Stance

Logan, David
Kiemel, Tim
Jeka, John J.

June 2014

Funding for Open Access provided by the UMD Libraries Open Access Publishing Fund.To investigate sen...

Dynamic Reweighting of Three Modalities for Sensor Fusion

Sungjae Hwang
Peter Agada
Tim Kiemel
John J. Jeka

January 2013

We simultaneously perturbed visual, vestibular and proprioceptive modalities to understand how senso...

Effect of the viewing condition on postural parameters.

Chrystal Gaertner (300436)
Charlotte Creux (397233)
Marie-Andrée Espinasse-Berrod (397234)
Christophe Orssaud (144936)
Jean-Louis Dufier (397235)
Zoï Kapoula (3181413)

April 2013

Means values of the viewing conditions for the antero-posterior body sway (A) and for the ...

Dynamic reweighting of three modalities for sensor fusion.

Sungjae Hwang
Peter Agada
Tim Kiemel
John J Jeka

We simultaneously perturbed visual, vestibular and proprioceptive modalities to understand how senso...

Sensory reweighting dynamics following removal and addition of visual and proprioceptive cues

Assländer, Lorenz
Peterka, Robert J.

April 2016

Removing or adding sensory cues from one sensory system during standing balance causes a change in t...

Dynamics of inter-modality re-weighting during human postural control

Polastri, Paula Fávaro
Barela, Jose A.
Kiemel, Tim
Jeka, John J.

November 2012

Flexible and stable postural control requires adaptation to changing environmental conditions, a pro...

Balance parameters during quiet standing with eyes open and eyes closed.

Nima Toosizadeh (300455)
Jane Mohler (729541)
Vladimir Marlinski (5007653)

March 2018

(A, B, C) Ankle anterio-posterior (AP), medio-lateral (ML) deviations (deg),...

Influence of body tilt on perceived object stability.

Michael Barnett-Cowan (352677)
Roland W. Fleming (311986)
Manish Singh (352678)
Heinrich H. Bülthoff (177413)

February 2013

(A) Stimuli. Critical angle (CA) predictions (shaded areas) relati...

Gain and phase of segment angles relative to vision, showing intramodal visual reweighting (blue solid line) and intermodal visual-proprioceptive reweighting (red dashed line).

Abstract

Extracted data

Gain and phase of segment angles relative to vision, showing intramodal visual reweighting (blue solid line) and intermodal visual-proprioceptive reweighting (red dashed line).

Abstract

Extracted data

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