The linear regression of ID in bits versus the movement time (MT) in seconds.

Correlation between absolute number of changes, mean reaction time and overall accuracy of individual participants.

Larissa Albantakis (141775)
Francesca M. Branzi (141777)
Albert Costa (141778)
Gustavo Deco (50143)

August 2012

(A) The overall number of changes is plotted against the mean reaction time (mRT) of all valid tr...

The ideal performer predicts different switching times for the same required movement amplitude but different starting positions of the ball.

Sonal Sengupta (5488292)
W. Pieter Medendorp (837257)
Peter Praamstra (5488295)
Luc P. J. Selen (837256)

July 2018

Participants also choose different switching times between the two conditions. A. The black dots ...

The comparison between quantitative scores from standard and low-cost motion capture and qualitative scores.

Erienne V. Olesh (609987)
Sergiy Yakovenko (3219324)
Valeriya Gritsenko (609988)

August 2014

A, Dots show mean scores for each movement and each subject; thick line shows a regression fit. B...

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of interval duration, with and without the addition of the memory (M) and downstream reading (DRA) nodes.

Juan Carlos Méndez (598968)
Oswaldo Pérez (354895)
Luis Prado (294670)
Hugo Merchant (294668)

July 2014

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of interva...

Learning curve.

Stergios Verros (6551318)
Koen Lucassen (6551321)
Edsko E. G. Hekman (6551324)
Arjen Bergsma (6551327)
Gijsbertus J. Verkerke (572120)
Bart F. J. M. Koopman (6551330)

April 2019

(a) shows the learning curve for the intuitive control interface, (b) for the non-intuitive control ...

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of the angle between the targets with and without the addition of the memory (M) and downstream reading (DRA) nodes.

Juan Carlos Méndez (598968)
Oswaldo Pérez (354895)
Luis Prado (294670)
Hugo Merchant (294668)

July 2014

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of the ang...

Boxplots of movement times.

Stergios Verros (6551318)
Koen Lucassen (6551321)
Edsko E. G. Hekman (6551324)
Arjen Bergsma (6551327)
Gijsbertus J. Verkerke (572120)
Bart F. J. M. Koopman (6551330)

April 2019

Boxplots of the movement times (MT) of the trunk and leg control interfaces, for each of the three I...

Differences in movement execution after the observation of biological (red circles) and non-biological (violating biological laws, green circles) motions: linear relationship between participant (y-axis) and stimuli velocities (x-axis) for upward movements in implicit task.

Ambra Bisio (360696)
Natale Stucchi (296611)
Marco Jacono (360697)
Luciano Fadiga (41646)
Thierry Pozzo (201068)

February 2013

The circles represent participants' movement velocities after observing the moving stimuli and th...

Finger size change report vs Delta Threshold and Delta RT.

Agustin Petroni (5652244)
M. Julia Carbajal (760291)
Mariano Sigman (4629)

June 2015

(a) Linear regression of subjective finger size change on reaching threshold shift. (b) Linear re...

Reaction times for each type of cues in the control condition.

Emeline Clerget (341044)
Michael Andres (419734)
Etienne Olivier (47423)

June 2013

Mean reaction times (± SEM) for all subjects, in the absence of TMS, for each type of cues (BL: b...

Simple regression - Relationship between cognitive test performance and walking time.

Artin Jabourian (608555)
Sylvie Lancrenon (608556)
Catherine Delva (608557)
Alain Perreve-Genet (608558)
Jean-Pierre Lablanchy (608559)
Maritza Jabourian (608560)

August 2014

Simple linear regression with the cognitive tests scores as explained variables and walking time ...

Regression performance with respect to the use of different number of longitudinal time points by three different methods.

Daoqiang Zhang (328704)
Dinggang Shen (204274)

February 2013

Regression performance with respect to the use of different number of longitudinal time points by...

Data and fittings for experiment 2.

Rita Sleimen-Malkoun (151789)
Jean-Jacques Temprado (151791)
Raoul Huys (151793)
Viktor Jirsa (151795)
Eric Berton (151797)

July 2012

(A) Movement time; (B) deceleration time; and (C) acceleration time. Each dot represents mean val...

Single subject movement data and adaptation rate quantification.

Daniel Blustein (6157745)
Ahmed Shehata (6157748)
Kevin Englehart (789092)
Jonathon Sensinger (789090)

January 2019

(a) Trial-by-trial endpoint error data (one degree-of-freedom) for a block of 70 consecutive movemen...

A strong linear relationship (R2>0.98) was found between the movement time and index of difficulty.

Ali Ameri (5746544)
Mohammad Ali Akhaee (5746547)
Erik Scheme (4606558)
Kevin Englehart (789092)

September 2018

A strong linear relationship (R2>0.98) was found between the movement time and index of difficulty.<...

Correlation between absolute number of changes, mean reaction time and overall accuracy of individual participants.

Larissa Albantakis (141775)
Francesca M. Branzi (141777)
Albert Costa (141778)
Gustavo Deco (50143)

August 2012

(A) The overall number of changes is plotted against the mean reaction time (mRT) of all valid tr...

The ideal performer predicts different switching times for the same required movement amplitude but different starting positions of the ball.

Sonal Sengupta (5488292)
W. Pieter Medendorp (837257)
Peter Praamstra (5488295)
Luc P. J. Selen (837256)

July 2018

Participants also choose different switching times between the two conditions. A. The black dots ...

The comparison between quantitative scores from standard and low-cost motion capture and qualitative scores.

Erienne V. Olesh (609987)
Sergiy Yakovenko (3219324)
Valeriya Gritsenko (609988)

August 2014

A, Dots show mean scores for each movement and each subject; thick line shows a regression fit. B...

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of interval duration, with and without the addition of the memory (M) and downstream reading (DRA) nodes.

Juan Carlos Méndez (598968)
Oswaldo Pérez (354895)
Luis Prado (294670)
Hugo Merchant (294668)

July 2014

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of interva...

Learning curve.

Stergios Verros (6551318)
Koen Lucassen (6551321)
Edsko E. G. Hekman (6551324)
Arjen Bergsma (6551327)
Gijsbertus J. Verkerke (572120)
Bart F. J. M. Koopman (6551330)

April 2019

(a) shows the learning curve for the intuitive control interface, (b) for the non-intuitive control ...

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of the angle between the targets with and without the addition of the memory (M) and downstream reading (DRA) nodes.

Juan Carlos Méndez (598968)
Oswaldo Pérez (354895)
Luis Prado (294670)
Hugo Merchant (294668)

July 2014

Linear regression fittings for reaction time (RT) and movement time (MT) as a function of the ang...

Boxplots of movement times.

Stergios Verros (6551318)
Koen Lucassen (6551321)
Edsko E. G. Hekman (6551324)
Arjen Bergsma (6551327)
Gijsbertus J. Verkerke (572120)
Bart F. J. M. Koopman (6551330)

April 2019

Boxplots of the movement times (MT) of the trunk and leg control interfaces, for each of the three I...

Differences in movement execution after the observation of biological (red circles) and non-biological (violating biological laws, green circles) motions: linear relationship between participant (y-axis) and stimuli velocities (x-axis) for upward movements in implicit task.

Ambra Bisio (360696)
Natale Stucchi (296611)
Marco Jacono (360697)
Luciano Fadiga (41646)
Thierry Pozzo (201068)

February 2013

The circles represent participants' movement velocities after observing the moving stimuli and th...

Finger size change report vs Delta Threshold and Delta RT.

Agustin Petroni (5652244)
M. Julia Carbajal (760291)
Mariano Sigman (4629)

June 2015

(a) Linear regression of subjective finger size change on reaching threshold shift. (b) Linear re...

Reaction times for each type of cues in the control condition.

Emeline Clerget (341044)
Michael Andres (419734)
Etienne Olivier (47423)

June 2013

Mean reaction times (± SEM) for all subjects, in the absence of TMS, for each type of cues (BL: b...

Simple regression - Relationship between cognitive test performance and walking time.

Artin Jabourian (608555)
Sylvie Lancrenon (608556)
Catherine Delva (608557)
Alain Perreve-Genet (608558)
Jean-Pierre Lablanchy (608559)
Maritza Jabourian (608560)

August 2014

Simple linear regression with the cognitive tests scores as explained variables and walking time ...

Regression performance with respect to the use of different number of longitudinal time points by three different methods.

Daoqiang Zhang (328704)
Dinggang Shen (204274)

February 2013

Regression performance with respect to the use of different number of longitudinal time points by...

Data and fittings for experiment 2.

Rita Sleimen-Malkoun (151789)
Jean-Jacques Temprado (151791)
Raoul Huys (151793)
Viktor Jirsa (151795)
Eric Berton (151797)

July 2012

(A) Movement time; (B) deceleration time; and (C) acceleration time. Each dot represents mean val...

Single subject movement data and adaptation rate quantification.

Daniel Blustein (6157745)
Ahmed Shehata (6157748)
Kevin Englehart (789092)
Jonathon Sensinger (789090)

January 2019

(a) Trial-by-trial endpoint error data (one degree-of-freedom) for a block of 70 consecutive movemen...

A strong linear relationship (R2>0.98) was found between the movement time and index of difficulty.

Ali Ameri (5746544)
Mohammad Ali Akhaee (5746547)
Erik Scheme (4606558)
Kevin Englehart (789092)

September 2018

A strong linear relationship (R2>0.98) was found between the movement time and index of difficulty.<...

Correlation between absolute number of changes, mean reaction time and overall accuracy of individual participants.

Larissa Albantakis (141775)
Francesca M. Branzi (141777)
Albert Costa (141778)
Gustavo Deco (50143)

August 2012

(A) The overall number of changes is plotted against the mean reaction time (mRT) of all valid tr...

The ideal performer predicts different switching times for the same required movement amplitude but different starting positions of the ball.

Sonal Sengupta (5488292)
W. Pieter Medendorp (837257)
Peter Praamstra (5488295)
Luc P. J. Selen (837256)

July 2018

Participants also choose different switching times between the two conditions. A. The black dots ...

The comparison between quantitative scores from standard and low-cost motion capture and qualitative scores.

Erienne V. Olesh (609987)
Sergiy Yakovenko (3219324)
Valeriya Gritsenko (609988)

August 2014

A, Dots show mean scores for each movement and each subject; thick line shows a regression fit. B...

The linear regression of ID in bits versus the movement time (MT) in seconds.

Abstract

Extracted data

The linear regression of ID in bits versus the movement time (MT) in seconds.

Abstract

Extracted data

Related items

Related items