Suzanne A. E. Nooij
Max Planck Society
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Publication
Featured researches published by Suzanne A. E. Nooij.
Journal of Motor Behavior | 2004
C. (Lieke) E. Peper; Suzanne A. E. Nooij; A.J. van Soest
The shifts in relative phase that are observed when rhythmically coordinated limbs are submitted to asymmetric mass perturbations have typically been attributed to the induced eigenfrequency difference (
AIAA Modeling and Simulation Technologies Conference 2012, 13 August 2012 through 16 August 2012, Minneapolis, MN | 2012
Eric L. Groen; Wietse Ledegang; Joris Field; Hafid Smaili; Manfred Roza; Lars Fucke; Suzanne A. E. Nooij; Mikhail Goman; Michael Mayrhofer; Larisa Zaichik; Maxim Grigoryev; Vladimir Biryukov
DL
Aviation, Space, and Environmental Medicine | 2011
Suzanne A. E. Nooij; Eric L. Groen
oM) between the limbs. Modeling the moving limbs as forced linear oscillators, however, reveals that asymmetric mass perturbations may induce a difference not only in eigenfrequency (i.e.,
PLOS ONE | 2017
Suzanne A. E. Nooij; P Pretto; Daniel Oberfeld; Heiko Hecht; Hh Bülthoff
DL
Simulation | 2016
Alessandro Nesti; Suzanne A. E. Nooij; Martin Losert; Hh Bülthoff; P Pretto
oM
Experimental Brain Research | 2016
Suzanne A. E. Nooij; Alessandro Nesti; Hh Bülthoff; P Pretto
Experimental Brain Research | 2008
Suzanne A. E. Nooij; Jelte E. Bos; Eric L. Groen
0) but also in the covarying low-frequency control gains (i.e.,
Aviation, Space, and Environmental Medicine | 2007
Agali Mert; Willem Bles; Suzanne A. E. Nooij
DLk
Journal of Vestibular Research-equilibrium & Orientation | 2008
Suzanne A. E. Nooij; Jelte E. Bos; Eric L. Groen
Driving Simulation Conference (DSC 2014) | 2014
P Pretto; Alessandro Nesti; Suzanne A. E. Nooij; Martin Losert; Hh Bülthoff
0). Because the inverse of the lowfrequency control gain (k) reflects the level of muscular torque (input) required for a particular displacement from equilibrium (output), asymmetric mass perturbations may result in an imbalance in the muscular torques required for task performance (related to