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Ian Loram

Showing results (1-10 of 16) with videos related to

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Progress in Brain Research|June 27, 2019
Effect of motor and sensory noise in the control of upright standingAmel Cherif, Ian Loram, Jacopo Zenzeri
Biological Cybernetics|July 10, 2009
Predictive feedback in human simulated pendulum balancingPeter Gawthrop, Ian Loram, Martin Lakie
Scientific Reports|March 20, 2020
Force accuracy rather than high stiffness is associated with faster learning and reduced falls in human balanceAmel Cherif, Ian Loram, Jacopo Zenzeri
Human Movement Science|November 14, 2016
Wavelet-frequency analysis for the detection of discontinuities in switched system models of human balanceSalam Nema, Piotr Kowalczyk, Ian Loram
Biological Cybernetics|January 9, 2008
Predictive feedback control and Fitts' lawPeter Gawthrop, Martin Lakie, Ian Loram
Frontiers in Bioengineering and Biotechnology|October 17, 2022
What is the contribution of voluntary and reflex processes to sensorimotor control of balance?Amel Cherif, Jacopo Zenzeri, Ian Loram
Biological Cybernetics|August 8, 2015
Complexity and dynamics of switched human balance control during quiet standingSalam Nema, Piotr Kowalczyk, Ian Loram
Biological Cybernetics|February 7, 2014
Intermittent control models of human standing: similarities and differencesPeter Gawthrop, Ian Loram, Henrik Gollee, et al.
Biological Cybernetics|February 18, 2011
Intermittent control: a computational theory of human controlPeter Gawthrop, Ian Loram, Martin Lakie, et al.
Chaos (Woodbury, N.Y.)|July 3, 2014
Auto-regressive moving average analysis of linear and discontinuous models of human balance during quiet standingPiotr Kowalczyk, Salam Nema, Paul Glendinning, et al.
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Progress in Brain Research|June 27, 2019
Effect of motor and sensory noise in the control of upright standingAmel Cherif, Ian Loram, Jacopo Zenzeri
Biological Cybernetics|July 10, 2009
Predictive feedback in human simulated pendulum balancingPeter Gawthrop, Ian Loram, Martin Lakie
Scientific Reports|March 20, 2020
Force accuracy rather than high stiffness is associated with faster learning and reduced falls in human balanceAmel Cherif, Ian Loram, Jacopo Zenzeri
Human Movement Science|November 14, 2016
Wavelet-frequency analysis for the detection of discontinuities in switched system models of human balanceSalam Nema, Piotr Kowalczyk, Ian Loram
Biological Cybernetics|January 9, 2008
Predictive feedback control and Fitts' lawPeter Gawthrop, Martin Lakie, Ian Loram
Frontiers in Bioengineering and Biotechnology|October 17, 2022
What is the contribution of voluntary and reflex processes to sensorimotor control of balance?Amel Cherif, Jacopo Zenzeri, Ian Loram
Biological Cybernetics|August 8, 2015
Complexity and dynamics of switched human balance control during quiet standingSalam Nema, Piotr Kowalczyk, Ian Loram
Biological Cybernetics|February 7, 2014
Intermittent control models of human standing: similarities and differencesPeter Gawthrop, Ian Loram, Henrik Gollee, et al.
Biological Cybernetics|February 18, 2011
Intermittent control: a computational theory of human controlPeter Gawthrop, Ian Loram, Martin Lakie, et al.
Chaos (Woodbury, N.Y.)|July 3, 2014
Auto-regressive moving average analysis of linear and discontinuous models of human balance during quiet standingPiotr Kowalczyk, Salam Nema, Paul Glendinning, et al.
Pageof 2