Delft University of Technology
His main research concerns Control theory, Reflex, Balance, Position and Biomechanics. His study in Control theory is interdisciplinary in nature, drawing from both Anatomy, Haptic technology, Noise and Motion control. His work carried out in the field of Reflex brings together such families of science as Postural Balance, Muscle contraction, Electromyography, Muscle spindle and Adaptive system.
His Balance study deals with Motor control intersecting with Rehabilitation. The Biomechanics study combines topics in areas such as Geometry, Tendon, Right shoulder, Joint and Muscle fibre. Frans C. T. van der Helm applies his multidisciplinary studies on Physical medicine and rehabilitation and Trunk in his research.
Control theory, Simulation, Physical medicine and rehabilitation, Haptic technology and Reflex are his primary areas of study. His Control theory research is multidisciplinary, relying on both Stiffness and Bandwidth. His work focuses on many connections between Physical medicine and rehabilitation and other disciplines, such as Dystonia, that overlap with his field of interest in Complex regional pain syndrome and Ankle jerk reflex.
The various areas that Frans C. T. van der Helm examines in his Haptic technology study include Human–computer interaction, Task and Motor control. His study looks at the relationship between Reflex and fields such as Anatomy, as well as how they intersect with chemical problems. His biological study spans a wide range of topics, including Range of motion and Elbow.
Frans C. T. van der Helm mainly investigates Electroencephalography, Control theory, Physical medicine and rehabilitation, Neuroscience and Nonlinear system. His Control theory study combines topics in areas such as Motion, Acceleration, Bandwidth and Admittance. The Proprioception research Frans C. T. van der Helm does as part of his general Physical medicine and rehabilitation study is frequently linked to other disciplines of science, such as Trunk, therefore creating a link between diverse domains of science.
His Neuroscience research includes themes of Wrist and Linear model. Frans C. T. van der Helm frequently studies issues relating to Volterra series and Wrist. His work deals with themes such as Intermodulation, Nervous system and Amplitude, which intersect with Nonlinear system.
His primary scientific interests are in Electroencephalography, Nonlinear system, Neuroscience, Somatosensory system and Control theory. His work on Wrist expands to the thematically related Neuroscience. His Wrist research is multidisciplinary, incorporating elements of Motor cortex, Spinal reflex, Simulation and Stretch reflex.
His work investigates the relationship between Somatosensory system and topics such as Sensory system that intersect with problems in Physical medicine and rehabilitation, Neurorehabilitation, Proprioception and Stroke. His Physical medicine and rehabilitation study frequently links to other fields, such as Sensory stimulation therapy. His Control theory research integrates issues from Intermodulation, Righting reflex, Linear model and Vestibular system.
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ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion-Part II: shoulder, elbow, wrist and hand
Ge Wu;Frans C.T. van der Helm;H.E.J. (DirkJan) Veeger;Mohsen Makhsous.
Journal of Biomechanics (2005)
Three-dimensional recording and description of motions of the shoulder mechanism.
Frans C. T. van der Helm;Gijs M. Pronk.
Journal of Biomechanical Engineering-transactions of The Asme (1995)
An adaptive model of sensory integration in a dynamic environment applied to human stance control.
Herman van der Kooij;Ron Jacobs;Bart Koopman;Frans C. T. van der Helm.
Biological Cybernetics (2001)
Comparison of different methods to identify and quantify balance control.
Herman van der Kooij;Edwin van Asseldonk;Frans C.T. van der Helm;Frans C.T. van der Helm.
Journal of Neuroscience Methods (2005)
Identification of intrinsic and reflexive components of human arm dynamics during postural control.
Frans C.T. van der Helm;Alfred C. Schouten;Erwin de Vlugt;Guido G. Brouwn.
Journal of Neuroscience Methods (2002)
Measuring muscle and joint geometry parameters of a shoulder for modeling purposes.
Mary D. Klein Breteler;Cornelis W. Spoor;Frans C.T. Van der Helm.
Journal of Biomechanics (1999)
The Effects on Kinematics and Muscle Activity of Walking in a Robotic Gait Trainer During Zero-Force Control
Edwin H. F. van Asseldonk;Jan F. Veneman;Ralf Ekkelenkamp;Jaap H. Buurke.
international conference of the ieee engineering in medicine and biology society (2008)
Measuring morphological parameters of the pelvic floor for finite element modelling purposes.
Štěpán Janda;Frans C.T van der Helm;Sjoerd B de Blok.
Journal of Biomechanics (2003)
A rigorous model of reflex function indicates that position and force feedback are flexibly tuned to position and force tasks
Winfred Mugge;David A. Abbink;Alfred C. Schouten;Alfred C. Schouten;Julius P. A. Dewald.
Experimental Brain Research (2010)
Disentangling the contribution of the paretic and non-paretic ankle to balance control in stroke patients
Edwin H F van Asseldonk;Jaap H Buurke;Bastiaan R Bloem;Gerbert J Renzenbrink.
Experimental Neurology (2006)
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