Closed-loop System Identification of Ankle Dynamics With Compliant Loads

Closed-loop System Identification of Ankle Dynamics With Compliant Loads

Joint stiffness, defined as the relation between the angular position of a joint and the torque acting about it, can be used to describe the dynamic behavior of the human ankle during posture and movement. Joint stiffness can be separated into intrinsic stiffness and reflex stiffness, which are mode...

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Bibliographische Detailangaben
Hauptverfasser: Zhao, Y., Kearney, R.E.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
ankle dynamics
Ankle Joint - physiology
Ankle Joint - physiopathology
Biomechanical Phenomena
Biomedical engineering
closed loop identification
Errors-In-Variable algorithm
Humans
Impedance
Linear systems
Models, Biological
Movement
Muscle Contraction
Muscles
Neuromuscular Diseases - physiopathology
Nonlinear dynamical systems
Open loop systems
Position control
Posture
Reaction Time
Reflex
subspace method
System identification
Torque
Torque control
Weight-Bearing
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Beschreibung
Zusammenfassung:Joint stiffness, defined as the relation between the angular position of a joint and the torque acting about it, can be used to describe the dynamic behavior of the human ankle during posture and movement. Joint stiffness can be separated into intrinsic stiffness and reflex stiffness, which are modeled as a linear system and a LNL system, respectively. With a compliant load, joint stiffness can be viewed as being operated in closed-loop because the torque is fed back through the load to change the position. In this paper, we present a new method to estimate the intrinsic and reflex stiffness from the total torque measurement. An EIV (errors-in-variables) subspace system identification method is used to estimate the dynamics of each pathway directly from measured data. Simulation and experiment studies demonstrate that the method produces accurate results.
ISSN:1094-687X
1557-170X
1558-4615
DOI:10.1109/IEMBS.2007.4353443