Several types of equilibrium point (EP) controllers have been proposed for the control of posture and movement. EP controllers are appealing from a computational perspective because they do not require solving the "inverse dynamic problem" (i.e., computation of the torques required to move a system along a desired trajectory). It has been argued that EP controllers are not capable of controlling fast single-joint movements. To refute this statement, several extensions have been proposed, although these have been tested using models in which only the tendon compliance, force-length-velocity relation, and mechanical interaction between tendon and contractile element were not adequately represented. In the present study, fast elbow-joint movem...
A linear movement with a duration between 0.5 s and 0.75 s using the shoulder and elbow joints is re...
We examined the patterns of joint kinematics and torques in two kinds of sagittal plane reaching mov...
As both ordinary and well-trained human motion is mostly planned and controlled unconsciously by the...
In the literature, it has been hotly debated whether the brain uses internal models or equilibrium p...
The underlying concept of the Equilibrium Point Hypothesis (EPH) is that the CNS provides a virtual ...
According to the equilibrium point theory, the control of posture and movement involves the setting ...
Abstract. According to the equilibrium trajectory hypothesis, multi-joint arm movements are achieved...
Empirical and simulation studies are described which assess the form of central control signals for ...
Six subjects performed a planar reaching arm movement to a target while unpredictable perturbations ...
This thesis presents the design and experimental application of the Equilibrium Point Hypothesis as ...
Elastic joints endow robots with advantages including energy-efficiency, safety and performance. To...
The movement control of articulated limbs in humans has been explained in terms of equilibrium point...
The lambda version of the equilibrium point (EP) hypothesis for motor control is examined in light o...
This paper presents the Double Actuator Joint Mechanism, a novel mechanism for robots to generate hu...
Empirical and modelling studies are reported which explore ways in which the central nervous system ...
A linear movement with a duration between 0.5 s and 0.75 s using the shoulder and elbow joints is re...
We examined the patterns of joint kinematics and torques in two kinds of sagittal plane reaching mov...
As both ordinary and well-trained human motion is mostly planned and controlled unconsciously by the...
In the literature, it has been hotly debated whether the brain uses internal models or equilibrium p...
The underlying concept of the Equilibrium Point Hypothesis (EPH) is that the CNS provides a virtual ...
According to the equilibrium point theory, the control of posture and movement involves the setting ...
Abstract. According to the equilibrium trajectory hypothesis, multi-joint arm movements are achieved...
Empirical and simulation studies are described which assess the form of central control signals for ...
Six subjects performed a planar reaching arm movement to a target while unpredictable perturbations ...
This thesis presents the design and experimental application of the Equilibrium Point Hypothesis as ...
Elastic joints endow robots with advantages including energy-efficiency, safety and performance. To...
The movement control of articulated limbs in humans has been explained in terms of equilibrium point...
The lambda version of the equilibrium point (EP) hypothesis for motor control is examined in light o...
This paper presents the Double Actuator Joint Mechanism, a novel mechanism for robots to generate hu...
Empirical and modelling studies are reported which explore ways in which the central nervous system ...
A linear movement with a duration between 0.5 s and 0.75 s using the shoulder and elbow joints is re...
We examined the patterns of joint kinematics and torques in two kinds of sagittal plane reaching mov...
As both ordinary and well-trained human motion is mostly planned and controlled unconsciously by the...