International audienceThe nervous system controls the behavior of complex kinematically redundant biomechanical systems. How it computes appropriate commands to generate movements is unknown. Here we propose a model based on the assumption that the nervous system: 1) processes static (e.g., gravitational) and dynamic (e.g., inertial) forces separately; 2) calculates appropriate dynamic controls to master the dynamic forces and progress toward the goal according to principles of optimal feedback control; 3) uses the size of the dynamic commands (effort) as an optimality criterion; and 4) can specify movement duration from a given level of effort. The model was used to control kinematic chains with 2, 4, and 7 degrees of freedom [planar shoul...
UnrestrictedPrecise control of posture is necessary for the success of any motor actions. The strate...
Human motor control is highly efficient in generating accurate and appropriate motor behavior for a ...
While the neuromuscular components involved in moving human joints are well known, there is no unify...
International audienceThe nervous system controls the behavior of complex kinematically redundant bi...
The complex bio-mechanics of human body is capable of generating an unlimited repertoire of movement...
Movements produced in everyday life pursue a goal. Key to the success of such movements is the motor...
Abstract. In this paper, we propose a model of biological motor control for generation of goal-direc...
This paper focuses on a dynamic sensory-motor control mechanism of reaching movements for a musculo-...
Mammalian motor control is implemented by a combination of different networks and system, working co...
It has been suggested that the human nervous system controls motions in the task (or operational) sp...
In this study, we introduce a hierarchical and modular computational model to explain how the CNS (C...
International audienceHow does the central nervous system select and coordinate different degrees of...
The basic hypothesis of producing a range of behaviors using a small set of motor commands has been ...
Abstract The nervous system activates a pair of agonist and antagonist muscles to determine the musc...
It has been suggested that the human nervous system controls motions in the task (or operational) sp...
UnrestrictedPrecise control of posture is necessary for the success of any motor actions. The strate...
Human motor control is highly efficient in generating accurate and appropriate motor behavior for a ...
While the neuromuscular components involved in moving human joints are well known, there is no unify...
International audienceThe nervous system controls the behavior of complex kinematically redundant bi...
The complex bio-mechanics of human body is capable of generating an unlimited repertoire of movement...
Movements produced in everyday life pursue a goal. Key to the success of such movements is the motor...
Abstract. In this paper, we propose a model of biological motor control for generation of goal-direc...
This paper focuses on a dynamic sensory-motor control mechanism of reaching movements for a musculo-...
Mammalian motor control is implemented by a combination of different networks and system, working co...
It has been suggested that the human nervous system controls motions in the task (or operational) sp...
In this study, we introduce a hierarchical and modular computational model to explain how the CNS (C...
International audienceHow does the central nervous system select and coordinate different degrees of...
The basic hypothesis of producing a range of behaviors using a small set of motor commands has been ...
Abstract The nervous system activates a pair of agonist and antagonist muscles to determine the musc...
It has been suggested that the human nervous system controls motions in the task (or operational) sp...
UnrestrictedPrecise control of posture is necessary for the success of any motor actions. The strate...
Human motor control is highly efficient in generating accurate and appropriate motor behavior for a ...
While the neuromuscular components involved in moving human joints are well known, there is no unify...