Humans skillfully manipulate objects and tools despite the inherent instability. In order to succeed at these tasks, the sensorimotor control system must build an internal representation of both the force and mechanical impedance. As it is not practical to either learn or store motor commands for every possible future action, the sensorimotor control system generalizes a control strategy for a range of movements based on learning performed over a set of movements. Here, we introduce a computational model for this learning and generalization, which specifies how to learn feedforward muscle activity in a function of the state space. Specifically, by incorporating co-activation as a function of error into the feedback command, we are able to d...
This study compared adaptation in novel force fields where trajectories were initially either stable...
The results of recent studies suggest that humans can form internal models that they use in a feedfo...
In order to grasp an object, the human nervous system must transform the intended hand displacement...
Humans skillfully manipulate objects and tools despite the inherent instability. In order to succeed...
Humans skillfully manipulate objects and tools despite the inherent instability. In order to succeed...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
Humans demonstrate the ability to move with little error in a wide range of situations. To do so req...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Humans continuously adapt to new sensorimotor environments, wherein we create motor commands to exec...
Robots are often required to generalize the skills learned from human demonstrations to fulfil new t...
In control, stability captures the reproducibility of motions and the robustness to environmental an...
The human sensorimotor control system generates movement by adapting and controlling the mechanics o...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Recently, we demonstrated that humans can learn to make accurate movements in an unstable environmen...
This study compared adaptation in novel force fields where trajectories were initially either stable...
The results of recent studies suggest that humans can form internal models that they use in a feedfo...
In order to grasp an object, the human nervous system must transform the intended hand displacement...
Humans skillfully manipulate objects and tools despite the inherent instability. In order to succeed...
Humans skillfully manipulate objects and tools despite the inherent instability. In order to succeed...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
Humans demonstrate the ability to move with little error in a wide range of situations. To do so req...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Humans continuously adapt to new sensorimotor environments, wherein we create motor commands to exec...
Robots are often required to generalize the skills learned from human demonstrations to fulfil new t...
In control, stability captures the reproducibility of motions and the robustness to environmental an...
The human sensorimotor control system generates movement by adapting and controlling the mechanics o...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Recently, we demonstrated that humans can learn to make accurate movements in an unstable environmen...
This study compared adaptation in novel force fields where trajectories were initially either stable...
The results of recent studies suggest that humans can form internal models that they use in a feedfo...
In order to grasp an object, the human nervous system must transform the intended hand displacement...