Co-ordination of multiple manipulators requires cooperation at several levels in the control hierarchy. A distributed processing environment with no hardware dependencies except at the motor servo level, would provide a flexible architecture for coordination. A system on these lines is being built to control an articulated hand and an arm. The four levels of control envisaged include a task decomposition level, a planning level, a scheduling level and a server level. The hand will carry both force and tactile sensors, feedback from these are used to provide adaptive control in grasping tasks. The processing of the sensory information is performed by independent processes, with analyzed information being sent to the relevant layer of the sys...
Teleoperated control requires a master human interface device that can provide haptic input and outp...
International audienceThis paper studies the kinematic modeling and control of two cooperative manip...
The continuum of controlling an assistive robotic manipulator (ARM) ranges from manual control to fu...
Co-ordination of multiple manipulators requires cooperation at several levels in the control hierarc...
Co-ordination of multiple manipulators requires cooperation at several levels in the control hierarc...
In this paper we present the description and experiments with a tightly coupled Hand-Eye-Arm manipul...
This is the fourth annual report representing our last year\u27s work under the current grant. This ...
This is the final report representing three years of work under the current grant. This work was dir...
A system for programming and controlling a multisensor robotic hand (Utah-MIT Hand) is described. Us...
A Hand-Eye-Arm Coordinated System In this paper we present the description and experiments with a ti...
The authors describe an integrated system for dextrous manipulation using a Utah-MIT hand that makes...
This paper describes an integrated system for dextrous manipulation using a Utah-MIT hand that allow...
The scientific goal of HANDS.DVI consists of developing a common framework to programming robotic h...
The scientific goal of HANDS.DVI consists of developing a common framework to programming robotic ha...
This report discusses the construction of adaptive control structures for teams of semi-autonomous r...
Teleoperated control requires a master human interface device that can provide haptic input and outp...
International audienceThis paper studies the kinematic modeling and control of two cooperative manip...
The continuum of controlling an assistive robotic manipulator (ARM) ranges from manual control to fu...
Co-ordination of multiple manipulators requires cooperation at several levels in the control hierarc...
Co-ordination of multiple manipulators requires cooperation at several levels in the control hierarc...
In this paper we present the description and experiments with a tightly coupled Hand-Eye-Arm manipul...
This is the fourth annual report representing our last year\u27s work under the current grant. This ...
This is the final report representing three years of work under the current grant. This work was dir...
A system for programming and controlling a multisensor robotic hand (Utah-MIT Hand) is described. Us...
A Hand-Eye-Arm Coordinated System In this paper we present the description and experiments with a ti...
The authors describe an integrated system for dextrous manipulation using a Utah-MIT hand that makes...
This paper describes an integrated system for dextrous manipulation using a Utah-MIT hand that allow...
The scientific goal of HANDS.DVI consists of developing a common framework to programming robotic h...
The scientific goal of HANDS.DVI consists of developing a common framework to programming robotic ha...
This report discusses the construction of adaptive control structures for teams of semi-autonomous r...
Teleoperated control requires a master human interface device that can provide haptic input and outp...
International audienceThis paper studies the kinematic modeling and control of two cooperative manip...
The continuum of controlling an assistive robotic manipulator (ARM) ranges from manual control to fu...