This paper attempts to develop a dynamic model and design a controller for a fully anthropomorphic, compliantly driven robot. To imitate muscles, the robot's joints are actuated by DC motors antagonistically coupled through tendons. To ensure safe interaction with humans in a humancentered environment, the robot exploits passive mechanical compliance, in the form of elastic springs in the tendons. To enable simulation, the paper first derives a mathematical model of robot dynamics, starting from the "Flier" approach. The control of the antagonistic drives is based on a biologically inspired puller-and-follower concept where at any instant the puller is responsible for the joint motion while the follower keeps the inactive tendon from slacke...
Abstract—In the long history of robotics research, the most prominent problem has always been, to de...
Annunziata S, Schneider A. Physiologically based control laws featuring antagonistic muscle co-activ...
With the accelerated development of robot technologies, optimal control becomes one of the central t...
This paper develops a dynamic model and designs a controller for a fully anthropomorphic, compliantl...
Anthropomimetics copying nature in order to construct and control similar mechanism in technical wor...
Abstract – In this paper we propose a control strategy for a robot joint which fully mimics the typi...
In this paper we propose a control strategy for a robot joint which fully mimics the typical human j...
Studies on motion control of robot manipulators with elastic joints are basically aimed at improving...
Abstract: One of the major limitations of object manipulation with a robotic hand is the fragility o...
Robotics has always contemplated the most perfect existing machine, Human being, dreaming to realiz...
This paper investigates the problem of controlling an anthropomorphic robot arm with autonomously va...
Abstract—When human interacts with a robot, it must be guaranteed that in case of system failure no ...
This paper presents a research work on compliant control of an anthropomorphic robot arm used as a '...
Abstract—The soft robotics approach is widely considered to enable human-friendly robots which are a...
This paper describes the modeling and the simulation of a novel Elastic Bipedal Robot based on Human...
Abstract—In the long history of robotics research, the most prominent problem has always been, to de...
Annunziata S, Schneider A. Physiologically based control laws featuring antagonistic muscle co-activ...
With the accelerated development of robot technologies, optimal control becomes one of the central t...
This paper develops a dynamic model and designs a controller for a fully anthropomorphic, compliantl...
Anthropomimetics copying nature in order to construct and control similar mechanism in technical wor...
Abstract – In this paper we propose a control strategy for a robot joint which fully mimics the typi...
In this paper we propose a control strategy for a robot joint which fully mimics the typical human j...
Studies on motion control of robot manipulators with elastic joints are basically aimed at improving...
Abstract: One of the major limitations of object manipulation with a robotic hand is the fragility o...
Robotics has always contemplated the most perfect existing machine, Human being, dreaming to realiz...
This paper investigates the problem of controlling an anthropomorphic robot arm with autonomously va...
Abstract—When human interacts with a robot, it must be guaranteed that in case of system failure no ...
This paper presents a research work on compliant control of an anthropomorphic robot arm used as a '...
Abstract—The soft robotics approach is widely considered to enable human-friendly robots which are a...
This paper describes the modeling and the simulation of a novel Elastic Bipedal Robot based on Human...
Abstract—In the long history of robotics research, the most prominent problem has always been, to de...
Annunziata S, Schneider A. Physiologically based control laws featuring antagonistic muscle co-activ...
With the accelerated development of robot technologies, optimal control becomes one of the central t...