Add to ORKGAbstract — In this paper we describe and practically demon-strate a robotic arm/hand system that is controlled in real-time in 6D Cartesian space through measured human mus-cular activity. The soft-robotics control architecture of the robotic system ensures safe physical human robot interaction as well as stable behaviour while operating in an unstruc-tured environment. Muscular control is realised via surface electromyography, a non-invasive and simple way to gather human muscular activity from the skin. A standard supervised machine learning system is used to create a map from muscle activity to hand position, orientation and grasping force which then can be evaluated in real time—the existence of such a map is guaranteed by gravity compe...
With the continuous improvement of control technology and the continuous improvement of people’s liv...
One of the major problems when dealing with highly dexterous, active hand prostheses is their contro...
This paper presents a system that combines computer vision and surface electromyography techniques t...
As robots come closer to humans, an efficient human-robot-control interface is an utmost necessity. ...
Human Computer Interaction (HCI) is central for many applications, including hazardous environment i...
Human Computer Interaction (HCI) is central for many applications, including hazardous environment i...
This paper proposes a human-assisting manipulator teleoperated by electromyographic (EMG) signals an...
Human-robot control interfaces have received increased attention during the past decades. With the i...
Human-robot control interfaces have received increased attention during the past decades. With the i...
The aim of this paper is to design a human–interface system, using EMG signals elicited by various w...
Developing natural control strategies represents an intriguing challenge in the design of human\u201...
This paper proposes a method of remotely controlling robots with arm gestures using surface electrom...
In previous chapters, human hand and arm kinematics have been analyzed through a synergstic approach...
Off-the-shelf electronic market is large and diverse. It includes credit card size computers (exampl...
This thesis introduces novel thinking and techniques to the control of robotic manipulation. In part...
With the continuous improvement of control technology and the continuous improvement of people’s liv...
One of the major problems when dealing with highly dexterous, active hand prostheses is their contro...
This paper presents a system that combines computer vision and surface electromyography techniques t...
As robots come closer to humans, an efficient human-robot-control interface is an utmost necessity. ...
Human Computer Interaction (HCI) is central for many applications, including hazardous environment i...
Human Computer Interaction (HCI) is central for many applications, including hazardous environment i...
This paper proposes a human-assisting manipulator teleoperated by electromyographic (EMG) signals an...
Human-robot control interfaces have received increased attention during the past decades. With the i...
Human-robot control interfaces have received increased attention during the past decades. With the i...
The aim of this paper is to design a human–interface system, using EMG signals elicited by various w...
Developing natural control strategies represents an intriguing challenge in the design of human\u201...
This paper proposes a method of remotely controlling robots with arm gestures using surface electrom...
In previous chapters, human hand and arm kinematics have been analyzed through a synergstic approach...
Off-the-shelf electronic market is large and diverse. It includes credit card size computers (exampl...
This thesis introduces novel thinking and techniques to the control of robotic manipulation. In part...
With the continuous improvement of control technology and the continuous improvement of people’s liv...
One of the major problems when dealing with highly dexterous, active hand prostheses is their contro...
This paper presents a system that combines computer vision and surface electromyography techniques t...