This letter introduces a sensory augmentation technique enabling a contact robot to understand its human user's control in real-time and integrate their reference trajectory information into its own sensory feedback to improve the tracking performance. The human's control is formulated as a feedback controller with unknown control gains and desired trajectory. An unscented Kalman filter is used to estimate first the control gains and then the desired trajectory. The estimated human's desired trajectory is used as augmented sensory information about the system and combined with the robot's measurement to estimate a reference trajectory. Simulations and an implementation on a robotic interface demonstrate that the reactive control can robustl...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
In this paper, the application of Augmented Reality (AR) for the control and adjustment of robots ha...
In this thesis, my main contributions to the field of Robotics and Haptics are presented. Results and...
This paper introduces a sensory augmentation technique enabling a contact robot to understand its hu...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
In this paper, we present a novel cooperative navigation control for human–robot teams. Assuming tha...
In industrial scenarios, requiring human–robot collaboration, the understanding between the human op...
Recent studies on the physical interaction between humans have revealed their ability to read the pa...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
Human interactive robots continue to improve human quality of life with their diverse applications. ...
The methods required to make humans and robots interact and collaborate are the subject of research ...
Interaction control presents opportunities for contact robots physically interacting with their huma...
Human-aware robot navigation is very important in many applications in human-robot shared environmen...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
In a collaborative scenario, the communication between humans and robots is a fundamental aspect to ...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
In this paper, the application of Augmented Reality (AR) for the control and adjustment of robots ha...
In this thesis, my main contributions to the field of Robotics and Haptics are presented. Results and...
This paper introduces a sensory augmentation technique enabling a contact robot to understand its hu...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
In this paper, we present a novel cooperative navigation control for human–robot teams. Assuming tha...
In industrial scenarios, requiring human–robot collaboration, the understanding between the human op...
Recent studies on the physical interaction between humans have revealed their ability to read the pa...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
Human interactive robots continue to improve human quality of life with their diverse applications. ...
The methods required to make humans and robots interact and collaborate are the subject of research ...
Interaction control presents opportunities for contact robots physically interacting with their huma...
Human-aware robot navigation is very important in many applications in human-robot shared environmen...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
In a collaborative scenario, the communication between humans and robots is a fundamental aspect to ...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
In this paper, the application of Augmented Reality (AR) for the control and adjustment of robots ha...
In this thesis, my main contributions to the field of Robotics and Haptics are presented. Results and...