Gaze-based intention detection has been explored for robotic-assisted neuro-rehabilitation in recent years. As eye movements often precede hand movements, robotic devices can use gaze information to augment the detection of movement intention in upper-limb rehabilitation. However, due to the likely practical drawbacks of using head-mounted eye trackers and the limited generalisability of the algorithms, gaze-informed approaches have not yet been used in clinical practice.This paper introduces a preliminary model for a gazeinformed movement intention that separates the intention spatial component obtained from the gaze from the time component obtained from movement. We leverage the latter to isolate the relevant gaze information happening ju...
AbstractAssistive robotics may extend capabilities for individuals with reduced mobility or dexterit...
Robotic treatment has been recognized as a powerful tool to face the consequences of neurological im...
One way of potentially improving the use of robots in a collaborative environment is through predict...
Effective human-aware robots should anticipate their user’s intentions. During hand-eye coordination...
With the fast-paced proliferation of robots in our daily lives, it is especially important that the ...
Several design strategies for rehabilitation robotics have aimed to improve patients' experiences us...
Robots capable of robust, real-time recognition of human intent during manipulationtasks could be us...
Enabling robots with the ability to quickly and accurately determine the intention of their human co...
Robots in human co-habited environments need human-aware task and motion planning, ideally respondin...
This paper presents a motion intention estimation algorithm that is based on the recordings of joint...
The functional independence of individuals with upper limb impairment could be enhanced by teleopera...
Rehabilitation robots physically support patients during exercise, but their assistive strategies of...
Introduction : This paper presents a detection method for upper limb movement intention as part of a...
Detecting human motion and predicting human intentions by analyzing body signals are challenging but...
Predicting the intentions of humans is very useful for human robot collaboration, since it can enabl...
AbstractAssistive robotics may extend capabilities for individuals with reduced mobility or dexterit...
Robotic treatment has been recognized as a powerful tool to face the consequences of neurological im...
One way of potentially improving the use of robots in a collaborative environment is through predict...
Effective human-aware robots should anticipate their user’s intentions. During hand-eye coordination...
With the fast-paced proliferation of robots in our daily lives, it is especially important that the ...
Several design strategies for rehabilitation robotics have aimed to improve patients' experiences us...
Robots capable of robust, real-time recognition of human intent during manipulationtasks could be us...
Enabling robots with the ability to quickly and accurately determine the intention of their human co...
Robots in human co-habited environments need human-aware task and motion planning, ideally respondin...
This paper presents a motion intention estimation algorithm that is based on the recordings of joint...
The functional independence of individuals with upper limb impairment could be enhanced by teleopera...
Rehabilitation robots physically support patients during exercise, but their assistive strategies of...
Introduction : This paper presents a detection method for upper limb movement intention as part of a...
Detecting human motion and predicting human intentions by analyzing body signals are challenging but...
Predicting the intentions of humans is very useful for human robot collaboration, since it can enabl...
AbstractAssistive robotics may extend capabilities for individuals with reduced mobility or dexterit...
Robotic treatment has been recognized as a powerful tool to face the consequences of neurological im...
One way of potentially improving the use of robots in a collaborative environment is through predict...