— Human-robot interaction (HRI) technology is growing rapidly, with many products being designed to operate outside the industry, such as in the home. However, controlling robots in a domestic setting is challenging due to high variations in such environments. Also, human behaviour varies, and the same individual might behave differently in similar situations. In this paper, the design of a wearable data acquisition system, comprised of wearable sensors and a control box that communicates wirelessly with sensors on the robot to improve safe human-robot collaboration on tasks, is revised. The literature review identifies factors that affect the robotic system’s wearability and leads to the production of a Product Design Specification (PDS), ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
With the developments of collaborative robots in manufacturing, physical interactions between humans...
Human-robot interaction represents the cornerstone for the full development of Industry 4.0 and 5.0...
The human-robot collaboration (HRC) is more and more requested in several occupational fields, e.g.,...
Thanks to recent technological improvements that enable novel applications beyond the industrial con...
Human-Robot Interaction is a novel field of research dedicated to understanding, designing, and eval...
Adhering to current HRI paradigms, all of the sensors, visualisation and legibility of actions and m...
In the near future, robots are expected to be more acceptable and commonly used by human beings. The...
Nowadays, in order to cover the needs of market for product mass customization, industries have star...
Multimodal, wearable technologies have the potential to enable a completely immersive teleoperation ...
Current wearable robots mostly focus on applications in military, rehabilitation and load lifting in...
This thesis focuses on wearable devices that are currently actual topic. It presents their history, ...
In the near future, robots are expected to be more acceptable and commonly used by human beings. The...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
With the developments of collaborative robots in manufacturing, physical interactions between humans...
Human-robot interaction represents the cornerstone for the full development of Industry 4.0 and 5.0...
The human-robot collaboration (HRC) is more and more requested in several occupational fields, e.g.,...
Thanks to recent technological improvements that enable novel applications beyond the industrial con...
Human-Robot Interaction is a novel field of research dedicated to understanding, designing, and eval...
Adhering to current HRI paradigms, all of the sensors, visualisation and legibility of actions and m...
In the near future, robots are expected to be more acceptable and commonly used by human beings. The...
Nowadays, in order to cover the needs of market for product mass customization, industries have star...
Multimodal, wearable technologies have the potential to enable a completely immersive teleoperation ...
Current wearable robots mostly focus on applications in military, rehabilitation and load lifting in...
This thesis focuses on wearable devices that are currently actual topic. It presents their history, ...
In the near future, robots are expected to be more acceptable and commonly used by human beings. The...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...