Affective Robotics: Human Motion and Behavioral Inspiration for Safe Cooperation between Humans and Humanoid Assistive Robots

Abstract Limb motion capture is essential in human motion-recognition, motor-function assessment and dexterous human-robot interaction for assistive robots. Due to highly dynamic nature of limb activities, conventional inertial methods of limb motion capture suffer from serious drift and instability problems. Here, a motion capture method with integral-free velocity detection is proposed and a wearable device is developed by incorporating micro tri-axis flow sensors with micro tri-axis inertial sensors. The device allows accurate measurement of three-dimensional motion velocity, acceleration, and attitude angle of human limbs in daily activities, strenuous, and prolonged exercises. Additionally, we verify an intra-limb coordination relationship exists between thigh and shank in human walking and running, and establish a neural network model for it. Using the intra-limb coordination model, dynamic motion capture of human lower limbs including thigh and shank is tactfully implemented by a single shank-worn device, which simplifies the capture device and reduces cost. Experiments in strenuous activities and long-time running validate excellent performance and robustness of the wearable device in dynamic motion recognition and reconstruction of human limbs.

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Detecting humans in the robot workspace

Industrial Robot the international journal of robotics research and application ◽

10.1108/ir-07-2017-0132 ◽

2017 ◽

Vol 44 (6) ◽

pp. 689-694 ◽

Cited By ~ 2

Author(s):

Robert Bogue

Keyword(s):

Motion Tracking ◽

Individual Recognition ◽

Research Effort ◽

Low Cost ◽

Human Motion ◽

Industrial Robots ◽

People Detection ◽

Content Type ◽

Assistive Robots ◽

Detection Technologies

Purpose This paper aims to provide a technical insight into a selection of robotic people detection technologies and applications. Design/methodology/approach Following an introduction, this paper first discusses people-sensing technologies which seek to extend the capabilities of human-robot collaboration by allowing humans to operate alongside conventional, industrial robots. It then provides examples of developments in people detection and tracking in unstructured, dynamic environments. Developments in people sensing and monitoring by assistive robots are then considered and finally, brief concluding comments are drawn. Findings Robotic people detection technologies are the topic of an extensive research effort and are becoming increasingly important, as growing numbers of robots interact directly with humans. These are being deployed in industry, in public places and in the home. The sensing requirements vary according to the application and range from simple person detection and avoidance to human motion tracking, behaviour and safety monitoring, individual recognition and gesture sensing. Sensing technologies include cameras, lasers and ultrasonics, and low cost RGB-D cameras are having a major impact. Originality/value This article provides details of a range of developments involving people sensing in the important and rapidly developing field of human-robot interactions.

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