Scope

- Robots are being steadily introduced into modern everyday life and are expected to play a key role in the near future. Typically, the robots are deployed in situations where it is too dangerous, expensive, tedious, and complex for humans to operate. Although many of the real-life applications may only need a single robot, a large number of them require the cooperation, coordination and communication of a team of robots to accomplish a certain task. The use of multiple robots of overlapping capabilities offers a cost-effective and more robust solution. This redundancy in the robots' capabilities makes the overall system more flexible and fault-tolerant.

- This workshop will focus on the emerging field of robot interaction, communication and cooperation bringing together research and application of methodology from robotics, human factors, human-computer interaction, interaction design, cognitive psychology, education and other fields to enable robots to have more natural and more rewarding interactions, communication and cooperation with humans throughout their spheres of functioning.

- The design of an efficient collaborative multi-robot framework that ensures the autonomy and the individual requirements of the involved robots is a very challenging task. Developing operational multi-robot teams involves research on a number of topics such as fault tolerant cooperative control, adaptive action selection, distributed control, robot awareness of team member actions, improving efficiency through learning, inter-robot communication, action recognition, local versus global control, and metrics for measuring the success.

- The aim of this workshop is to present the innovative researches, technologies and new concepts, services and application software of robotic systems.

- The workshop seeks original contributions in all relevant areas, including but not limited to the following topics.

Topics of Interest

  • Robot Interaction, Robot Control, Robot Communication, Humanoid Robots, Robot Collaboration
  • Intelligent Robotics, Welfare Robots, Rescue Robots, Robot Learning, Robot Design and Implementation
  • Robot Protocols, Robot Visualization, Social Behavioral Robot, Human Robot Interaction
  • Social Robotics, Multi-Modal Human-Robot Communication, Human-Robot Interaction Architectures
  • Sensors and Perception for HRI, Educational Robotics, Quality of Life Technologies


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