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Communication Dans Un Congrès Année : 2011

Towards multi-state visuo-spatial reasoning based proactive human-robot interaction

Résumé

Robots are expected to cooperate with humans in day-today interaction. One aspect of such cooperation is behaving proactively. In this paper, our robot will exploit the visuo-spatial perspective-taking of the human partner not only from his current state but also from a set of different states he might attain from his current state. Such rich information will help the robot in better predicting 'where' the human can perform a particular task and how the robot could support it. We have tested the system on two different robots for the tasks of giving and making an object accessible to the robot by the human partner. Our robots equipped with such multi-state visuo-spatial perspective-taking capabilities show different proactive behaviors depending upon the task and situation, such as reach out proactively and to a correct place, when human has to give an object to the robot. Primary results of user studies show that such proactive behaviors reduce the human's 'confusion' as well as 'the robot' seems to be more 'aware' about the task and the human.
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Dates et versions

hal-01977501 , version 1 (10-01-2019)

Identifiants

  • HAL Id : hal-01977501 , version 1

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Amit Kumar Pandey, Muhammad Ali, Matthieu Warnier, Rachid Alami. Towards multi-state visuo-spatial reasoning based proactive human-robot interaction. 15th International Conference on Advanced Robotics (ICAR), Dec 2011, Tallinn, Estonia. ⟨hal-01977501⟩
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