While operating in domestic environments, robots will necessarily face difficulties not envisioned by their developers at programming time. Moreover, the tasks to be performed by a robot will often have to be specialized and/or adapted to the needs of specific users and specific environments. Hence, learning how to operate by interacting with the user seems a key enabling feature to support the introduction of robots in everyday environments. In this paper we contribute a novel approach for learning, through the interaction with the user, task descriptions that are defined as a combination of primitive actions. The proposed approach makes a significant step forward by making task descriptions parametric with respect to domain specific semantic categories. Moreover, by mapping the task representation into a task representation language, we are able to express complex execution paradigms and to revise the learned tasks in a high-level fashion. The approach is evaluated in multiple practical applications with a service robot.
Teaching robots parametrized executable plans through spoken interaction / Gemignani, Guglielmo; Bastianelli, Emanuele; Nardi, Daniele. - STAMPA. - (2015), pp. 851-859. (Intervento presentato al convegno 14th International conference on autonomous agents and multiagent systems, AAMAS 2015; Istanbul congress centerIstanbul; Turkey; 4 May 2015 through 8 May 2015 tenutosi a Istanbul, Turkey).
Teaching robots parametrized executable plans through spoken interaction
GEMIGNANI, GUGLIELMO
;BASTIANELLI, EMANUELE
;NARDI, Daniele
2015
Abstract
While operating in domestic environments, robots will necessarily face difficulties not envisioned by their developers at programming time. Moreover, the tasks to be performed by a robot will often have to be specialized and/or adapted to the needs of specific users and specific environments. Hence, learning how to operate by interacting with the user seems a key enabling feature to support the introduction of robots in everyday environments. In this paper we contribute a novel approach for learning, through the interaction with the user, task descriptions that are defined as a combination of primitive actions. The proposed approach makes a significant step forward by making task descriptions parametric with respect to domain specific semantic categories. Moreover, by mapping the task representation into a task representation language, we are able to express complex execution paradigms and to revise the learned tasks in a high-level fashion. The approach is evaluated in multiple practical applications with a service robot.| File | Dimensione | Formato | |
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Note: https://dl.acm.org/citation.cfm?id=2772879.2773262
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