DAC-h3: a proactive robot cognitive architecture to acquire and express knowledge about the world and the self
DAC-h3: a proactive robot cognitive architecture to acquire and express knowledge about the world and the self
Citació
- Moulin-Frier C, Fischer T, Petit M, Pointeau G, Puigbo JY, Pattacini U, Ching Low S, Camilleri D, Nguyen P, Hoffman M, Jin Chang H, Zambelli M, Mealier AL, Damianou A, Metta G, Prescott TJ, Demiris Y, Ford Dominey P, Verschure PFMJ. DAC-h3: a proactive robot cognitive architecture to acquire and express knowledge about the world and the self. IEEE Trans Cogn Dev Syst. 2018;10(4):1005-22. DOI: 10.1109/TCDS.2017.2754143
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Resum
This paper introduces a cognitive architecture for a humanoid robot to engage in a proactive, mixed-initiative exploration and manipulation of its environment, where the initiative can originate from both human and robot. The framework, based on a biologically grounded theory of the brain and mind, integrates a reactive interaction engine, a number of state-of-the-art perceptual and motor learning algorithms, as well as planning abilities and an autobiographical memory. The architecture as a whole drives the robot behavior to solve the symbol grounding problem, acquire language capabilities, execute goal-oriented behavior, and express a verbal narrative of its own experience in the world. We validate our approach in human-robot interaction experiments with the iCub humanoid robot, showing that the proposed cognitive architecture can be applied in real time within a realistic scenario and that it can be used with naive users.