2018
DOI: 10.3389/fnbot.2018.00030
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Know Your Body Through Intrinsic Goals

Abstract: The first “object” that newborn children play with is their own body. This activity allows them to autonomously form a sensorimotor map of their own body and a repertoire of actions supporting future cognitive and motor development. Here we propose the theoretical hypothesis, operationalized as a computational model, that this acquisition of body knowledge is not guided by random motor-babbling, but rather by autonomously generated goals formed on the basis of intrinsic motivations. Motor exploration leads the… Show more

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Cited by 25 publications
(30 citation statements)
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“…For lack of space, here we describe the model at a high level which is however enough to indicate a possible way in which the hypothesis incorporated in the blueprint architecture can be implemented into a specific model. Further details on the system can be found in the companion paper [28].…”
Section: Computational Modelmentioning
confidence: 99%
See 1 more Smart Citation
“…For lack of space, here we describe the model at a high level which is however enough to indicate a possible way in which the hypothesis incorporated in the blueprint architecture can be implemented into a specific model. Further details on the system can be found in the companion paper [28].…”
Section: Computational Modelmentioning
confidence: 99%
“…II). A second contribution is an illustration of how the blueprint architecture can guide the construction of specific computational models: this is done by overviewing a model illustrated in detail in a companion paper [28] (Sec. III).…”
Section: Introductionmentioning
confidence: 99%
“…Interesting advances have been made also in the context of goal generation. For instance, Mannella et al (2018) show how an artificial system can autonomously generate goals to be used in an intrinsic motivation system to explore and to gather knowledge about its own body. In Schillaci et al (2020), the authors present an architecture for curiosity-driven goal-directed exploration behaviors on a camera-equipped robot arm.…”
Section: Self-exploration Behaviors and Artificial Curiositymentioning
confidence: 99%
“…The way peripersonal motor maps can help robot learning has been studied in Jamone et al (2014). Mannella et al (2018) presented a specific hypothesis on the learning of sensorimotor contingencies in relation to the gradual acquisition of the knowledge of the agent's own body driven by intrinsic motivations. In particular, a simulated robotic model of a torso with two arms is free to move around with its effectors.…”
Section: Approaches In Roboticsmentioning
confidence: 99%
“…The value of the architecture is that it proposes a possible way to integrate such processes, thus offering a coherent view of how they could work together. The architecture can also inform the construction of specific computational models, as was done in Mannella et al (2018). The architecture is based on the hypothesis that contingency-based learning encompasses general mechanisms able to support the self-generation of goals, the encoding of the perceptual consequences of actions, and the learning of actions of any level of complexity, e.g., from moving a single finger to performing grasping with the whole hand.…”
Section: Blueprint Architecture: a Theoretical Integration Of The Elementioning
confidence: 99%