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Another open problem is the understanding of the relation between the key phenomena investigated by developmental robotics (e.g., hierarchical and modular sensorimotor systems, intrinsic/extrinsic/social motivations, and open-ended learning) and the underlying brain mechanisms.
Similarly, in biology, developmental mechanisms (operating at the ontogenetic time scale) strongly interact with evolutionary mechanisms (operating at the phylogenetic time scale) as shown in the flourishing "[[evo-
| last1 = Müller | first1 = G. B. | date = 2007 | url = http://www.nature.com/nrg/journal/v8/n12/full/nrg2219.html | title = Evo-devo: extending the evolutionary synthesis | journal = Nature Reviews Genetics | volume = 8 | pages = 943–949 | doi=10.1038/nrg2219}}</ref>
However, the interaction of those mechanisms in artificial organisms, developmental robots in particular, is still vastly understudied. The interaction of evolutionary mechanisms, unfolding morphologies and developing sensorimotor and social skills will thus be a highly stimulating topic for the future of developmental robotics.
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* Developmental Robotics: http://cs.brynmawr.edu/DevRob05/
The NSF/DARPA funded [http://www.cse.msu.edu/dl/ Workshop on Development and Learning] was held April 5–7, 2000 at Michigan State University. It was the first international meeting devoted to computational understanding of mental development by robots and animals. The term "by" was used since the agents are active during development.
== References ==▼
{{reflist}}▼
==External links==
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* Developing Intelligence: http://develintel.blogspot.com
* Developmental Robotics: http://developmentalrobotics.org : general information about developmental robotics
▲== References ==
▲{{reflist}}
{{Robotics}}
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