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Brain Function Differences in Language Processing in Children and Adults with Autism
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Investigating the midline effect for visual focus of attention recognition
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In: http://www.idiap.ch/~odobez/publications/SheikhiOdobez-ICMI2012.pdf (2012)
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Cerebral Cortex doi:10.1093/cercor/bhr162 Distinctive Neural Processes during Learning in Autism
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The motion grammar: Linguistic perception, planning, and control
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In: https://smartech.gatech.edu/bitstream/handle/1853/36485/yama.pdf (2011)
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Differentiable cortical networks for inferences concerning people’s intentions versus physical causality
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Identifying bilingual semantic neural representations across languages
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The Grounding of Higher Order Concepts in Action and Language: a Cognitive Robotics Model
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In: http://www.tech.plym.ac.uk/socce/robotdoc/publications/Stramandinoli-et-al_TheGroundingOfHigherOrderConcepts-NN.pdf (2011)
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Integration of Action and Language Knowledge: A Roadmap for Developmental Robotics
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In: http://laral.istc.cnr.it/nolfi/papers/Cangelosi-etal-ITalk-Roadmap.pdf (2010)
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Integration of Action and Language Knowledge: A Roadmap for Developmental Robotics
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In: http://www.bdc.brain.riken.go.jp/%7Etani/papers/IEEETAMD2010.pdf (2010)
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International Journal on Artificial Intelligence Tools c © World Scientific Publishing Company Cooperative Knowledge Based Perceptual Anchoring
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In: http://oru.diva-portal.org/smash/get/diva2:542902/FULLTEXT01/ (2010)
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Abstract:
Abstract: In settings where heterogenous robotic systems interact with humans, in-formation from the environment must be systematically captured, organized and main-tained in time. In this work, we propose a model for connecting perceptual information to semantic information in a multi-agent setting. In particular, we present semantic coop-erative perceptual anchoring, that captures collectively acquired perceptual information and connects it to semantically expressed commonsense knowledge. We describe how we implemented the proposed model in a smart environment, using different modern perceptual and knowledge representation techniques. We present the results of the sys-tem and investigate different scenarios in which we use the commonsense together with perceptual knowledge, for communication, reasoning and exchange of information.
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Keyword:
cognitive robotics
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URL: http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.453.6543 http://oru.diva-portal.org/smash/get/diva2:542902/FULLTEXT01/
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Cognition in Autism: Evidence from an fMRI Study of an Embedded Figures Task
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Thinking with your body: modelling spatial biases in categorization using a real humanoid robot
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In: http://www.tech.plym.ac.uk/SOCCE/staff/TonyBelpaeme/papers/Morse_Thinking_with_your_body_CogSci2010.pdf (2010)
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H.: Laughter in social robotics no laughing matter
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In: http://www.informatik.uni-freiburg.de/%7Eki/papers/becker-asano-ishiguro-sid2009.pdf (2009)
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fMRI investigation of working memory for faces in autism: visual coding and underconnectivity with frontal areas. Cereb Cortex
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