Difference between revisions of "Cognitive Robotics Resources"
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| + | ==== CAST: The CoSy Architecture Schema Toolkit ==== | ||
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| + | This a software toolkit to support the developments of intelligent systems based on a space of possible architecture designs described by the CoSy Architecture Schema (CAS). The CoSy Architecture Schema Toolkit (CAST) is a software implementation of this schema designed to allow researchers (primarily in the fields of AI and robotics) to develop instantiations of the schema. The toolkit supports C++ and Java, and provides a communication framework for distributing an instantiation across a network. Its primary scientific purpose is to maintain a separation between a system's architecture and the content of its architecture, allowing one to be varied independently of the other; [http://www.cs.bham.ac.uk/research/projects/cosy/cast/ more details]. | ||
== Education == | == Education == | ||
Revision as of 12:41, 30 November 2014
The resources here are intended to support the IEEE Robotics and Automation Technical Committee for Cognitive Robotics. Many were developed as part of euCognition, an EU-funded network for the advancement of artificial cognitive systems.
General Information
Overview Articles
Topic Briefings
White Papers
Industrial and Application Issues
Outreach Initiatives
Research Material
Bibliography
Software Resources
CAST: The CoSy Architecture Schema Toolkit
This a software toolkit to support the developments of intelligent systems based on a space of possible architecture designs described by the CoSy Architecture Schema (CAS). The CoSy Architecture Schema Toolkit (CAST) is a software implementation of this schema designed to allow researchers (primarily in the fields of AI and robotics) to develop instantiations of the schema. The toolkit supports C++ and Java, and provides a communication framework for distributing an instantiation across a network. Its primary scientific purpose is to maintain a separation between a system's architecture and the content of its architecture, allowing one to be varied independently of the other; more details.
Education
Tutorials
Neuronal Dynamics Approaches to Cognitive Robotics
Control engineering of autonomous cognitive vehicles - a practical tutorial
