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Technical Goals for the BICA Community

Technical Goals for the BICA Community. Mark R. Waser mailto:MWaser@BooksIntl.com http://BecomingGaia.wordpress.com. Goal - 2008. Specific topics include cognitive architectures inspired by the brain, constraints borrowed from biology,

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Technical Goals for the BICA Community

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  1. Technical Goals for the BICA Community Mark R. Waser mailto:MWaser@BooksIntl.com http://BecomingGaia.wordpress.com

  2. Goal - 2008 • Specific topics include • cognitive architectures inspired by the brain, • constraints borrowed from biology, • human-like learning and self-sustained cognitive growth, • self-regulated learning assistance, • natural language acquisition, • emotional and social intelligence, • metrics and • a roadmap to solving the challenge. creating a computational equivalent of the natural mind in its higher cognitive abilities

  3. Goal - 2009 • Specific topics include • Bridging the gap between AI and biology: robustness, flexibility, integrity • BICA models of learning: bootstrapped, self-regulated (SRL), meta-learning • Scalability, limitations and ‘critical mass’ of human-like learning • Biological constraints vital for learning • Physical support of conscious experience • Formal theory of cognitive architectures • Emotional feelings and values in artifacts • Measuring minds of machines and humans creating a real-life computational equivalent of the human mind

  4. Subgoals – 2008 & 2009 Part I. cognitive architectures inspired by the brain Formal theory of cognitive architectures constraints borrowed from biology Biological constraints vital for learning human-like learning and self-sustained cognitive growth self-regulated learning assistance BICA models of learning: bootstrapped, self-regulated (SRL), meta-learning natural language acquisition (NONE)

  5. Subgoals – 2008 & 2009 Part II. emotional and social intelligence Physical support of conscious experience Emotional feelings and values in artifacts metrics Measuring minds of machines and humans a roadmap to solving the challenge Bridging the gap between AI & biology: robustness, flexibility, integrity Scalability, limitations and ‘critical mass’ of human-like learning

  6. Goal - 2010 • four schools of thought: • computational neuroscience, that tries to understand how the brain works in terms of connectionist models; • cognitive modeling, pursuing higher-level computational description of human cognition; • human-level artificial intelligence, aiming at generally intelligent artifacts that can replace humans at work; and • human-like learners: artificial minds that can be understood by humans intuitively, that can learn like humans, from humans and for human needs. creating a real-life computational equivalent of the human mind

  7. Subgoals – 2008-2010 Part I. computational neuroscience (connectionist modeling) cognitive architectures (low-level) biological constraints (low-level) ??? cognitive modeling cognitive architectures (high-level) biological constraints (high-level) human-level artificial intelligence (that can replace humans at work) human-like learners/human-like artificial minds human-like learning natural language acquisition emotional and social intelligence

  8. Subgoals – 2008-2010 Part II. 2008 - creating a computational equivalent of the natural mind in its higher cognitive abilities (human-level AGI) 2009-2010 - creating a real-life computational equivalent of the human mind metrics a roadmap to solving the challenge (human-like AGI+) safety!

  9. Toward a Comparative Repository of Cognitive Architectures, Models, Tasks and Data Introduction (discussion panel agenda - by Christian Lebiere) First Step: Comparative Table of Cognitive Architectures Current comparative table: HTML | XLS | PDF • Old comparative table - from Pew & Mavor, 1998 • Complementary Frameworks for Comparison (4) • Related Sites (3)

  10. – OR –What Do We Want To Be? What Is Our Goal? A united working community dedicated to a specific common goal (2008 or 2010?) A social networking community dedicated to sharing/collecting information and recruiting

  11. Thursday, November 5, 4:00 pm – 5:45 pm, Westin Arlington Gateway Hotel 1AAAI 2009 Fall Symposium SeriesArlington, Virginia – November 5‐7, 2009Panel Discussion:Comparative Repository of Architectures, Models, Tasks and DataChair: Christian Lebiere

  12. Objective To identify the necessary means to achieve greater rates of convergence and incremental progress in cognitive modeling through the use of a shared repository of computational cognitive architectures, models, tasks and data.

  13. Why do we need a repository? 1. To facilitate direct comparison of different architectures. 2. To provide a centralized resource, that modelers, students, and teachers can access when they want to start a modeling research project. 3. To have an immediate and organized way to access an overview of relevant information. 4. To enable the reuse of models. 5. To encourage the development of modeling tools and standards. How are we going to spread it?

  14. How are we going to make it work? Uploading tasks and code as currently existing is not enough. The following issues should be considered. 1. A standard API between cognitive architectures and task simulation environments is needed to assure portability across tasks and models. 2. Models need to be updated and kept current. 3. Infrastructure funding should be provided by some source, 4. Before proceeding with the implementation, some informal polls or surveys should be taken to study the modelers’ habits and needs

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