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IAT
2010
IEEE

A Biologically-Inspired Cognitive Agent Model Integrating Declarative Knowledge and Reinforcement Learning

13 years 9 months ago
A Biologically-Inspired Cognitive Agent Model Integrating Declarative Knowledge and Reinforcement Learning
Abstract--The paper proposes a biologically-inspired cognitive agent model, known as FALCON-X, based on an integration of the Adaptive Control of Thought (ACT-R) architecture and a class of self-organizing neural networks called fusion Adaptive Resonance Theory (fusion ART). By replacing the production system of ACT-R by a fusion ART model, FALCONX integrates high-level deliberative cognitive behaviors and real-time learning abilities, based on biologically plausible neural pathways. We illustrate how FALCON-X, consisting of a core inference area interacting with the associated intentional, declarative, perceptual, motor and critic memory modules, can be used to build virtual robots for battles in a simulated RoboCode domain. The performance of FALCON-X demonstrates the efficacy of the hybrid approach. Keywords-Cognitive Agents; Knowledge Representation; Reinforcement Learning
Ah-Hwee Tan, Gee Wah Ng
Added 11 Feb 2011
Updated 11 Feb 2011
Type Journal
Year 2010
Where IAT
Authors Ah-Hwee Tan, Gee Wah Ng
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