The society of mind
A massively parallel architecture for a self-organizing neural pattern recognition machine
Computer Vision, Graphics, and Image Processing
Artificial intelligence (2nd ed.)
Artificial intelligence (2nd ed.)
Neural networks and natural intelligence
Neural networks and natural intelligence
Artificial minds
The conscious mind: in search of a fundamental theory
The conscious mind: in search of a fundamental theory
Conundrum of Combinatorial Complexity
IEEE Transactions on Pattern Analysis and Machine Intelligence
Neural networks and intellect: using model-based concepts
Neural networks and intellect: using model-based concepts
Introduction to Reinforcement Learning
Introduction to Reinforcement Learning
On Intelligence
Cognitive high level information fusion
Information Sciences: an International Journal
2009 Special Issue: Language and cognition
Neural Networks
Neurodynamics of Cognition and Consciousness
Neurodynamics of Cognition and Consciousness
"Vague-to-crisp" neural mechanism of perception
IEEE Transactions on Neural Networks
Evolution of Languages, Consciousness and Cultures
IEEE Computational Intelligence Magazine
Survey of clustering algorithms
IEEE Transactions on Neural Networks
Neural Networks for Improved Tracking
IEEE Transactions on Neural Networks
Language and cognition interaction neural mechanisms
Computational Intelligence and Neuroscience
Journal of Global Information Management
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Processes in the mind: perception, cognition, concepts, instincts, emotions, and higher cognitive abilities for abstract thinking, beautiful music are considered here within a neural modeling fields (NMFs) paradigm. Its fundamental mathematical mechanism is a process "from vague-fuzzy to crisp," called dynamic logic (DL). This paper discusses why this paradigm is necessary mathematically, and relates it to a psychological description of the mind. Surprisingly, the process from "vague to crisp" corresponds to Aristotelian understanding of mental functioning. Recent functional magnetic resonance imaging (fMRI) measurements confirmed this process in neural mechanisms of perception.