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Machine Learning and Cognitive Algorithms for Engineering Applications

Author

Listed:
  • Leonid Perlovsky

    (Harvard University, Cambridge, MA, USA)

  • Gary Kuvich

    (IBM, USA)

Abstract

Mind is based on intelligent cognitive processes, which are not limited by language and logic only. The thought is a set of informational processes in the brain, and such processes have the same rationale as any other systematic informational processes. Their specifics are determined by the ways of how brain stores, structures, and process this information. Systematic approach allows representing them in a diagrammatic form that can be formalized. Semiotic approach allows for the universal representation of such diagrams. In that approach, logic is a way of synthesis of such structures, which is a small but clearly visible top of the iceberg. The most efforts were traditionally put into logics without paying much attention to the rest of the mechanisms that make the entire thought system working autonomously. Dynamic fuzzy logic is reviewed and its connections with semiotics are established. Dynamic fuzzy logic extends fuzzy logic in the direction of logic-processes, which include processes of fuzzification and defuzzification as parts of logic. The paper reviews basic cognitive mechanisms, including instinctual drives, emotional and conceptual mechanisms, perception, cognition, language, a model of interaction between language and cognition upon the new semiotic models. The model of interacting cognition and language is organized in an approximate hierarchy of mental representations from sensory percepts at the “bottom” to objects, contexts, situations, abstract concepts-representations, and to the most general representations at the “top” of mental hierarchy. Knowledge Instinct and emotions are driving feedbacks for these representations. Interactions of bottom-up and top-down processes in such hierarchical semiotic representation are essential for modeling cognition. Dynamic fuzzy logic is analyzed as a fundamental mechanism of these processes. Future research directions are discussed.

Suggested Citation

  • Leonid Perlovsky & Gary Kuvich, 2013. "Machine Learning and Cognitive Algorithms for Engineering Applications," International Journal of Cognitive Informatics and Natural Intelligence (IJCINI), IGI Global, vol. 7(4), pages 64-82, October.
  • Handle: RePEc:igg:jcini0:v:7:y:2013:i:4:p:64-82
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