Quantifying Learning Creativity through Simulation and Modeling of Swarm Intelligence and Neural Networks

Authors

  • Hassan Mohammed H. Mustafa
  • Turki F. Al-Somani
  • Ayoub Al-Hamadi

DOI:

https://doi.org/10.3991/ijoe.v7i2.1642

Keywords:

Learning creativity phenomenon, Synaptic Plasticity, Artificial Neural Network Modeling, Learning Creativity, Ant Colony Systems, and Computational Biology

Abstract


This research work presents a systematic investigational study of a challenging phenomenon observed in natural world. Mainly, the study is concerned with conceptual interdisciplinary analysis and evaluation of quantified learning creativity phenomenon. In association, it deals with diverse aspects of measurable behavioral learning performance and is observed by two diverse natural biological system models (i.e. human and non-human creatures). Specifically, the studies of two biological models consider the comparison of quantified learning creativity phenomenon. The first model involves the human interactive tutoring/learning processes with environment while the other modal presents the ecological behavioral learning of swarm intelligence agents (i.e. ants) in performing the foraging process. Furthermore, a comparative study is presented which is inspired by naturally realistic models of Artificial Neural Network (ANN) and Swarm Intelligence. The obtained simulation and modeling results shows that the learning performance curves of both models behave with close similarity to each other. Precisely, the analysis and evaluation of learning performance curves of two diverse biological models revealed that both obey exponentially decayed learning curves; following least mean square (LMS) error algorithm.

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Published

2011-05-07

How to Cite

Mustafa, H. M. H., Al-Somani, T. F., & Al-Hamadi, A. (2011). Quantifying Learning Creativity through Simulation and Modeling of Swarm Intelligence and Neural Networks. International Journal of Online and Biomedical Engineering (iJOE), 7(2), pp. 29–35. https://doi.org/10.3991/ijoe.v7i2.1642

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Section

Papers