Biological modeling of complex chemotaxis behaviors for C. elegans under speed regulation - a dynamic neural networks approach.
Jian-Xin XuXin DengPublished in: J. Comput. Neurosci. (2013)
Keyphrases
- neural network
- pattern recognition
- real time
- dynamic behaviors
- highly dynamic
- multi layer
- high level
- molecular biology
- mathematical modeling
- fuzzy cognitive maps
- dynamic behavior
- biological data
- crowd simulation
- changing environment
- complex systems
- artificial neural networks
- real world
- complex data
- neural network model
- self organizing maps
- biological processes
- back propagation
- dynamic environments
- hybrid models
- dynamic aspects
- temporal behavior
- living organisms