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P. Dwight Kuo 的论文(9) 排序方式:
Analysis of Preferential Network Motif Generation in an Artificial Regulatory Network Model Created by Duplication and Divergence  
Previous studies on network topology of artificial gene regulatory networks created by whole genome duplication and divergence processes show subgraph distributions simi- lar to gene regulatory networ......
Advances in Complex Systems  2007
2次引用 0 0
Network topology and the evolution of dynamics in an artificial genetic regulatory network model created by whole genome duplication and divergence  
Topological measures of large-scale complex networks are applied to a specific artificial regulatory network model created through a whole genome duplication and divergence mechanism. This class of ......
Biosystems  2006
1次引用 0 0
Evolving Noisy Oscillatory Dynamics in Genetic Regulatory Networks  
We introduce a genetic programming (GP) approach for evolving genetic networks that demonstrate desired dynamics when simulated as a discrete stochastic process. Our representation of genetic networks......
European Conference on Genetic Programming  2006
7次引用 0 0
Integrating behavioral and neural data in a model of zebrafish network interaction  
Biological Cybernetics  2005
0次引用 0 0
Network Motifs in Natural and Artificial Transcriptional Regulatory Networks  
We show that network motifs found in natural regulatory networks may also be found in an artificial regulatory network model created through a duplication / divergence process. It is shown that thes......
Journal of Biological Physics and Chemistry  2004
4次引用 0 0
Evolving Dynamics in an Artificial Regulatory Network Model  
In this paper artificial regulatory networks (ARN) are evolved to match the dynamics of test functions. The ARNs are based on a genome representation generated by a duplication / divergence process.......
Parallel Problem Solving from Nature  2004
11次引用 0 0
Understanding interactions between networks controlling distinct behaviours: Escape and swimming in larval zebrafish  
Spinal neural networks in larval zebrafish generate a variety of movements such as escape, struggling, and swimming. There have been a number of untested proposals regarding possible mechanisms at bot......
Neurocomputing  2004
1次引用 0 0
Small World and Scale-Free Network Topologies in an Artificial Regulatory Network Model  
Small world and scale-free network topologies commonly exist in natural and artificial systems. Many mechanisms for producing these topologies have been presented in the litera- ture. We present an ar......
1次引用 0 0
Genetic Algorithm Optimization of Escape and Normal Swimming Gaits for a Hydrodynamical Model of Carangiform Locomotion  
A hydrodynamic model of a three segment fish is presented. This model is then optimized using a genetic algorithm subject to two separate criteria; escape and normal swimming behaviour. With this opti......
1次引用 0 0

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