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A framework for simulating and estimating the state and functional topology of complex dynamic geometric networks

Marius Buibas, Gabriel A. Silva
Department of Bioengineering, University of California, San Diego
arXiv:0908.3934 [cond-mat.dis-nn] (22 Jun 2010)

@article{buibas2009framework,

   title={A framework for simulating and estimating the state and functional topology of complex dynamic geometric networks},

   author={Buibas, M. and Silva, G.A.},

   journal={Arxiv preprint arXiv:0908.3934},

   year={2009}

}

We present a framework for simulating signal propagation in geometric networks (i.e. networks that can be mapped to geometric graphs in some space) and for developing algorithms that estimate (i.e. map) the state and functional topology of complex dynamic geometric net- works. Within the framework we define the key features typically present in such networks and of particular relevance to biological cellular neural networks: Dynamics, signaling, observation, and control. The framework is particularly well-suited for estimating functional connectivity in cellular neural networks from experimentally observable data, and has been implemented using graphics processing unit (GPU) high performance computing. Computationally, the framework can simulate cellular network signaling close to or faster than real time. We further propose a standard test set of networks to measure performance and compare different mapping algorithms.
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