Learning Functions in Large Networks requires Modularity and produces Multi-Agent Dynamics
July 09, 2018 ยท Declared Dead ยท ๐ arXiv.org
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Authors
C. H. Huck Yang, Rise Ooi, Tom Hiscock, Victor Eguiluz, Jesper Tegnรฉr
arXiv ID
1807.03001
Category
cs.NE: Neural & Evolutionary
Cross-listed
eess.SY
Citations
2
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Networks are abundant in biological systems. Small sized over-represented network motifs have been discovered, and it has been suggested that these constitute functional building blocks. We ask whether larger dynamical network motifs exist in biological networks, thus contributing to the higher-order organization of a network. To end this, we introduce a gradient descent machine learning (ML) approach and genetic algorithms to learn larger functional motifs in contrast to an (unfeasible) exhaustive search. We use the French Flag (FF) and Switch functional motif as case studies motivated from biology. While our algorithm successfully learns large functional motifs, we identify a threshold size of approximately 20 nodes beyond which learning breaks down. Therefore we investigate the stability of the motifs. We find that the size of the real negative eigenvalues of the Jacobian decreases with increasing system size, thus conferring instability. Finally, without imposing learning an input-output for all the components of the network, we observe that unconstrained middle components of the network still learn the desired function, a form of homogeneous team learning. We conclude that the size limitation of learnability, most likely due to stability constraints, impose a definite requirement for modularity in networked systems while enabling team learning within unconstrained parts of the module. Thus, the observation that community structures and modularity are abundant in biological networks could be accounted for by a computational compositional network structure.
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