Toward Rigorous Parameterization of Underconstrained Neural Network Models Through Interactive Visualization and Steering of Connectivity Generation

Toward Rigorous Parameterization of Underconstrained Neural Network Models Through Interactive Visualization and Steering of Connectivity Generation

Simulation models in many scientific fields can have non-unique solutions or unique solutions which can be difficult to find. Moreover, in evolving systems, unique final state solutions can be reached by multiple different trajectories. Neuroscience is no exception. Often, neural network models are...

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Bibliographic Details
Published in:Frontiers in neuroinformatics Vol. 12; p. 32
Main Authors: Nowke, Christian, Diaz-Pier, Sandra, Weyers, Benjamin, Hentschel, Bernd, Morrison, Abigail, Kuhlen, Torsten W, Peyser, Alexander
Format: Journal Article
Language:English
Published: Switzerland Frontiers Research Foundation 01-06-2018
Frontiers Media S.A
Subjects:
Brain
Control theory
high performance computing
interactive systems
Nervous system
Neural networks
Neuroscience
Neurosciences
Optimization
Researchers
Simulation
simulation and modeling
Space exploration
structural plasticity
Visualization
visualization software
Germany
interactive systems
simulation and modeling
structural plasticity
high performance computing
visualization software
neural networks
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Summary:Simulation models in many scientific fields can have non-unique solutions or unique solutions which can be difficult to find. Moreover, in evolving systems, unique final state solutions can be reached by multiple different trajectories. Neuroscience is no exception. Often, neural network models are subject to parameter fitting to obtain desirable output comparable to experimental data. Parameter fitting without sufficient constraints and a systematic exploration of the possible solution space can lead to conclusions valid only around local minima or around non-minima. To address this issue, we have developed an interactive tool for visualizing and steering parameters in neural network simulation models. In this work, we focus particularly on connectivity generation, since finding suitable connectivity configurations for neural network models constitutes a complex parameter search scenario. The development of the tool has been guided by several use cases-the tool allows researchers to steer the parameters of the connectivity generation during the simulation, thus quickly growing networks composed of multiple populations with a targeted mean activity. The flexibility of the software allows scientists to explore other connectivity and neuron variables apart from the ones presented as use cases. With this tool, we enable an interactive exploration of parameter spaces and a better understanding of neural network models and grapple with the crucial problem of non-unique network solutions and trajectories. In addition, we observe a reduction in turn around times for the assessment of these models, due to interactive visualization while the simulation is computed.
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These authors have contributed equally to this work.
Reviewed by: Salvador Dura-Bernal, SUNY Downstate Medical Center, United States; Jeffrey L. Krichmar, University of California, Irvine, United States; Marianne J. Bezaire, Boston University, United States
Edited by: Robert Andrew McDougal, Yale University, United States
ISSN:1662-5196
1662-5196
DOI:10.3389/fninf.2018.00032