VisNEST — Interactive analysis of neural activity data

The aim of computational neuroscience is to gain insight into the dynamics and functionality of the nervous system by means of modeling and simulation. Current research leverages the power of High Performance Computing facilities to enable multi-scale simulations capturing both low-level neural activity and large-scalce interactions between brain regions. In this paper, we describe an interactive analysis tool that enables neuroscientists to explore data from such simulations. One of the driving challenges behind this work is the integration of macroscopic data at the level of brain regions with microscopic simulation results, such as the activity of individual neurons. While researchers validate their findings mainly by visualizing these data in a non-interactive fashion, state-of-the-art visualizations, tailored to the scientific question yet sufficiently general to accommodate different types of models, enable such analyses to be performed more efficiently. This work describes several visualization designs, conceived in close collaboration with domain experts, for the analysis of network models. We primarily focus on the exploration of neural activity data, inspecting connectivity of brain regions and populations, and visualizing activity flux across regions. We demonstrate the effectiveness of our approach in a case study conducted with domain experts.

[1]  Oliver Schmitt,et al.  neuroVIISAS: Approaching Multiscale Simulation of the Rat Connectome , 2012, Neuroinformatics.

[2]  Victor A. F. Lamme,et al.  Feedforward, horizontal, and feedback processing in the visual cortex , 1998, Current Opinion in Neurobiology.

[3]  Tobias C. Potjans,et al.  The Cell-Type Specific Cortical Microcircuit: Relating Structure and Activity in a Full-Scale Spiking Network Model , 2012, Cerebral cortex.

[4]  Felix Schürmann,et al.  Towards real-time visualization of detailed neural tissue models: View frustum culling for parallel rendering , 2012, 2012 IEEE Symposium on Biological Data Visualization (BioVis).

[5]  Torsten Kuhlen,et al.  The ViSTA virtual reality toolkit , 2008 .

[6]  Markus Diesmann,et al.  P075 A virtual reality exploration tool for multi-scale data from brain-scale simulations , 2011 .

[7]  Henry Markram,et al.  A Neuron Membrane Mesh Representation for Visualization of Electrophysiological Simulations , 2012, IEEE Transactions on Visualization and Computer Graphics.

[8]  Marc-Oliver Gewaltig,et al.  NEST (NEural Simulation Tool) , 2007, Scholarpedia.

[9]  Nikola T. Markov,et al.  A Weighted and Directed Interareal Connectivity Matrix for Macaque Cerebral Cortex , 2012, Cerebral cortex.

[10]  P. Cochat,et al.  Et al , 2008, Archives de pediatrie : organe officiel de la Societe francaise de pediatrie.

[11]  Hans Ekkehard Plesser,et al.  Visualizing Neuronal Network Connectivity with Connectivity Pattern Tables , 2009, Front. Neuroinform..

[12]  Torsten Kuhlen,et al.  Automated Positioning of Annotations in Immersive Virtual Environments , 2010, EGVE/EuroVR/VEC.

[13]  Hans Hagen,et al.  IRIS: Illustrative Rendering for Integral Surfaces , 2010, IEEE Transactions on Visualization and Computer Graphics.

[14]  Tobias Isenberg,et al.  Weighted graph comparison techniques for brain connectivity analysis , 2013, CHI.

[15]  Loren C. Carpenter,et al.  The A -buffer, an antialiased hidden surface method , 1984, SIGGRAPH.

[16]  Kikuro Fukushima,et al.  Relating Neuronal Firing Patterns to Functional Differentiation of Cerebral Cortex , 2009, PLoS Comput. Biol..

[17]  Jeffrey Heer,et al.  Divided Edge Bundling for Directional Network Data , 2011, IEEE Transactions on Visualization and Computer Graphics.

[18]  Torsten Kuhlen,et al.  Extended Pie Menus for Immersive Virtual Environments , 2013, IEEE Transactions on Visualization and Computer Graphics.

[19]  Doug A. Bowman,et al.  Validation of the MR Simulation Approach for Evaluating the Effects of Immersion on Visual Analysis of Volume Data , 2012, IEEE Transactions on Visualization and Computer Graphics.

[20]  P ? ? ? ? ? ? ? % ? ? ? ? , 1991 .

[21]  Christian H. Bischof,et al.  Interactive Blood Damage Analysis for Ventricular Assist Devices , 2008, IEEE Transactions on Visualization and Computer Graphics.

[22]  Kötter Rolf,et al.  Scalable Brain Atlas: From Stereotaxic Coordinate to Delineated Brain Region , 2010 .

[23]  Andrzej J. Kasinski,et al.  'SNN3DViewer' - 3D Visualization Tool for Spiking Neural Network Analysis , 2008, ICCVG.

[24]  M. Young,et al.  Advanced database methodology for the Collation of Connectivity data on the Macaque brain (CoCoMac). , 2001, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[25]  D. J. Felleman,et al.  Distributed hierarchical processing in the primate cerebral cortex. , 1991, Cerebral cortex.

[26]  Pablo de Heras Ciechomski,et al.  Realtime Neocortical Column Visualization , 2008, BIOSIGNALS.