Last modified by graber on 2023/09/28 09:25
From version 57.1
edited by graber
on 2023/06/01 11:06
Change comment: There is no comment for this version
To version 54.2
edited by graber
on 2023/05/26 10:06
Change comment: There is no comment for this version

Summary

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36 36  Elephant is an open-source Python library for the analysis of neurophysiology data, using Neo data structures.|**[[HBP Validation Framework - Python Client>>url:http://hbp-validation-client.readthedocs.io/]]**
37 37  A Python package for working with the Human Brain Project Model Validation Framework.|**[[Neo>>url:https://neo.readthedocs.io/en/stable/]]**
38 38  an object model for handling electrophysiology data in multiple formats.|
39 -
40 40  |**[[Neo Viewer>>url:https://neo-viewer.brainsimulation.eu/]]**
41 41  Django/Angular software for graphing neural activity data (analog signals, spike trains etc.) read from Neo files.|**[[NeuroScheme>>url:https://neuroscheme-documentation.readthedocs.io/en/latest/]]**
42 42  NeuroScheme is a tool for navigating, exploring, creating and interacting with NeuroScience data using abstract, schematic or expressive representations.|**[[NeuroTessMesh>>url:https://neurotessmesh-documentation.readthedocs.io/en/latest/]]**
43 43  A Tool for the Generation and Visualization of Neuron Meshes and Adaptive On-the-Fly Refinement|
44 -
45 45  |**[[Nutil>>url:https://wiki.ebrains.eu/bin/view/Collabs/quint]]**
46 46  Nutil aims to both simplify and streamline the mechanism of pre-and-post processing 2D brain image data from mouse and rat.|**[[ViSimpl>>url:https://visimpl-documentation.readthedocs.io/en/latest/]]**
47 47  ViSimpl integrates a set of visualization and interaction tools that provide a multi-view visual analysis of brain simultation data.|**[[ilastik>>url:http://ilastik.org/documentation/index.html]]**
48 48  ilastik is a simple, user-friendly tool for interactive image classification, segmentation and analysis.|
49 -
50 50  |**[[Brain-cockpit>>url:https://alexisthual.github.io/brain-cockpit/]]**
51 51  Web-based application to explore large fMRI datasets and inter-subject alignments.|**[[Cobrawap>>url:https://cobrawap.readthedocs.io/]]**
52 -Cobrawap is a Python-based, adaptable, and reusable pipeline for analyzing cortical wave activity.|**[[Viziphant>>url:https://viziphant.readthedocs.io/en/latest/index.html]]**
53 -Viziphant provides an easy way to generate plots and interactive visualizations of neuroscientific data and analysis results|
49 +Cobrawap is a Python-based, adaptable, and reusable pipeline for analyzing cortical wave activity.
54 54  
55 55  === Simulation ===
56 56  
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81 81  
82 82  |**[[The Virtual Brain Web-App>>url:http://docs.thevirtualbrain.org/]]**
83 83  The Virtual Brain Web App at HBP.|**[[NeuroR>>url:https://elephant.readthedocs.io/en/latest/index.html]]**
84 -NeuroR is a collection of tools to repair morphologies.|**[[LFPy>>url:https://lfpy.readthedocs.io/]]**
80 +NeuroR is a collection of tools to repair morphologies.|**[[Local Field Potentials in Python>>url:https://lfpy.readthedocs.io/]]**
85 85  LFPy is a Python module for the calculation of extracellular potentials and magnetic signals from activity in multicompartment neuron and network models.|
86 86  
87 87  |**[[Snudda>>url:https://github.com/Hjorthmedh/Snudda/wiki]]**
88 88  Snudda is a tool that allows the user to place neurons within multiple volumes, then performs touch detection to infer where putative synapses are based on reconstructed neuron morphologies.|**[[BlueNaaS-Subcellular>>url:https://subcellular-bsp-epfl.apps.hbp.eu/static/docs.html]]**
89 -BlueNaaS-Subcellular is designed as a web based environment for the creation and simulation of reaction-diffusion models.|
85 +BlueNaaS-Subcellular is designed as a web based environment for the creation and simulation of reaction-diffusion models.|**[[BlueNaaS-Subcellular>>url:https://subcellular-bsp-epfl.apps.hbp.eu/static/docs.html]]**
86 +BlueNaaS-Subcellular is designed as a web based environment for the creation and simulation of reaction-diffusion models|
90 90  
88 +
91 91  === Neurorobotics ===
92 92  
93 93  |**[[Neurorobotics Platform>>url:https://www.neurorobotics.net/Documentation/nrp/user_manual/index.html]]**
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109 109  |**[[Human Intracerebral EEG Platform (HIP)>>url:https://hip-infrastructure.github.io/build/html/index.html]]**
110 110  The HIP is a state-of-the-art open-source platform, offering integrated tools and workflows for optimized collection, storage, sharing, processing and analysis of multiscale Human intracerebral EEG data.
111 111  
110 +
112 112  === Neuromorphic computing ===
113 113  
114 114  |**[[BrainScaleS>>url:https://wiki.ebrains.eu/bin/view/Collabs/neuromorphic/BrainScaleS/]]**