ARiBraiN
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About ARiBraiN
See new release ARiBraiN3T: https://play.google.com/store/apps/details?id=com.aribraindev.ARiBraiN3T
Visualization of complex neuroimaging data such as functional connectivity, tractography, functional imaging is a challenge. Recombining such data produces an even more complex problem.
Many different visualization solutions have been proposed. Margulies et al (2013), for example, describe two-dimensional as well as three-dimensional neuroimaging visualization methods for tractography and functional connectivity data. Rojas and colleagues (Rojas, 2011), described a stereoscopic-related method to view neuroradiological 3-D images.
An Augmented Reality (AR) system generates a composite view for the user that is the combination of a real scene viewed by the user and a virtual scene generated by the computer that augments (or supplements) the scene with additional information (e.g. sound, video, graphics, etc.).
Here we describe an application for Android to visualize the seven standard functional connectivity networks (Yeo et al., 2011), and an Augmented Reality application that shows the Default Mode Network.
Gonzalo Rojas, Jorge Fuentes, Marcelo Gálvez, Daniel Margulies, “Augmented Reality and Intrinsic Functional Connectivity Visualization Application: ARIBraiN, iBraiN”, 20th Annual Meeting of the Organization for Human Brain Mapping, Hamburg, Germany, June 2014.
You can download AR TAGS from http://bit.ly/1nBEpMQ See new release ARiBraiN3T: https://play.google.com/store/apps/details?id=com.aribraindev.ARiBraiN3T
Visualization of complex functional neuroimaging data: such as connectivity, tractography, functional imaging is a challenge. Such data recombining produces an even more complex problem.
Many different visualization Have Been Proposed solutions. Margulies et al (2013), for example, describe two-dimensional as well as three-dimensional visualization methods for neuroimaging tractography and functional connectivity data. Rojas and colleagues (Rojas, 2011), a stereoscopic-related Described method to neuroradiological view 3-D images.
An Augmented Reality (AR) system Generates a composite view for the user That is the combination of real scene viewed by the user and a virtual scene generated by the computer That augments (or supplements) the scene with additional information (eg sound, video , graphics, etc.).
Here we describe an application for Android to visualize the standard seven functional connectivity networks (Yeo et al., 2011), and an Augmented Reality application That shows the Default Mode Network.
Gonzalo Rojas, Jorge Fuentes, Marcelo Galvez, Daniel Margulies, "Augmented Reality and Visualization Application Intrinsic Functional Connectivity: ARIBraiN, Ibrain", 20th Annual Meeting of the Organization for Human Brain Mapping, Hamburg, Germany, June 2014.
You can download AR TAGS from http://bit.ly/1nBEpMQ
Visualization of complex neuroimaging data such as functional connectivity, tractography, functional imaging is a challenge. Recombining such data produces an even more complex problem.
Many different visualization solutions have been proposed. Margulies et al (2013), for example, describe two-dimensional as well as three-dimensional neuroimaging visualization methods for tractography and functional connectivity data. Rojas and colleagues (Rojas, 2011), described a stereoscopic-related method to view neuroradiological 3-D images.
An Augmented Reality (AR) system generates a composite view for the user that is the combination of a real scene viewed by the user and a virtual scene generated by the computer that augments (or supplements) the scene with additional information (e.g. sound, video, graphics, etc.).
Here we describe an application for Android to visualize the seven standard functional connectivity networks (Yeo et al., 2011), and an Augmented Reality application that shows the Default Mode Network.
Gonzalo Rojas, Jorge Fuentes, Marcelo Gálvez, Daniel Margulies, “Augmented Reality and Intrinsic Functional Connectivity Visualization Application: ARIBraiN, iBraiN”, 20th Annual Meeting of the Organization for Human Brain Mapping, Hamburg, Germany, June 2014.
You can download AR TAGS from http://bit.ly/1nBEpMQ See new release ARiBraiN3T: https://play.google.com/store/apps/details?id=com.aribraindev.ARiBraiN3T
Visualization of complex functional neuroimaging data: such as connectivity, tractography, functional imaging is a challenge. Such data recombining produces an even more complex problem.
Many different visualization Have Been Proposed solutions. Margulies et al (2013), for example, describe two-dimensional as well as three-dimensional visualization methods for neuroimaging tractography and functional connectivity data. Rojas and colleagues (Rojas, 2011), a stereoscopic-related Described method to neuroradiological view 3-D images.
An Augmented Reality (AR) system Generates a composite view for the user That is the combination of real scene viewed by the user and a virtual scene generated by the computer That augments (or supplements) the scene with additional information (eg sound, video , graphics, etc.).
Here we describe an application for Android to visualize the standard seven functional connectivity networks (Yeo et al., 2011), and an Augmented Reality application That shows the Default Mode Network.
Gonzalo Rojas, Jorge Fuentes, Marcelo Galvez, Daniel Margulies, "Augmented Reality and Visualization Application Intrinsic Functional Connectivity: ARIBraiN, Ibrain", 20th Annual Meeting of the Organization for Human Brain Mapping, Hamburg, Germany, June 2014.
You can download AR TAGS from http://bit.ly/1nBEpMQ
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Android
2.2+
2.2+
Android app
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Mesh optimization
Mesh optimization
More downloads ARiBraiN reached 100 - 500 downloads
More downloads ARiBraiN reached 50 - 100 downloads
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