Virtual Reality
This was one of my major projects for my PhD, this is a continuous effort where graduate students and undergraduate students develop an immersive virtual environment for the real time interaction of neurons.
By interaction I mean we allow the user to perturb the electrical dynamics of a single neuron or small network of neurons in REALTIME.
The virtual environment solves the Hodgkin-Huxley model equations for single neuron electrical dynamics in real time.
This project also allows the user to connect neurons and form small networks via artificial synapses, which are modeled by well established equations.
In this section I provide some videos, which I hope are instructional and provide insight to future users.
I encourage virtual reality enthusiasts to clone the project repo: https://github.com/c2m2/Neuro-VISOR
![](https://www.google.com/images/icons/product/drive-32.png)
In the video to the left is a demonstration of NeuroVisor.
In the pictures below I am demonstrating NeuroVisor at the Conference: Latest trends and insights into matrix theory, iterative methods, and preconditioning, Mitten Hall, Temple University
![](https://www.google.com/images/icons/product/drive-32.png)
In this video I demonstrate using the environment.
I place a clamp.
I also change the size of the neuron.
![](https://www.google.com/images/icons/product/drive-32.png)
In this video I provide a verbal description of the project and tutorial
![](https://www.google.com/images/icons/product/drive-32.png)
This is another video of me using NeuroVisor.
![](https://www.google.com/images/icons/product/drive-32.png)
Here is another video of me using NeuroVisor.
![](https://www.google.com/images/icons/product/drive-32.png)
This is one of the test video I made for NeuroVisor.
![](https://www.google.com/images/icons/product/drive-32.png)
Here is another headset video I made.