Real-time multicompartment Hodgkin-Huxley neuron emulation on SoC FPGA - presented by Pr Timothée Levi

Real-time multicompartment Hodgkin-Huxley neuron emulation on SoC FPGA

Pr Timothée Levi

Pr Timothée Levi
Slide at 02:08
Context Timothee Millions of people affected by neurological disorders Drug-resistant patients Advanced in bio/physic interface Artificial neuron Electroceutic therapy 'A jum start for electroceuticals', Nature 2013 *Electroceuticals spark interest', Nature 2014
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References
  • 1.
    K. Famm et al. (2013) A jump-start for electroceuticals. Nature
  • 2.
    S. Reardon (2014) Electroceuticals spark interest. Nature
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Summary (AI generated)

In our lab, we focus on two main areas of research. The first involves designing a biometric neural network. This includes using a small FPGA on the left and observing the output of our Neuron model on the Scope. Additionally, we work on bio resistance to enable bidirectional communication between Artificial neurons and living neurons. All of this research is conducted in real time.