# A1 Project

<b>Project Title:</b> Modeling neuronal circuit growth and sensory information processing of Hydra

<b>PI’s:</b> <a href="https://www.bosch.zoologie.uni-kiel.de/?page_id=9" target="_blank">Prof. Dr. Dr. h. c. Thomas Bosch</a>, <a href="https://etit.ruhr-uni-bochum.de/fakultaet/professuren/priv-doz-dr-ing-karlheinz-ochs/" target="_blank">PD. Dr. Karlheinz Ochs</a>

<b>Researcher(s):</b> <a href="https://www.dks.ruhr-uni-bochum.de/en/profiles/sebastian-jenderny/" target="_blank">Sebastian Jenderny</a>, <a href="https://www.bosch.zoologie.uni-kiel.de/?page_id=9" target="_blank">Christopher Noack</a>

<b>Dataset Name:</b> An equivalent circuit for the Hindmarsh-Rose model

<b>Dataset Descriptions:</b> Simulated data for figures 8 and 9 as presented in [^1]. The dataset contains voltage and current data for bursting and spiking modes of equivalent circuits for the original Hindmarsh-Rose model and a memristive Hindmarsh-Rose model.

<b>Methodology:</b>  Simulations of the original Hindmarsh-Rose model that serve as reference are carried out with LTspice. Simulations of the equivalent circuit of the Hindmarsh-Rose model and the memristive Hindmarsh-Rose model are carried out with an ODE solver of MATLAB.

<b>Setup:</b>

Simulated circuit setup corresponding to the original Hindmarsh-Rose model. Definitions for the nonlinear circuit elements are found in [^1].

:::{figure-md} fig-target
:class: align-center

```{image} ../_static/A1_figure1.jpg
:alt: 
:width: 475px
```

The original Hindmarsh-Rose model.
:::


Simulated circuit setup corresponding to the memristive Hindmarsh-Rose model. Definitions for the nonlinear circuit elements are found in [^1].  


:::{figure-md} fig-target
:class: align-center

```{image} ../_static/A1_figure2.jpg
:alt: 
:width: 475px
```

The memristive Hindmarsh-Rose model.
:::


<b>Parameters:</b>

Simulation parameters used to create spiking and bursting behavior. Note that variable names refer to the parameters of the set of ordinary differential equations of the original Hindmarsh-Rose model [^1]. Normalization constants are chosen to L<sub>0</sub> = 1nH, R<sub>0</sub> = 1Ω, and U<sub>0</sub> = 1V. Additional parameters for the memristive Hindmarsh-Rose model are set to α = 10<sup>-9</sup> .

:::{figure-md} fig-target
:class: align-center

```{image} ../_static/A1_figure3.jpg
:alt: 
:width: 475px
```

Simulation parameters for creating spiking and bursting behavior.
:::

<b><a href="https://www.researchgate.net/publication/381896130_simulationDatazip" target="_blank">Click here</a></b> to download the dataset.

<b>References:</b>

[^1]: Ochs, K., & Jenderny, S. (2021). An equivalent electrical circuit for the Hindmarsh‐Rose model. International Journal of Circuit Theory and Applications, 49(11), 3526-3539. doi:<a href="10.1002/cta.3113" target="_blank">10.1002/cta.3113</a>