\documentclass[a4paper,12pt,pdftex]{exam}
\newcommand{\ptitle}{Reverse reconstruction}
\input{../header.tex}
\firstpagefooter{Supervisor: Jan Grewe}{phone: 29 74588}%
{email: jan.grewe@uni-tuebingen.de}
\begin{document}
\input{../instructions.tex}
%%%%%%%%%%%%%% Questions %%%%%%%%%%%%%%%%%%%%%%%%%
\section*{Reverse reconstruction of the stimulus evoking neuronal responses.}
To analyse encoding properties of a neuron one often calculates the
Spike-Triggered-Average (STA).
\[ STA(\tau) = \frac{1}{\langle n \rangle} \left\langle
\displaystyle\sum_{i=1}^{n}{s(t_i - \tau)} \right\rangle \]
The STA is the average stimulus that led to a spike in the neuron and
is calculated by cutting out snippets form the stimulus centered on
the respective spike time. The Spike-Triggered-Average can be used to
reconstruct the stimulus a neuron has been stimulated with.
\begin{questions}
\question In the accompanying files you find the spike responses of
P-units and pyramidal neurons of the weakly electric fish
\textit{Apteronotus leptorhynchus}. The respective stimuli are
stored in separate files. The data is sampled with 20\,kHz temporal
resolution and spike times are given in seconds. Start with the
P-unit and, in the end, apply the same functions to the pyramidal
data.
\begin{parts}
\part Estimate the STA and plot it.
\part Implement a function that does the reconstruction of the
stimulus using the STA.
\part Implement a function that estimates the reconstruction
error using the mean-square-error and express it relative to the
variance of the original stimulus.
\begin{equation}
err = \frac{1}{N} \cdot \displaystyle\sum^{N}_{i=1}(x_i - \bar{x})^2,
\end{equation}
with $N$ the number of data points, $x_i$ the current value and
$\bar{x}$, the average of all $x$.
\part Analyze the robustness of the reconstruction: Estimate
the STA with less and less data and estimate the reconstruction
error.
\part Plot the reconstruction error as a function of the data
amount used to estimate the STA.
\part Repeat the above steps for the pyramidal neuron, what do you
observe?
\end{parts}
\end{questions}
\end{document}