GP2023_chirp_detection/poster/main.tex

\documentclass[25pt, a0paper, portrait, margin=0mm, innermargin=20mm,
blockverticalspace=2mm, colspace=20mm, subcolspace=0mm]{tikzposter} %Default values for poster format options.

\input{packages}
\input{style}

\begin{document}

\renewcommand{\baselinestretch}{1}
\title{\parbox{1500pt}{Bypassing time-frequency uncertainty in the detection of transient communication signals in weakly electric fish}}
\author{Sina Prause, Alexander Wendt, and Patrick Weygoldt}
\institute{Supervised by Till Raab \& Jan Benda, Neuroethology Lab, University of Tuebingen}
\usetitlestyle[]{sampletitle}
\maketitle
\renewcommand{\baselinestretch}{1.4}

\begin{columns}
\column{0.4}
\myblock[TranspBlock]{Introduction}{
    \textbf{Chirps} are the most common communication signals in weakly electric fish. They are characterized by \textbf{short frequency excursions} and are emitted during various social contexts. It is nearly impossible to reliably \textbf{detect and assign} chirps in freely interacting fish using only a Fourier transform. To overcome these limits, we developed a new method of \textbf{dynamic feature extraction} and classification. 
    \vspace{1cm}
    \begin{tikzfigure}[]
        \label{griddrawing}
        \includegraphics[width=\linewidth]{figs/introplot}
    \end{tikzfigure}
}
\myblock[TranspBlock]{Chirp detection algorithm}{
    \begin{tikzfigure}[]
        \label{fig:alg1}
        \includegraphics[width=0.9\linewidth]{figs/algorithm1}
    \end{tikzfigure}
    \vspace{2cm}
    \begin{tikzfigure}[]
        \label{fig:alg2}
        \includegraphics[width=1\linewidth]{figs/algorithm}
    \end{tikzfigure}
    \vspace{0cm}
}

\column{0.6}
\myblock[TranspBlock]{Chirps during competition}{
    \begin{tikzfigure}[]
        \label{fig:example_b}
        \includegraphics[width=\linewidth]{figs/timeline.pdf}
    \end{tikzfigure}
    \noindent
    \begin{itemize}
        \setlength\itemsep{0.5em}
        \item Two fish compete for one hiding place in one tank.
        \item Experiment had a 3 hour long darkphase and a 3 hour long light phase.
    \end{itemize}

    \noindent
    \begin{tikzfigure}[]
        \label{fig:example_b}
        \includegraphics[width=\linewidth]{figs/chirps_winner_loser.pdf}
    \end{tikzfigure}
    \noindent
    \begin{itemize}
        \item Fish who lost the competition chirped more often than the fish who lost.
        \item Size has an effect on the Competition outcome, and the chirp count.
        \item Frequency of the fish has no effect on the competition outcome.
    \end{itemize}
}

\myblock[TranspBlock]{Are Chirps coding for onset or offset of physical interaction?}{
    \vspace{-1.2cm}
    \begin{minipage}{0.6666\linewidth}
        \begin{tikzfigure}[]
            \includegraphics[width=0.3\linewidth]{figs/chirps_in_chasing.pdf}
        \end{tikzfigure}
    \end{minipage}
        \begin{minipage}{0.3333\linewidth}
            \begin{tikzfigure}[]
                \includegraphics[width=\linewidth]{figs/chirps_in_chasing.pdf}
            \end{tikzfigure}
    \end{minipage}
}

\myblock[GrayBlock]{Conclusion}{
    \begin{itemize}
        \setlength\itemsep{0.5em}
        \item Our analysis is the first to indicate that \textit{A. leptorhynchus} uses long, diffuse and synchronized EOD$f$ signals to communicate in addition to chirps and rises.
        \item The recorded fish do not exhibit jamming avoidance behavior while close during synchronous modulations.
        \item Synchronous signals \textbf{initiate} spatio-temporal interactions.
    \end{itemize}
    \vspace{0.2cm}
    }
    \end{columns}

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    outer sep=45pt,
    minimum width=\paperwidth,
    align=center,
    draw,
    fill=boxes,
    color=boxes] at (-43.6,-61) {
        \textcolor{white}{
    \normalsize Contact: \{name\}.\{surname\}@student.uni-tuebingen.de}};

\end{document}