International-Astronautical.../main.tex

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\documentclass[]{iac_class}
\newcommand{\etalia}{\textit{et al.}}
\newcommand*{\vectornorm}[1]{\left\|#1\right\|}
\newcommand*\rfrac[2]{{{}^{#1}\!/_{#2}}} % running fraction with slash - requires math mode.
\newcommand*\T{\mathsf{T}}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Other packages %
\usepackage[hidelinks]{hyperref}
\usepackage{wrapfig}
\usepackage{orcidlink}
%\usepackage{amsmath} %,amssymb,amsfonts
\usepackage[inline]{enumitem}
\newcommand{\comment}[1]{}
\usepackage{blindtext}
%\usepackage{eucal}
\usepackage{lipsum}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Customization %
% Control header spacing
%\setlength{\headheight}{18pt}
%\addtolength{\topmargin}{-5.75801pt}
% set default enumeration/itemize parameters
\setlist{noitemsep}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% BEGIN DOCUMENT %
\begin{document}
\IACpaperyear{2021}
\IACpapernumber{IAC-21-D2,3,2,xxxxxx}
\IACconference{International Astronautical Congress IAC 2021, Dubai, United Arab Emirates}
\IAClocation{Dubai, United Arab Emirates}
\IACdate{25-29 October 2021}
\IACcopyrightB{Mr. author 1 and Mr. author 2}
\title{Your paper's title}
\IACauthor{Author 1$^{\orcidlink{0000-0000-0000-0000}}$}{Company location, \normalfont{\texttt{email1@email.com}}}{1}
\IACauthor{Author 2$^{\orcidlink{0000-0000-0000-0000}}$}{Company location, \normalfont{\texttt{email2@email.com}}}{0}
\input{tex/abstract}
\maketitle
\thispagestyle{fancy} % resets proper header/footer
\section{Introduction}
This document is an unofficial \LaTeX model for papers submitted for the International Astronautical Congress.
\\This template was used to submit \cite{fari2021vector}.
Please observe the conference page for the most updated instruction.
\section{Styling}\label{sec:styling}
This section offers some template for the most common \LaTeX objects, such as equation, tables and figures.
\subsection{Equations}\label{s_sec:equation}
\begin{equation}\label{eq:sample_equation}
W^p=m_pg\left[\begin{matrix}
-s_{\theta_p}\\s_{\phi_p}c_{\theta_p}\\c_{\phi_p}c_{\theta_p}
\end{matrix} \right]
\end{equation}
Equations can be referenced as: ``Eq.~\ref{eq:sample_equation} represents ... ''.
\subsection{Tables}
Tables can be designed as shown in Table~\ref{tab:model_coefficients}.
\begin{table}[t]
\centering
\begin{tabular}{lc|lc}
\textbf{Param.} & \textbf{Value} & \textbf{Param.} & \textbf{Value} \\ \hline
$m_p$ & 13 & $m_b$ & 135 \\
a & 1 & b & 7 \\
$c$ & 3 & $t$ & 3 \\
$S_b$ & 0.500 & $S_p$ & 21 \\
$\|X_{cb}\|$ & 0.500 & $\|X_{cp}\|$ & 7.500 \\
$I_b$ & diag(5.620) & $I_p(1,1)$ & 53.180 \\
$I_p(2,2)$ & 9.840 & $I_p(3,3)$ & 62.830\\
$C_{{L,p}_0}$ & 0.400 & $C_{{L,p}_\alpha}$ & 2 \\
$C_{{D,p}_0}$ & 0.150 & $C_{{D,p}_\alpha}$ & 1 \\
$C_{{D,b}_0}$ & 0.150 & $C_{{D,b}_\alpha}$ & 1 \\
$C_{l_p}$ & -0.100 & $C_{l_\phi}$ & -0.050 \\
$C_{m_q}$ & -2 & $C_{m_0}$ & 0.018 \\
$C_{n_r}$ & -0.070 & $C_{m_\alpha}$ & -0.200 \\
$C_{L_{\delta_a}}$ & 1\texttt{e-4} & $C_{L_{\delta_s}}$ & 0.210 \\
$C_{D_{\delta_a}}$ & 1\texttt{e-4} & $C_{D_{\delta_s}}$ & 0.300 \\
$C_{l_{\delta_a}}$ & 21\texttt{e-4} & $C_{n_{\delta_a}}$ & 0.004\\
$k_k$ & 0.350 & $c_c$ & 4.700 \\\hline
\end{tabular}
\caption{Model parameters (reported in SI units).}
\end{table}\label{tab:model_coefficients}
\subsection{Figures}\label{sec:figures}
Figures can be included as shown in Figure~\ref{fig:VF_straight_line}.
\begin{figure}
\centering
\includegraphics[width = \columnwidth]{images/vf_example.eps}
\caption{Vector field straight-line path-following example.}
\label{fig:VF_straight_line}
\end{figure}
\section{Conclusion and future work}\label{sec:conclusions}
\subsection{Conclusions}\label{ss_sec:first_subsec}
\subsection{Future work}\label{ss_sec:second_subsec}
\bibliographystyle{IEEEtran}
\bibliography{ref}
\end{document}