deletions | additions       diff --git a/untitled.tex b/untitled.tex  index 5f62c45..0ac37ab 100644  --- a/untitled.tex  +++ b/untitled.tex 
...
\section{Overview}\label{sec:intro}  This document presents a parametric model to help design an Interferometric Array. An One  aspect of this problem Array Design  isoptimizing  the value the array will have for a given scientific case subject vs. cost trade-off inherent  to funding.   distance, energy, many of its parameters. This is  a It Multiple Objective Analysis problem. This document  describesthe  design parameters in \S~\ref{sec:var} and the system performance a set of value  objectives for them  in \S~\ref{sec:obj}, and the relationship between them. \S~\ref{sec:obj}.  A python code used for to enable  visual analysis of array design options performance the Pareto front  is introduced in \S~\ref{sec:python}. The python code is consistent with parameters and objectives values  selection in \S~\ref{sec:var} and \S~\ref{sec:obj}, and the mathematical relationships between them. \section{Variables}\label{sec:var} \section{Parameters}\label{sec:var}  This section aims to include all relevant design parameters that might influence the selected performance objectives in \S~\ref{sec:obj}.  \subsection{Antenna Aspects}  \subsubsection{Collecting Area} 
...
Tricky because you can compensate antenna quality with software. So the equations must capture this trade off.