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\usepackage{mathtools}  \section{Overview}  This document presents parametric model for interferometry array design. It uses the equations relates design parameters  in *sources* as a basis section 2  to perform a multi-objective analysis and help performance objectives  in the definition of the array design. section 3.  In particular, this document focus is  in providing a framework quick guide of what is considered in the parametric model  for the analysis. This framework is ready user  to provide array design optimization for diverse design parameters and multiple objectives. either help improving current equations or think about how to include aspects that are not currently being considered.   Section 4 provides the python code used to generate a table in the format required to perform a visual analysis of the performance of different arrays generated by the model.  \section{Design Variables}  This section aims to include all  relevantaperture  design variables.  \subsection{Aperture parameters that might influence the selected performance objectives.  \subsection{Antenna  Aspects} \subsubsection{Aperture \subsubsection{Antenna  Type} \subsubsection{Aperture \subsubsection{Antenna  Quantity} \subsubsection{Aperture \subsubsection{Antenna  Diameter} \subsubsection{Aperture \subsubsection{Antenna  Efficiency} \subsubsection{Quantity and Position of Re-configurable Apertures}  \subsubsection{Quantity and Position of fixed Apertures} \subsection{Pad Aspects}  \subsubsection{Quantity}  \subsubsection{Position}  \subsection{Receiver Aspects}  \subsubsection{Bandwidth}  \subsubsection{Bands Division} 
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