diff --git a/paper/paper.tex b/paper/paper.tex index 6ce0e84..53904c5 100644 --- a/paper/paper.tex +++ b/paper/paper.tex @@ -22,7 +22,7 @@ \section{Introduction} The growing volume of survey datasets necessitates more efficient analysis methods, particularly for variance estimation in complex survey designs. Computationally demanding resampling techniques, such as bootstrapping and jackknife, are required when dealing with stratification, clustering, and unequal weights. \\ -Many software packages exist for survey analysis\footnote{A comprehensive list is provided by \cite{SummarySurveyAnalysis}}. Notable examples include the R survey package, SAS/STAT, SPSS Complex Samples, Stata, and SUDAAN. The R survey package by Thomas Lumley\cite{lumley2004analysis} is widely recognized for its comprehensive capabilities and open-source availability. However, it lacks computational efficiency needed for large-scale data. Survey.jl leverages Julia to offer a faster resampling framework for variance estimation and survey data analysis. +Many software packages exist for survey analysis\footnote{A comprehensive list is provided by \cite{SummarySurveyAnalysis}}. Notable examples include the R survey package, SAS/STAT, SPSS Complex Samples, Stata, and SUDAAN. The R survey package by Thomas Lumley\cite{lumley2004analysis} is widely recognized for its comprehensive capabilities and open-source availability. However, it is limited by R's computational efficiency, especially for large-scale data. Survey.jl leverages Julia to offer a faster resampling framework for variance estimation and survey data analysis. %% Short summary of the paper