Author: bugman Date: Mon Dec 9 08:59:22 2013 New Revision: 21878 URL: http://svn.gna.org/viewcvs/relax?rev=21878&view=rev Log: Updated the ShereKhan error estimation technique in the dispersion software comparison table. This is for the dispersion chapter of the user manual. Adam Mazur communicated that errors are estimated using the covariance matrix in a private mail. Modified: trunk/docs/latex/dispersion_software.tex Modified: trunk/docs/latex/dispersion_software.tex URL: http://svn.gna.org/viewcvs/relax/trunk/docs/latex/dispersion_software.tex?rev=21878&r1=21877&r2=21878&view=diff ============================================================================== --- trunk/docs/latex/dispersion_software.tex (original) +++ trunk/docs/latex/dispersion_software.tex Mon Dec 9 08:59:22 2013 @@ -111,10 +111,9 @@ \vspace{-5pt} \\ \textbf{Error propagation} \\ \cmidrule(lr){1-1} -Covariance matrix (lowest quality) & \yes & \yes & \yes & \no & \yes & \no & \yes & \no & \no \\ +Covariance matrix (lowest quality) & \yes & \yes & \yes & \no & \yes & \yes & \yes & \no & \no \\ Jackknife simulations (for missing errors) & \yes & \no & \no & \no & \no & \no & \yes & \no & \no \\ Bootstrapping simulations (false errors) & \no & \no & \no & \no & \no & \no & \no & \no & \no \\ -Currently unknown (please update) & \no & \no & \no & \no & \no & \yes & \no & \no & \no \\ Monte Carlo simulations (gold standard) & \yes & \no & \no & \yes & \yes & \no & \yes & \yes & \yes \\ \vspace{-5pt} \\