[cig-commits] r21076 - seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL
liuqy at geodynamics.org
liuqy at geodynamics.org
Tue Nov 27 09:21:05 PST 2012
Author: liuqy
Date: 2012-11-27 09:21:05 -0800 (Tue, 27 Nov 2012)
New Revision: 21076
Modified:
seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL/measure_adj_manual.pdf
seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL/measure_adj_manual.tex
Log:
Update manual.
Modified: seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL/measure_adj_manual.pdf
===================================================================
(Binary files differ)
Modified: seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL/measure_adj_manual.tex
===================================================================
--- seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL/measure_adj_manual.tex 2012-11-27 17:05:45 UTC (rev 21075)
+++ seismo/3D/ADJOINT_TOMO/measure_adj/USER_MANUAL/measure_adj_manual.tex 2012-11-27 17:21:05 UTC (rev 21076)
@@ -543,8 +543,8 @@
\en
and average error estimates are given by
\eq
-\sigma_{\Delta T} = \sqrt{\frac{\int[d(t)-s_c(t)]^2\,dt}{\int \dot{s}_c(t)\,dt}},\quad
-\sigma_{\Delta lnA} = \sqrt{\frac{\int[d(t)-s_c(t)]^2\,dt}{\dot{s}_c(t)\,dt}}
+\sigma_{\Delta T} = \sqrt{\frac{\int[d(t)-s_c(t)]^2\,dt}{\int \dot{s}^2_c(t)\,dt}},\quad
+\sigma_{\Delta lnA} = \sqrt{\frac{\int[d(t)-s_c(t)]^2\,dt}{\int s^2_{ct}(t)\,dt}}
\en
where $s_c(t)$ is the reconstructed synthetics after applying $\Delta T$ and $\Delta \ln A$ corrections.
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