diff --git a/Examples/BasicFilters/MeanShiftVectorImageFilterExample.cxx b/Examples/BasicFilters/MeanShiftVectorImageFilterExample.cxx
index ca044835f188c6a6f5c9573541885a6a14a4429a..55729ea40784039b3ecc3bbb0f8615adff7f0dc7 100644
--- a/Examples/BasicFilters/MeanShiftVectorImageFilterExample.cxx
+++ b/Examples/BasicFilters/MeanShiftVectorImageFilterExample.cxx
@@ -26,8 +26,8 @@
 
 //  Software Guide : BeginCommandLineArgs
 //    INPUTS: {ROI_QB_MUL_1.png}
-//    OUTPUTS: {MSFilteredOutput.tif}, {MSClusteredOutput.tif}, {MSLabelledOutput.tif}, {MSBoundariesOutput.tif}, {MSFilteredOutput-pretty.png}, {MSClusteredOutput-pretty.png}
-//  16 16 10 1.0
+//    OUTPUTS: {MSFilteredOutput.tif}, {MSClusteredOutput.tif}, {MSLabeledOutput.tif}, {MSBoundariesOutput.tif}, {MSFilteredOutput-pretty.png}, {MSClusteredOutput-pretty.png}
+//  7 30 20 1.0
 //  Software Guide : EndCommandLineArgs
 
 //  Software Guide : BeginLatex
@@ -87,7 +87,7 @@ int main(int argc, char * argv[])
   //  Software Guide : BeginLatex
 //
 //  We start by the classical \code{typedef}s needed for reading and
-//  writing the images. The EDISON code upon which OTB's
+//  writing the images. The EDISON \url{http://www.caip.rutgers.edu/riul/research/code/EDISON/index.html} code upon which OTB's
 //  implementation is based, uses float pixel precision, so we choose
 //  to work with a float pixel type.
 //
diff --git a/Examples/IO/TileMapImageIOExample.cxx b/Examples/IO/TileMapImageIOExample.cxx
index 1c70bacfc964e33b433cb0ad396d318c9b1a8a27..b9b362561e6738a0a161294a3d7fbf7689521525 100644
--- a/Examples/IO/TileMapImageIOExample.cxx
+++ b/Examples/IO/TileMapImageIOExample.cxx
@@ -90,8 +90,8 @@ int main( int argc, char* argv[] )
 
   // Software Guide : BeginLatex
   //
-  // We now instanciate the reader. As some parameters need to be given to the
-  // IO which is an \doxygen{otb}{TileMapImageIO}, we need to manually create it also:
+  // We now instantiate the reader. As some parameters need to be given to the
+  // IO which is an \doxygen{otb}{TileMapImageIO}, we need to manually create it:
   //
   // Software Guide : EndLatex
 
@@ -112,12 +112,12 @@ int main( int argc, char* argv[] )
 
   // Software Guide : BeginLatex
   //
-  // Now, we potentially have an image of several Peta-bytes covering the whole world
+  // Now, we potentially have an image of several Peta-Bytes covering the whole world
   // in the reader
   // that's why we don't want to do an update before extracting a specific
   // area.
   //
-  // The coordinates are refered with an origin at the north pole and the
+  // The coordinates are refered with an origin at the North Pole and the
   // change date meridian in Mercator projection. So we need to translate the latitude
   // and the longitude in this funny coordinate system:
   //
@@ -147,7 +147,7 @@ int main( int argc, char* argv[] )
 
   // Software Guide : BeginLatex
   //
-  // This enable us to use the \doxygen{otb}{ExtractROI} to retrieve only
+  // This enables us to use the \doxygen{otb}{ExtractROI} to retrieve only
   // the area of interest and to avoid crashing our memory-limited computer.
   //
   // Software Guide : EndLatex