Commit b4f8a25e authored by Daniel McInerney's avatar Daniel McInerney

DOC: applied reviewers comments

parent d9440dda
......@@ -200,7 +200,7 @@ modules needs to be properly set with the ``OTB_APPLICATION_PATH``
environment variable. The standard location on Unix systems is
``/usr/lib/otb/applications``. On Windows, the applications are
available in the ``otb-bin`` OSGeo4W package, and the environment is
configured automatically so it doesn't need to be modified
configured automatically so ``OTB_APPLICATION_PATH`` doesn't need to be modified
``OTB_APPLICATION_PATH``.
Once your environment is set, you can use OTB applications from Python, just
......@@ -278,7 +278,7 @@ parameter:
otbcli_BandMath -inxml saved_applications_parameters.xml
Note that you can also add additional parameters on the command line at the same
Note that you can also add additional parameters to the command line at the same
time
::
......
......@@ -149,7 +149,7 @@ two vectors (see next section “New operators and functions”
Now, let’s go back to the first formula: this one specifies the addition
of two images band to band. With muParserX lib, we can now define such
operation with only one formula, instead of many formulae (as many as
operation with only one formula, instead of many formulas (as many as
the number of bands). We call this new functionality the **batch mode**,
which directly arises from the introduction of vectors within muParserX
framework.
......@@ -178,7 +178,7 @@ For instance, im1b3N3x5 represents the following neighbourhood:
Fundamentally, a neighbourhood is represented as a matrix inside the
muParserX framework; so the remark about mathematically well-defined
formulae still stands.
formulas still stands.
New operators and functions
---------------------------
......
......@@ -82,8 +82,8 @@ int main( int argc, char* argv[])
//
// We start by the classical \code{typedef}s needed for reading and
// writing the images. The \doxygen{otb}{BandMathImageFilter} class
// works with \doxygen{otb}{Image} as input, so we need to define additional
// filters to extract each layer of the multispectral image.
// works with \doxygen{otb}{Image} as input, so we need to define additional
// filters to extract each layer of the multispectral image.
//
// Software Guide : EndLatex
......@@ -183,9 +183,9 @@ int main( int argc, char* argv[])
// Software Guide : BeginLatex
//
// The muParser library also provides the possibility to extend existing built-in functions. For example,
// you can use the OTB expression "ndvi(b3, b4)" with the filter. In this instance, the mathematical expression would be
// \textit{if($ndvi(b3, b4)>0.4$, 255, 0)}, which would return the same result.
// The muParser library also provides the possibility to extend existing built-in functions. For example,
// you can use the OTB expression "ndvi(b3, b4)" with the filter. In this instance, the mathematical expression would be
// \textit{if($ndvi(b3, b4)>0.4$, 255, 0)}, which would return the same result.
//
// Software Guide : EndLatex
......
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