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@@ -1,9 +1,9 @@
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<h2>DESCRIPTION</h2>
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-<b><em>r.topmodel</em></b> simulates TOPMODEL which is a physically based
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+<em>r.topmodel</em> simulates TOPMODEL which is a physically based
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hydrologic model.
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-<h3>Selected Parameters:</h3>
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+<h3>Parameters description</h3>
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<dl>
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<dt><b>parameters</b></dt>
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@@ -105,16 +105,16 @@ This file contains observed weather data.
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<dd>
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If a time step is specified, output will be generated for the specific time
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step in addition to the summary and total flows at the outlet. This parameter
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-can be combined with topidxclass to specify a time step and topographic index
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-class at the same time. If no topidxclass is given, output will be generated
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+can be combined with <b>topidxclass</b> to specify a time step and topographic index
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+class at the same time. If no <b>topidxclass</b> is given, output will be generated
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for all the topographic index classes.
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</dd>
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<dt><b>toptopidxclass</b></dt>
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<dd>
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If a topographic index class is specified, output will be generated for the
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-given topographic index class. This parameter can be combined with timestep. If
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-no timestep is given, output will be generated for all the time steps.
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+given topographic index class. This parameter can be combined with <b>timestep</b>. If
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+no <b>timestep</b> is given, output will be generated for all the time steps.
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</dd>
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<dt><b>topidx</b>, <b>ntoptopidxclasses</b>, <b>outtoptopidxstats</b></dt>
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@@ -124,24 +124,25 @@ index statistics file. This map has to be already clipped to the catchment
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boundary. The entire range of topographic index values will be divided into
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<b>ntoptopidxclasses</b> and the area ratio of each class will be reported in the
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<b>outtoptopidxstats</b> file. These three parameters can be omitted unless a new
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-topidxstats file needs to be created.
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+<b>topidxstats</b> file needs to be created.
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</dd>
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</dl>
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<h2>REFERENCES</h2>
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-Cho, H., 2000. GIS Hydrological Modeling System by Using Programming Interface
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-of GRASS. Master's Thesis, Department of Civil Engineering, Kyungpook National
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-University, Korea.
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-<p>
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-Beven K., R. Lamb, P. Quinn, R. Romanowicz, and J. Freer, 1995. TOPMODEL, in
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-V.P. Singh (Ed.). Computer Models of Watershed Hydrology. Water Resources
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-Publications.
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-<p>
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-Liaw, S.C., 1988. Streamflow Simulation Using a Physically Based Hydrologic
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-Model in Humid Forested Watersheds. Dissertation, Colorado State University,
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-CO. p163.
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+<ul>
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+ <li>Cho, H., 2000. GIS Hydrological Modeling System by Using Programming Interface
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+ of GRASS. Master's Thesis, Department of Civil Engineering, Kyungpook National
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+ University, Korea.
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+ <li>Beven K., R. Lamb, P. Quinn, R. Romanowicz, and J. Freer, 1995. TOPMODEL, in
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+ V.P. Singh (Ed.). Computer Models of Watershed Hydrology. Water Resources
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+ Publications.
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+ <li>
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+ Liaw, S.C., 1988. Streamflow Simulation Using a Physically Based Hydrologic
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+ Model in Humid Forested Watersheds. Dissertation, Colorado State University,
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+ CO. p163.
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+</ul>
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<h2>SEE ALSO</h2>
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@@ -156,9 +157,10 @@ CO. p163.
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<h2>AUTHORS</h2>
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-<a href="mailto:grass4u@gmail com">Huidae Cho</a><br>
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+<a href="mailto:grass4u@gmail com">Huidae Cho</a>,
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Hydro Laboratory, Kyungpook National University, South Korea
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<p>
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Based on TMOD9502.FOR by Keith Beven.
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-<p><i>Last changed: $Date$</i>
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+<p>
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+<i>Last changed: $Date$</i>
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Martin Landa