fix links pointing to skagit

git-svn-id: https://svn.osgeo.org/grass/grass/trunk@59257 15284696-431f-4ddb-bdfa-cd5b030d7da7

raster/r.carve/README

@@ -1,4 +1,4 @@
-http://skagit.meas.ncsu.edu/~helena/gmslab/reports/cerl99/rep99.html
+http://www4.ncsu.edu/~hmitaso/gmslab/reports/cerl99/rep99.html
 Terrain modeling and Soil Erosion Simulations for Fort Hood and Fort Polk
 test areas
 
@@ -21,7 +21,7 @@ Helena Mitasova, Lubos Mitas, William M. Brown, Douglas M. Johnston
 r.carve does not create a depressionless DEM because many depressions are in
 flat areas and not in the streams.
 
-http://skagit.meas.ncsu.edu/~helena/gmslab/reports/cerl99/demstr.gif
+http://www4.ncsu.edu/~hmitaso/gmslab/reports/cerl99/demstr.gif
                                                                                 
 The program will take the vector stream data, transform them to raster, and
 subtracts a defaultdepth + additionaldepth from the DEM. If the given 

raster/r.carve/r.carve.html

@@ -31,7 +31,7 @@ but this was the intention.
 
 <h2>REFERENCES</h2>
 
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/reports/cerl99/rep99.html">Terrain
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/reports/cerl99/rep99.html">Terrain
 modeling and Soil Erosion Simulations for Fort Hood and Fort Polk test
 areas</a>, by Helena Mitasova, Lubos Mitas, William M. Brown, Douglas
 M.  Johnston, GMSL (Report for CERL 1999)

raster/r.flow/r.flow.html

@@ -1,8 +1,8 @@
 <h2>DESCRIPTION</h2>
 
 This program generates flowlines using a combined raster-vector
-approach (see <a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/hmg.rev1.ps">Mitasova and
-Hofierka 1993</a> and <a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/ijgis.html">Mitasova et
+approach (see <a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/hmg.rev1.ps">Mitasova and
+Hofierka 1993</a> and <a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/ijgis.html">Mitasova et
 al. 1995</a>) from an input elevation raster map <b>elevation</b>
 (integer or floating point), and optionally an input aspect raster map
 <b>aspect</b> and/or an input barrier raster map <b>barrier</b>. There are
@@ -143,11 +143,11 @@ error is larger than one of the dimensions. Resample the map and try again.
 
 <p>Mitasova, H., L. Mitas, 1993, Interpolation by regularized spline with
 tension : I. Theory and implementation. Mathematical Geology 25, p. 641-655.
-(<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/lmg.rev1.ps">online</a>)
+(<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/lmg.rev1.ps">online</a>)
 
 <p>Mitasova and Hofierka 1993 : Interpolation by Regularized Spline with
 Tension: II. Application to Terrain Modeling and Surface Geometry Analysis.
-Mathematical Geology 25(6), 657-669. (<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/hmg.rev1.ps">online</a>)
+Mathematical Geology 25(6), 657-669. (<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/hmg.rev1.ps">online</a>)
 
 <p>Mitasova, H., Mitas, L., Brown, W.M., Gerdes, D.P., Kosinovsky, I.,
 Baker, T., 1995: Modeling spatially and temporally distributed phenomena:
@@ -183,7 +183,7 @@ Slovakia,
 <p><i>The current version of the program (adapted for GRASS5.0)</i>:
 <br>Joshua Caplan, Mark Ruesink, Helena Mitasova, University of Illinois
 at Urbana-Champaign with support from USA CERL.<br>
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/">GMSL/University of Illinois at 
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/">GMSL/University of Illinois at 
 Urbana-Champaign</a>
 
 <p><i>Last changed: $Date$</i>

raster/r.terraflow/r.terraflow.html

@@ -221,7 +221,7 @@ r.terraflow elev=elevation.10m filled=elevation10m.filled \
        
   <dt>Porting for GRASS, 2002:
     <dd> <a href="http://www.daimi.au.dk/~large/">Lars Arge</a>,
-	     <a href="http://skagit.meas.ncsu.edu/~helena/index.html">Helena Mitasova,</a>
+	     <a href="http://www4.ncsu.edu/~hmitaso/index.html">Helena Mitasova,</a>
 		 <a href="http://www.bowdoin.edu/~ltoma/">Laura Toma</a>. 
 	   
 	<dt>Contact: <a href="mailto:ltoma@bowdoin.edu "> Laura Toma</a></dt>

raster/r.watershed/front/r.watershed.html

@@ -462,8 +462,8 @@ Kinner D., Mitasova H., Harmon R., Toma L., Stallard R. (2005).
 <i>GIS-based Stream Network Analysis for The Chagres River Basin,
 Republic of Panama</i>. <b>The Rio Chagres: A Multidisciplinary Profile of
 a Tropical Watershed</b>, R. Harmon (Ed.), Springer/Kluwer, p.83-95.<br>
-URL: <a href="http://skagit.meas.ncsu.edu/%7Ehelena/measwork/panama/panama.html">
-http://skagit.meas.ncsu.edu/~helena/measwork/panama/panama.html</a>
+URL: <a href="http://www4.ncsu.edu/~hmitaso/measwork/panama/panama.html">
+http://www4.ncsu.edu/~hmitaso/measwork/panama/panama.html</a>
 
 <p>
 McCool et al. (1987). <i>Revised Slope Steepness Factor for the Universal

raster/simwe/r.sim.sediment/r.sim.sediment.html

@@ -70,7 +70,7 @@ csthaxto@unity.ncsu.edu</a></address>
 <h2>
 REFERENCES</h2>
 <p>
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/II.6.8_Mitasova_044.pdf">
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/II.6.8_Mitasova_044.pdf">
 Mitasova, H., Thaxton, C., Hofierka, J., McLaughlin, R., Moore, A., Mitas L., 2004,</a>
 Path sampling method for modeling overland water flow, sediment transport
 and short term terrain evolution in Open Source GIS.
@@ -78,7 +78,7 @@ In: C.T. Miller, M.W. Farthing, V.G. Gray, G.F. Pinder eds.,
 Proceedings of the XVth International Conference on Computational Methods in Water
 Resources (CMWR XV), June 13-17 2004, Chapel Hill, NC, USA, Elsevier, pp. 1479-1490.
 <p>
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/gisc00/duality.html">
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/gisc00/duality.html">
 Mitasova H, Mitas, L., 2000, Modeling spatial processes in multiscale framework: 
 exploring duality between particles and fields, </a>
 plenary talk at GIScience2000 conference, Savannah, GA.
@@ -86,7 +86,7 @@ plenary talk at GIScience2000 conference, Savannah, GA.
 Mitas, L., and Mitasova, H., 1998, Distributed soil erosion simulation
 for effective erosion prevention. Water Resources Research, 34(3), 505-516.
 <p>
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/LLEmiterev1.pdf">
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/LLEmiterev1.pdf">
  Mitasova, H., Mitas, L., 2001, Multiscale soil erosion simulations for land use management, </a>
 In: Landscape erosion and landscape evolution modeling, Harmon R. and Doe W. eds.,
 Kluwer Academic/Plenum Publishers, pp. 321-347.

raster/simwe/r.sim.water/r.sim.water.html

@@ -21,7 +21,7 @@ to determine the direction and magnitude of water flow velocity. To include a
 predefined direction of flow, map algebra can be used to replace terrain-derived
 partial derivatives with pre-defined partial derivatives in selected grid cells such 
 as man-made channels, ditches or culverts. Equations (2) and (3) from 
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/reports/cerl99/rep99.html">this report</a>
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/reports/cerl99/rep99.html">this report</a>
 can be used to compute partial derivates of the predefined flow using its direction given
 by aspect and slope.
 
@@ -192,7 +192,7 @@ North Carolina State University<br>
 
 <ul>
 <li> Mitasova, H., Thaxton, C., Hofierka, J., McLaughlin, R., Moore, A., Mitas L., 2004,
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/II.6.8_Mitasova_044.pdf">
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/II.6.8_Mitasova_044.pdf">
 Path sampling method for modeling overland water flow, sediment transport 
 and short term terrain evolution in Open Source GIS.</a>  
 In: C.T. Miller, M.W. Farthing, V.G. Gray, G.F. Pinder eds., 
@@ -200,7 +200,7 @@ Proceedings of the XVth International Conference on Computational Methods in Wat
 Resources (CMWR XV), June 13-17 2004, Chapel Hill, NC, USA, Elsevier, pp. 1479-1490.
 
 <li> Mitasova H, Mitas, L., 2000,
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/gisc00/duality.html">Modeling spatial
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/gisc00/duality.html">Modeling spatial
 processes in multiscale framework: exploring duality between particles and fields,</a>
 plenary talk at GIScience2000 conference, Savannah, GA. 
 
@@ -208,7 +208,7 @@ plenary talk at GIScience2000 conference, Savannah, GA.
 for effective erosion prevention. Water Resources Research, 34(3), 505-516.
 
 <li> Mitasova, H., Mitas, L., 2001,
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/LLEmiterev1.pdf">
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/LLEmiterev1.pdf">
 Multiscale soil erosion simulations for land use management,</a>
 In: Landscape erosion and landscape evolution modeling, Harmon R. and Doe W. eds., 
 Kluwer Academic/Plenum Publishers, pp. 321-347.

scripts/r.fillnulls/r.fillnulls.html

@@ -91,11 +91,11 @@ phenomena: New methods and tools for GRASS GIS. <i>International Journal of
 GIS</i>, 9 (4), special issue on Integrating GIS and Environmental modeling,
 433-446.
 
-<li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/lmg.rev1.ps">Mitasova H.
+<li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/lmg.rev1.ps">Mitasova H.
 and Mitas L. 1993</a>: Interpolation by Regularized Spline with Tension: I.
 Theory and Implementation, <i>Mathematical Geology</i> 25, 641-655.
 
-<li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/hmg.rev1.ps">Mitasova H.
+<li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/hmg.rev1.ps">Mitasova H.
 and Hofierka L. 1993</a>: Interpolation by Regularized Spline with Tension:
 II. Application to Terrain Modeling and Surface Geometry Analysis,
 <i>Mathematical Geology</i> 25, 657-667.

vector/v.surf.rst/v.surf.rst.html

@@ -100,7 +100,7 @@ Topographic parameters are computed directly from the approximation
 function so that the important relationships between these parameters
 are preserved. The equations for computation of these parameters and
 their interpretation is described in
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/hmg.rev1.ps">Mitasova and Hofierka, 1993</a>
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/hmg.rev1.ps">Mitasova and Hofierka, 1993</a>
 or Neteler and Mitasova, 2004).
 Slopes and aspect are computed in degrees (0-90 and 1-360 respectively).
 The aspect raster map has value 0 assigned to flat areas (with slope less
@@ -324,12 +324,12 @@ d.vect elevrand where="value > 1300"
 <h2> REFERENCES</h2>
 
 <ul>
-  <li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/IEEEGRSL2005.pdf">
+  <li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/IEEEGRSL2005.pdf">
       Mitasova, H., Mitas, L. and Harmon, R.S., 2005,</a> 
     Simultaneous spline approximation and topographic analysis for
     lidar elevation data in open source GIS, IEEE GRSL 2 (4), 375- 379.</li>
   <li>Hofierka, J., 2005, Interpolation of Radioactivity Data Using Regularized Spline with Tension. Applied GIS, Vol. 1, No. 2, pp. 16-01 to 16-13. DOI: 10.2104/ag050016</li>
-  <li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/TGIS2002_Hofierka_et_al.pdf">
+  <li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/TGIS2002_Hofierka_et_al.pdf">
       Hofierka J., Parajka J., Mitasova H., Mitas L., 2002,</a> Multivariate
     Interpolation of Precipitation Using Regularized Spline with Tension.
     Transactions in GIS 6(2), pp. 135-150.</li>
@@ -337,15 +337,15 @@ d.vect elevrand where="value > 1300"
     spatially and temporally distributed phenomena: New methods and tools for
     GRASS GIS. International Journal of GIS, 9 (4), special issue on Integrating
     GIS and Environmental modeling, 433-446.</li>
-  <li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/MG-I-93.pdf">
+  <li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/MG-I-93.pdf">
       Mitasova, H. and Mitas, L., 1993</a>: 
     Interpolation by Regularized Spline with Tension: 
     I. Theory and Implementation, Mathematical Geology ,25, 641-655.</li>
-  <li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/MG-II-93.pdf">
+  <li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/MG-II-93.pdf">
       Mitasova, H. and Hofierka, J., 1993</a>: Interpolation
     by Regularized Spline with Tension: II. Application to Terrain Modeling
     and Surface Geometry Analysis, Mathematical Geology 25, 657-667.</li>
-  <li><a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/CMA1988.pdf">
+  <li><a href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/CMA1988.pdf">
       Mitas, L., and Mitasova H., 1988, </a> General variational approach to the approximation
     problem, Computers and Mathematics with Applications, v.16, p. 983-992.</li>
   <li><a href="http://www.grassbook.org">
@@ -368,8 +368,8 @@ d.vect elevrand where="value > 1300"
 
 <p>
 For examples of applications see
-<a href="http://skagit.meas.ncsu.edu/~helena/gmslab/">GRASS4 implementation</a> and
-<a href="http://skagit.meas.ncsu.edu/~helena/">GRASS5 and GRASS6 implementation</a>.
+<a href="http://www4.ncsu.edu/~hmitaso/gmslab/">GRASS4 implementation</a> and
+<a href="http://www4.ncsu.edu/~hmitaso/">GRASS5 and GRASS6 implementation</a>.
 
 <h2>AUTHORS</h2>
 

vector/v.vol.rst/v.vol.rst.html

@@ -230,13 +230,13 @@ chosen (e.g. defaults) are appropriate.
 Interpolation of Precipitation Using Regularized Spline with Tension.
 Transactions in
 GIS  6, pp. 135-150. 
-<p><a href="http://skagit.meas.ncsu.edu/%7Ehelena/gmslab/">Mitas, L.,
+<p><a href="http://www4.ncsu.edu/~hmitaso/gmslab/">Mitas, L.,
 Mitasova, H.</a>, 1999, Spatial Interpolation. In: P.Longley, M.F.
 Goodchild, D.J. Maguire, D.W.Rhind (Eds.), Geographical Information
 Systems: Principles, Techniques, Management and Applications, Wiley,
 pp.481-492 
 <p>Mitas L., Brown W. M., Mitasova H., 1997, <a
- href="http://skagit.meas.ncsu.edu/%7Ehelena/gmslab/lcgfin/cg-mitas.html">Role
+ href="http://www4.ncsu.edu/~hmitaso/gmslab/lcgfin/cg-mitas.html">Role
 of dynamic cartography in simulations of landscape processes based on
 multi-variate fields.</a> Computers and Geosciences, Vol. 23, No. 4,
 pp. 437-446 (includes CDROM and WWW: www.elsevier.nl/locate/cgvis) 
@@ -248,15 +248,15 @@ New methods and tools for GRASS GIS. International Journal of GIS, 9
 special issue on Integrating GIS and Environmental modeling, 433-446. 
 <p> Mitasova, H., Mitas, L., Brown, B., Kosinovsky, I., Baker, T.,
 Gerdes, D. (1994): <a
- href="http://skagit.meas.ncsu.edu/%7Ehelena/gmslab/viz/ches.html">Multidimensional
+ href="http://www4.ncsu.edu/~hmitaso/gmslab/viz/ches.html">Multidimensional
 interpolation and visualization in GRASS GIS</a> 
 <p><a
- href="http://skagit.meas.ncsu.edu/%7Ehelena/gmslab/papers/lmg.rev1.ps">Mitasova
+ href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/lmg.rev1.ps">Mitasova
 H. and Mitas L. 1993</a>: Interpolation by Regularized Spline with
 Tension: I. Theory and Implementation, <i>Mathematical Geology</i> 25,
 641-655. 
 <p><a
- href="http://skagit.meas.ncsu.edu/%7Ehelena/gmslab/papers/hmg.rev1.ps">Mitasova
+ href="http://www4.ncsu.edu/~hmitaso/gmslab/papers/hmg.rev1.ps">Mitasova
 H. and Hofierka J. 1993</a>: Interpolation by Regularized Spline with
 Tension: II. Application to Terrain Modeling and Surface Geometry
 Analysis, <i>Mathematical Geology</i> 25, 657-667.