maphew · November 7, 2017 23:11
diff --git a/ANUDEM-references.txt b/ANUDEM-references.txt
 # REFERENCES

 Bolstad, P.V. and Stowe, T. 1994.  An evaluation of DEM accuracy: elevation, slope and aspect. 
 Photogrammetric Engineering and Remote Sensing 60: 1327-1332. 

 Garbrecht, J. and Starks, P. 1995.  Note on the use of USGS level 1 7.5-minute DEM coverages for  landscape  drainage  analyses.   
 Photogrammetric  Engineering  and  Remote  Sensing 61:  519-522.

 Giles, P.T. and Franklin, S.E. 1996.  Comparison of derivative topographic surfaces of a DEM generated  from  stereographic  SPOT  images  with  field  measurements.   
 Photogrammetric Engineering and Remote Sensing 62: 1165-1171.

 Hunter, G.J. and Goodchild, M.F. 1995.  Dealing with error in spatial databases: a simple case study. 
 Photogrammetric Engineering and Remote Sensing 61: 529-537.

 Hutchinson,  M.F.  1988.    Calculation  of  hydrologically  sound  digital  elevation  models.  
 Proceedings of the Third International Symposium on Spatial Data Handling, August 17-19, Sydney.
 International Geographical Union, Columbus, Ohio, pp 117-133.

 Hutchinson,  M.F.  1989.  A  new  method  for  gridding  elevation  and  streamline  data  with automatic removal of pits.  
 Journal of Hydrology 106: 211-232.

 Hutchinson, M. F. 1996.  A locally adaptive approach to the interpolation of digital elevation models.   
 Third  International  Conference/Workshop  on  Integrating  GIS  and  Environmental Modeling. 
 NCGIA, University of California, Santa Barbara 
 http://www1.gsi.go.jp/geowww/globalmap-gsi/gtopo30/papers/local.html.

 Hutchinson,  M.F.  2000.    Optimising  the  degree  of  data smoothing  for  locally  adaptive  finite element  bivariate  smoothing  splines. 
 Australian  &  New  Zealand  Industrial  and  Applied Mathematics Journal 42(E): C774-C796.

 Hutchinson,  M.F.  2008.  Adding  the  Z-dimension.
 In:  Wilson,  J.P.  and  Fotheringham,  A.S. (eds), 
 Handbook of Geographic Information Science. Blackwell, pp 144-168.

 Hutchinson, M. F. and Dowling, T. I. 1991.  A continental hydrological assessment of a new grid-based digital elevation model of Australia.  
 Hydrological Processes 5: 45-58.

 Hutchinson,  M.  F.  and  Gallant,  J.  C.  1999.    Representation  of  terrain.   
 In:  Geographical Information  Systems:  Principles,  Technical  Issues,  Management  Issues  and  Applications.  Second  Edition. 
 Edited  by  Longley,  P.A.,  Goodchild,  M.F.,  Maguire,  D.J.  and  Rhind,  D.W. Wiley, New York, Chapter 9, pp 105-124.

 Hutchinson,  M.F.  and  Gallant,  J.C.  2000.  Digital  elevation  models  and  representation  of terrain  shape.
 In:  Wilson,J.P.  and  Gallant,J.C.  (eds), Terrain  Analysis:  Principles  and Applications, Wiley, New York, 
 Chapter 2, pp 29-50.

 ANU  Fenner  School  of  Environment and Society and Geoscience Australia 2008.
 Geodata 9 Second Digital Elevation Model Version 3 and Flow Direction Grid, User Guide. 
 Geoscience Australia.
 https://www.ga.gov.au/image_cache/GA11644.pdf

 Jenson, S. K. and Domingue, J. O. 1988.  Extracting topographic structure from digital elevation data  for  geographic  information  system  analysis.   
 Photogrammetric  Engineering  and  Remote Sensing 54: 1593-1600.
	# REFERENCES

	Bolstad, P.V. and Stowe, T. 1994. An evaluation of DEM accuracy: elevation, slope and aspect.
	Photogrammetric Engineering and Remote Sensing 60: 1327-1332.

	Garbrecht, J. and Starks, P. 1995. Note on the use of USGS level 1 7.5-minute DEM coverages for landscape drainage analyses.
	Photogrammetric Engineering and Remote Sensing 61: 519-522.

	Giles, P.T. and Franklin, S.E. 1996. Comparison of derivative topographic surfaces of a DEM generated from stereographic SPOT images with field measurements.
	Photogrammetric Engineering and Remote Sensing 62: 1165-1171.

	Hunter, G.J. and Goodchild, M.F. 1995. Dealing with error in spatial databases: a simple case study.
	Photogrammetric Engineering and Remote Sensing 61: 529-537.

	Hutchinson, M.F. 1988. Calculation of hydrologically sound digital elevation models.
	Proceedings of the Third International Symposium on Spatial Data Handling, August 17-19, Sydney.
	International Geographical Union, Columbus, Ohio, pp 117-133.

	Hutchinson, M.F. 1989. A new method for gridding elevation and streamline data with automatic removal of pits.
	Journal of Hydrology 106: 211-232.

	Hutchinson, M. F. 1996. A locally adaptive approach to the interpolation of digital elevation models.
	Third International Conference/Workshop on Integrating GIS and Environmental Modeling.
	NCGIA, University of California, Santa Barbara
	http://www1.gsi.go.jp/geowww/globalmap-gsi/gtopo30/papers/local.html.

	Hutchinson, M.F. 2000. Optimising the degree of data smoothing for locally adaptive finite element bivariate smoothing splines.
	Australian & New Zealand Industrial and Applied Mathematics Journal 42(E): C774-C796.

	Hutchinson, M.F. 2008. Adding the Z-dimension.
	In: Wilson, J.P. and Fotheringham, A.S. (eds),
	Handbook of Geographic Information Science. Blackwell, pp 144-168.

	Hutchinson, M. F. and Dowling, T. I. 1991. A continental hydrological assessment of a new grid-based digital elevation model of Australia.
	Hydrological Processes 5: 45-58.

	Hutchinson, M. F. and Gallant, J. C. 1999. Representation of terrain.
	In: Geographical Information Systems: Principles, Technical Issues, Management Issues and Applications. Second Edition.
	Edited by Longley, P.A., Goodchild, M.F., Maguire, D.J. and Rhind, D.W. Wiley, New York, Chapter 9, pp 105-124.

	Hutchinson, M.F. and Gallant, J.C. 2000. Digital elevation models and representation of terrain shape.
	In: Wilson,J.P. and Gallant,J.C. (eds), Terrain Analysis: Principles and Applications, Wiley, New York,
	Chapter 2, pp 29-50.

	ANU Fenner School of Environment and Society and Geoscience Australia 2008.
	Geodata 9 Second Digital Elevation Model Version 3 and Flow Direction Grid, User Guide.
	Geoscience Australia.
	https://www.ga.gov.au/image_cache/GA11644.pdf

	Jenson, S. K. and Domingue, J. O. 1988. Extracting topographic structure from digital elevation data for geographic information system analysis.
	Photogrammetric Engineering and Remote Sensing 54: 1593-1600.