Email: miliaresis.g@gmail - Research Development Officerdo.upatras.gr/v1/public/files/885/file242.pdf · Email: [email protected] ... Terrain analysis and Hydrology as well as

20/01/2012 Curriculum Vitae 1 / 28

Dr George Ch. MiliaresisInterests: Terrain Modeling,

Spectral Mapping, EnvironmetricsEmail: [email protected]

Web: http://miliaresis.tripod.co m

Memberships

o Professional member, Remote Sensing & Photogrammetry Society (RSPS 1821). o Lifetime membership to the Int. Society for Mathematical Geology, (IAMG 1713).o Member of the American Geophysical Union, (GU 107-32-805).

Professional appointments

o Sultan Qaboos University, Sultanate of Oman, 2011- 2012, o Geology Dpt., University of Patras, Greece, 2004 2010, o Dpt. of Topography, Technological Institute of Athens, Greece 2001 2004

Education

PhD in Remote Sensing and Terrain Pattern Recognition, National Technical University of Athens, Department of Topography (2000). Thesis Recognition of Landforms from DEMs and Satellite Imagery with Expert Systems, Pattern Recognition & Image Processing.

Diploma in Geology, National University of Athens, Department of Geology (1988).

Distinctions

(Hottest article is determined by Elsevier on the basis of the number of downloads)

1. Reviewer Remote Sensing of Environment, Photogrammetric Engineering &

Remote Sensing, Int. Journal of Remote Sensing, CATENA, Computer &

Geosciences, Geomorphology, Spatial Science, Journal of Stochastic Environmental

Research & Risk Assessment, Environmental Earth Sciences.

2. [2010-2012]: Member of the editorial board of the Remote Sensing Letters

published by the Remote Sensing & Photogrammetry Society, [Taylor & Francis:

http://www.tandf.co.uk/journals/trsl].

mailto:[email protected]://miliaresis.tripod.com/http://miliaresis.tripod.co/


3. [2010-2012]: Participant in Z-Earth mission (disaster monitoring )

4. [2005-2010]: among the 50 top-cited authors of

Elsevier for Computers & Geosciences

5. [12-14/11 2007] Scientific Committee of ESA 2nd

Workshop: SPACE for Hydrology Geneva,

(HYDROSPACE 07)

6. [October-Dec. 2007]: in the top 25 (21) hottest

articles for Computers & Geosciences

7. [July-Sept. 2007]: in the top 25 (6) hottest articles

for Computers & Geosciences

8. [2007-2012]: Participant in SWOT (surface water

ocean topography mission)

9. [23-25/11/2006]: keynote speaker Int. Symp. on Terrain Analysis & Digital Terrain

Modelling, Nanjing, China

10. [July -Sep. 2005]: in the top 25 (17) hottest articles for Int.J of Applied Earth

Observation & Geoinformation

11. [April-June 2005]: in the top 25 (5) hottest articles for Int.J of Applied Earth

Observation & Geoinformation

Teaching Statemento Undergraduate courses in GIS, Remote Sensing, Geomorphometry, Thematic

mapping from modern imagery, Terrain analysis and Hydrology as well as

o Postgraduate courses in

a) digital elevation models, terrain modeling and spatial decision making,

b) geoinformation for natural hazards mapping, monitoring and modeling,

c) environmetrics from the global data (LST, SST, SRTM, Globcover, Corine,

etc.),

d) biophysical mapping & crisis monitoring from modern multi-temporal

imagery.

http://xa.yimg.com/kq/groups/428396/2139259263/name/ZEarth_postdoc_position.pdfhttp://xa.yimg.com/kq/groups/428396/2139259263/name/ZEarth_postdoc_position.pdf


The lab exercises (detailed instructions in pdf for labs, notes and data) for the courses below are

available from my web page http://miliaresis.tripod.com. More specifically:

In English

Notes & Labs Floods & fires: [Ilia, Attica], Terrain VisualizationGlobal datasets & Imagery-DEMs

Remote Sensing & Terrain bio-pattern

Web Maps Geology Geoid Gcover nvironmetrics 7-4-2 3-2-1

DEM-X GMTED SRTM ASTER Anaglyph Panorama Flightspectral Maps: single multi regional ALI Pan day night

Microwave imagery L -band C - band

In Greek

Notes & Labs Remote Sensing, G.I.S & ArcGIS, H ydrology Photo - interpretation , Environmental Training

Web Maps DEM Earthquakes Landsat Geology

Programming

I am author of GeoLogic Shell (terrain modelling & GIS) that is distributed from the

Int. Assoc. for Mathematical Geology (Links to Program Code for Computers &

Geosciences) More specifically:

1. http://www.iamg.org/documents/oldftp/VOL33/v33-08-07.zip

2. http://www.iamg.org/documents/oldftp/VOL25/v25-7-1.zip

3. http://www.iamg.org/documents/oldftp/VOL25/v25-7-1.tar.Z

Software environments used in teaching and in research includes:

commercial software: IDRISI & Global Mapper, MatLab & SPSSERDAS-IMAGINE , ARCGIS & ENVI

open source software environmentsGrass Quantu

mIlwisSaga

Fuzme

GMTSADA

MapWinOSGeo-Live

Portable-GIS

ESA-SAR TboxRadar

Altimetry PHOTOmod

Beam

MultiSpec Opticks

GeoToolsMaptoolsWorldWin

d

MicroDEM Whitebox/TAS

River bathymetry

Surface openlayers

tools LandSerf TecDEM

Basins AGWA

http://www.iamg.org/documents/oldftp/VOL25/v25-7-1.tar.Zhttp://www.iamg.org/documents/oldftp/VOL25/v25-7-1.ziphttp://www.iamg.org/documents/oldftp/VOL33/v33-08-07.ziphttp://www.iamg.org/index.php/publisher/articleview/frmArticleID/112/http://www.iamg.org/index.php/publisher/articleview/frmArticleID/112/http://openlayers.org/https://dl.dropbox.com/u/13604252/_gr/rs_net/_REMOTE_SENSING3.HTMhttps://dl.dropbox.com/u/13604252/_gr/attikiweb/attiki.htmhttps://dl.dropbox.com/u/13604252/_gr/crisisweb/crisis0.htmhttps://dl.dropbox.com/u/13604252/_gr/crisisweb/floods.htmhttps://dl.dropbox.com/u/13604252/SQU/data/data.htmlhttp://dl.dropbox.com/u/13604252/_eng/ENG_GIS/_EN_GIS.HTMhttp://dl.dropbox.com/u/13604252/_eng/ENG_GIS/_EN_GIS.HTMhttp://www.epa.gov/nerlesd1/land-sci/agwa/http://water.epa.gov/scitech/datait/models/basins/index.cfmhttp://www.rsg.tu-freiberg.de/twiki/bin/view/Main/TecDEMhttp://www.soi.city.ac.uk/~jwo/landserf/http://www.jennessent.com/arcgis/surface_area.htmhttp://www.jennessent.com/arcgis/surface_area.htmhttp://essa.com/tools/RBT/http://essa.com/tools/RBT/http://www.uoguelph.ca/~hydrogeo/Whitebox/index.htmlhttp://www.usna.edu/Users/oceano/pguth/website/microdem/microdem.htmhttp://worldwind.arc.nasa.gov/java/http://worldwind.arc.nasa.gov/java/http://maptools.org/http://geotools.org/http://opticks.org/confluence/display/opticks/Welcome+To+Opticks;jsessionid=5F3B717D45268802E769F32E107F9412https://engineering.purdue.edu/~biehl/MultiSpec/http://www.brockmann-consult.de/cms/web/beam/http://www.racurs.ru/?page=279http://earth.eo.esa.int/brat/html/data/toolbox_en.htmlhttp://earth.eo.esa.int/brat/html/data/toolbox_en.htmlhttp://nest.array.ca/web/nest;jsessionid=1CE566E3E3E63FB8CA9037106264CC1Dhttp://nest.array.ca/web/nest;jsessionid=1CE566E3E3E63FB8CA9037106264CC1Dhttp://www.archaeogeek.com/blog/portable-gis/http://www.archaeogeek.com/blog/portable-gis/http://live.osgeo.org/en/index.htmlhttp://www.mapwindow.org/http://www.tiem.utk.edu/~sada/index.shtmlhttp://gmt.soest.hawaii.edu/http://www.usyd.edu.au/agriculture/acpa/software/fuzme.shtmlhttp://www.saga-gis.org/en/index.htmlhttp://www.ilwis.org/http://qgis.org/http://qgis.org/http://grass.fbk.eu/http://www.exelisvis.com/language/en-us/productsservices/envi.aspxhttp://www.esri.com/software/arcgis/index.htmlhttp://www.erdas.com/products/ERDASIMAGINE/ERDASIMAGINE/Details.aspxhttp://spss.en.softonic.com/http://www.mathworks.com/products/matlab/index.htmlhttp://www.globalmapper.com/http://www.clarklabs.org/https://dl.dropbox.com/u/13604252/_maps/map3/geo.htmlhttps://dl.dropbox.com/u/13604252/_maps/map5/satmap.htmlhttps://dl.dropbox.com/u/13604252/_maps/map2/Seismo.htmlhttps://dl.dropbox.com/u/13604252/_maps/map1/DEM.htmlhttps://dl.dropbox.com/u/13604252/_gr/Perivalon/Peribalon.HTMhttps://dl.dropbox.com/u/13604252/_gr/rs_net/_course_structure.htmhttps://dl.dropbox.com/u/13604252/_gr/rs_net/_course_structure.htmhttps://dl.dropbox.com/u/13604252/_gr/rs_net/_course_structure.htmhttps://dl.dropbox.com/u/13604252/_gr/HYD/HYDROLOGY.HTMhttps://dl.dropbox.com/u/13604252/_gr/HYD/HYDROLOGY.HTMhttps://dl.dropbox.com/u/13604252/_gr/ARCGIS/ARCGIS2.HTMhttps://dl.dropbox.com/u/13604252/_gr/gis/GIS.HTMhttps://dl.dropbox.com/u/13604252/_gr/rs_net/_REMOTE_SENSING.HTMhttps://dl.dropbox.com/u/13604252/_maps/radar2/sar.htmlhttps://dl.dropbox.com/u/13604252/_maps/radar2/sar.htmlhttps://dl.dropbox.com/u/13604252/_maps/radar2/sar.htmlhttps://dl.dropbox.com/u/13604252/_maps/radar1/sar.htmlhttps://dl.dropbox.com/u/13604252/_maps/radar1/sar.htmlhttps://dl.dropbox.com/u/13604252/_maps/radar4/sar.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_hyp1/hyp.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_hyp2/hyp.htmlhttps://dl.dropbox.com/u/13604252/_maps/omalipan/ali.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_ali/ali.htmlhttps://dl.dropbox.com/u/13604252/_maps/omanchr2/ali.htmlhttps://dl.dropbox.com/u/13604252/_maps/omanchr/ali.htmlhttps://dl.dropbox.com/u/13604252/_maps/omanmap/ali.htmlhttps://dl.dropbox.com/u/13604252/_maps/stereo/fly.htmlhttps://dl.dropbox.com/u/13604252/_maps/stereo/pano.htmlhttps://dl.dropbox.com/u/13604252/_maps/stereo/oman_ana2/anag.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman5/DEM30.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman2/DEM.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman1/DEM.htmlhttps://dl.dropbox.com/u/13604252/_maps/SRTM_X/dem.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_tcol/etm.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman7/etm.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_env/ali.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman4/gcover.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman4/gcover.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman4/gcover.htmlhttps://dl.dropbox.com/u/13604252/_maps/egm96/egm96.htmlhttps://dl.dropbox.com/u/13604252/_maps/egm96/egm96.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_geo/omangeo.htmlhttps://dl.dropbox.com/u/13604252/_maps/oman_geo/omangeo.htmlhttps://dl.dropbox.com/u/13604252/SQU/data/data2.htmlhttp://dl.dropbox.com/u/13604252/_eng/ENG_THL/_EN_RES.HTMhttp://dl.dropbox.com/u/13604252/_eng/ENG_THL/_EN_RES.HTMhttp://miliaresis.tripod.com/


Research Statement

Earth is composed from many regions of diverse geology, relief, landcover and biophysical conditions. The quantification of the knowledge related to the various regions is a key factor in an attempt to characterize the landscape, assess the sensitivity to natural hazards and support environmental analysis and planning in a changing world, at a moderate resolution scale. Such an effort could assist among others environmentrics, terrain analysis & applied geology.

o Topography is the manifestation of diverse endogenic and exogenic geologic processes that are dynamic and thus continually shape our planet. Examples being crustal deformation due to earthquakes, landslides, volcanoes, river flooding, glaciers and ice sheets melting. Geological processes monitoring requires regularly repeated acquisition of accurate, high-resolution topographic information. The rapid growth in the availability of Digital Elevation Models (DEMs) such as the SRTM and TerraSAR-X, ALOS, ASTER, SPOT, ICESat and CryoSat Satellite Missions and airborne laser altimetry/scanning (LiDAR), provided a way to look at our planet with an unprecedented detail. Accordingly, digital elevation models (DEMs) are freely available through the Internet at a global coverage.

o Biophysical parameters including landcover, land surface temperature (LST), tree canopy density etc, are of great importance in assessing environmental change. Modern operational space-borne sensors with spectral sensitivity in the thermal infra-red spectrum, allow monitoring of the Earths thermal field at a moderate spatial resolution. Thermal imagery products are available on regular and frequent basis for both land and oceans. Data availability stimulates the analysis of the long time series of multi-temporal images in an attempt to closely monitor regions and provide information about environmental changes.

o A variety of quantitative techniques has been developed to automate the extraction of terrain features from DEMs. Terrain modelling includes segmentation to elementary objects, parametric representation-classification of objects on the basis of their spatial 3-dimensional arrangement. Terrain analysis was benefited by the advances in terrain modelling that gave rise to the digital terrain analysis (DTA) aiming to terrain evaluation and environmental analysis.

My research aims to

o The invention of new methods for a) terrain segmentation of geologic and geomorphologic features from DEMs, b) terrain pattern recognition.

o The incorporation of biophysical data in the terrain modelling working chain, by integrating LST, landcover etc. in the parametric representation of the terrain objects in an attempt to reveal the environmental diversity and derive their multi-temporal biophysical signature,

o The incorporation of multi-temporal DEMs analysis in the terrain analysis processing chain in order to allow geologic/geomorphologic processes recognition


and quantification in attempt to extrapolate terrain knowledge either to the past or to the future.

o Geologic and biophysical (hyperspectral) mapping from modern imagery, Climatic change assessment, Terrain evaluation for site selection. For example: volcanism and geothermal activity monitoring from LST/SST data, geothermal fields reconnaissance terrain modeling of volcanic terrains.

o Topographic and base mapping, thematic mapping from modern imagery, building reconstruction from LiDAR datasets, design of spatial databases, spatial decision making.

Publications

PaperStatistics

National Technical University of Athens

Technological In-stitute of Athens

University of Patras

SQU

96 97 98 99 00 01 02 03 04 05 06 07 08 09 10 11 12

Periodicals 28 1 1 2 1 2 2 1 2 1 4 2 6 3

Books 3 2 1

Chapters 3 1 1 1

Conferences 30 1 2 2 4 3 2 2 2 3 3 3 1 1 1

Posters 4 1 1 1 1

Others 1 1

InGR

Journal 1 1

Conference 9 2 3 1 2 1

Abstract 3 1 1 1

Statistics 82 1 2 2 7 5 8 4 5 8 3 6 7 4 7 3 7 3

Journals

1. Miliaresis G., 2012. Elevation, latitude and longitude decorrelation stretch of multi-temporal near-diurnal LST imagery. Int. J. of Remote Sensing. (accepted).

2. Miliaresis, 2012. Selective variance reduction of multi-temporal LST imagery in the East Africa Rift System. Earth Science Informatics, 5(1), 12 pages, doi: 10.1007/s12145-011-0091-6 [to appear in March 2012].

3. Miliaresis G., 2012. Elevation, latitude/longitude decorrelation stretch of multi-temporal LST imagery. Photogrammetric Engineering & Remote Sensing, 87(2), 10 pages [ to appear in Feb. 2012].

4. Tsatsaris A. & Miliaresis G. 2011. Spatial correlation of Tuberculosis (TB) incidents to the MODIS LST biophysical signature of African countries. International Journal of Environmental Protection, 1(1), 49-57.

5. Miliaresis G., Tsatsaris A., 2011. Mapping the spatial and temporal pattern of day-night temperature difference in Greece from MODIS imagery. GIScience & Remote Sensing, 48(2):210-224, doi: 10.2747/1548-1603.48.2.210

http://www.ij-ep.org/index.aspxhttp://www.ij-ep.org/index.aspxhttp://www.ij-ep.org/Download.aspx?paperID=82http://www.ij-ep.org/Download.aspx?paperID=82


6. Miliaresis G., Paraschou Ch.V., 2011. An evaluation of the accuracy of the ASTER GDEM and the role of stack number: A case study of Nisiros Island, Greece. Remote Sensing Letters 2(2):127-135, doi: 10.1080/01431161.2010.503667

7. Miliaresis G. and K.ST. Seymour, 2011. Mapping the spatial & temporal SST variations in Red Sea, revealing a probable regional geothermal anomaly from Pathfinder V5 data. Int. J. of Remote Sensing, 32(07):1825-1842. doi: 10.1080/01431161003631568

8. Zouzias D., Miliaresis G., Seymour, K.ST., 2011, Interpretation of Nisyros Volcanic Terrain using Land Surface Parameters Generated from the ASTER Global DEM. Journal of Volcanology & Geothermal Research, 200(3-4):159-170. doi: 10.1016/j.jvolgeores.2010.12.012

9. Zouzias D., Miliaresis G., Seymour, K.ST. 2011. Probable regional geothermal field reconnaissance in the Aegean Region from modern multi-temporal night LST imagery. Environmental Earth Sciences, 62(4):717-723 doi:10.1007/s12665-010-0560-0

10. Miliaresis G., Partsinevelos P., 2010. Terrain Segmentation of Egypt from Multi-temporal Night LST Imagery and Elevation Data. Remote Sensing , 2: 2083-2096. doi:10.3390/rs2092083

11. Miliaresis G. , Tsatsaris A., 2010. Thermal terrain modeling of spatial objects, a tool for environmental and climatic change assessment. Environmental Monitoring & Assessment, 164:561-572, doi:10.1007/s10661-009-0913-x

12. Miliaresis G. , Ventura G., Vilardo G., 2009. Terrain modeling of the complex volcanic terrain of Ischia Island (Italy). Canadian Journal of Remote Sensing. 35(4):385-398. doi: 10.1007/s10661-008-0237-2

13. Miliaresis G., 2009. Regional thermal and terrain modeling of the Afar Depression from multi-temporal night LST data. Int. J. of Remote Sensing, 30(9):24292446, doi:10.1080/01431160802562271

14. Miliaresis G., Delikaraoglou D., 2009. Effects of Percent Tree Canopy Density and DEM Mis-registration to SRTM/NED Vegetation Height Estimates. Remote Sensing. 1:36-49; doi:10.3390/rs1020036

15. Miliaresis G., 2009. The terrain signatures of administrative units: a tool for environmental assessment. Environmental Monitoring & Assessment, 150:386-396. doi:10.1007/s10661-008-0237-2

16. Miliaresis G., 2008. The Landcover Impact to the Accuracy of the SRTM-1 Finished Dataset. Sensors, [special issue: Synthetic Aperture Radar, Edited by D.Riccio], 8:3134-3149. doi:10.3390/s8053134.

17. Miliaresis G., 2007. An upland object based modeling of the vertical accuracy of the SRTM-1 elevation dataset. Journal of Spatial Sciences, 52(1):13-29.

18. Miliaresis G., Kokkas N. 2007. Segmentation & Object Based Classification for the Extraction of the Building Class from LIDAR DEMs. Computers & Geosciences, 33:1076-1087. doi:10.1016/j.cageo.2006.11.012

19. Miliaresis G., 2006. Geomorphometric mapping of Asia Minor from Globe DEM. Geografiska Annaler 88A (3):209-221. doi:10.1111/j.1468-0459.2006.00296.x

http://www3.interscience.wiley.com/journal/118596682/abstract?CRETRY=1&SRETRY=0http://dx.doi.org/10.1016/j.cageo.2006.11.012http://www.ingentaconnect.com/content/spatial/jss/2007/00000052/00000001/art00003http://www.ingentaconnect.com/content/spatial/jss/2007/00000052/00000001/art00003http://dx.doi.org/10.3390/s8053134http://dx.doi.org/DOI:10.1007/s10661-008-0237-2http://dx.doi.org/10.3390/rs1020036http://dx.doi.org/10.1080/01431160802562271http://dx.doi.org/DOI:10.1007/s10661-008-0237-2http://www.springerlink.com/content/cw87p06207t25467/http://www.mdpi.com/2072-4292/2/9/2083/http://www.springerlink.com/content/l600841451508852/?p=632020cf2e2840fbaf6632929daa042a%CF%80=5http://dx.doi.org/10.1016/j.jvolgeores.2010.12.012http://www.springerlink.com/content/cw87p06207t25467/


20. Miliaresis G., Paraschou Ch., 2005. Vertical accuracy of the SRTM DTED Level 1 of Crete. Int. J. of Applied Earth Observation & GeoInformation 7(1):49-59. doi:10.1016/j.jag.2004.12.001

21. Miliaresis G., Sabatakakis N., Koukis G., 2005. Terrain pattern recognition and spatial decision making for regional slope stability studies. Natural Resources Research, 14 (2): 91-100. doi:10.1007/s11053-005-6951-3

22. Miliaresis G., Illiopoulou P. 2004. Clustering of Zagros Ranges from the Globe DEM representation. Int. Journal of Applied Earth Observation & GeoInformation, 5 (1):17-28. doi: 10.1016/j.jag.2003.08.001.

23. Miliaresis G., Kokkas N. 2004. Segmentation and terrain modeling of extra - terrestrial chasmata. Journal of Spatial Sciences, 49(2): 89-99

24. Miliaresis, G. Ch., Argialas, D.P. 2002. Quantitative Representation of Mountain Objects Extracted from the GTOPO30 DEM. Int. Journal of Remote Sensing, 23 :949-964. doi:10.1080/01431160110070690

25. Miliaresis, G.Ch., 2001. Extraction of Bajadas from DEMs & Satellite Imagery. Computers & Geosciences 27:1157-1167. doi: 10.1016/S0098-3004(01)00032-2

26. Miliaresis, G. Ch., 2001. Geomorphometric Mapping of Zagros Ranges at Regional Scale. Computers & Geosciences, 27:775-786. doi: 10.1016/S0098-3004(00)00168-0

27. Miliaresis, G.Ch., and D.P. Argialas, 2000. Extraction & Delineation of Alluvial Fans from Ds & Landsat TM Images. Photogrammetric Engineering & Remote Sensing, 66:1093-1101. doi: 0099-1112/00/6609-109

28. Miliaresis, G. Ch., and D.P. Argialas, 1999. Segmentation of Physiographic Features from the Global Digital Elevation Model / GTOPO30. Computers & Geosciences, 25:715-728. doi:10.1016/S0098-3004(99)00025-4

Others :

1. Miliaresis G., 2011. Book Review in Photogrammetric Engineering & Remote Sensing, published in May 2011, p. 453 [Timothy L. Nyerges & Piotr Jankowski 2009. Regional & Urban GIS: A decision support approach. Guilford Press, 29 9p., ISBN 978-1-60623-906-3]

Books (in Greek):

1. Miliaresis G., 2006, ArcGIS:geosciences problem solving. ION, 248 p. ISBN: 960-411-560-x.

2. Miliaresis G., 2003, Photo-interpretation & remote sensing, ION, 243 p. ISBN:960-411-297-x.

3. Miliaresis G., 2003, Photo-interpretation Labs. ION, 114 p. ISBN: 960-411-321-6.

Book chapters

http://digital.ipcprintservices.com/publication/?i=68204http://digital.ipcprintservices.com/publication/?i=68204http://dx.doi.org/10.1016/S0098-3004(99)00025-4http://www.asprs.org/publications/pers/2000journal/september/2000_sept_1093-1101.pdfhttp://dx.doi.org/10.1016/S0098-3004(00)00168-0http://dx.doi.org/10.1016/S0098-3004(01)00032-2http://adsabs.harvard.edu/cgi-bin/nph-abs_connect?fforward=http://dx.doi.org/10.1080/01431160110070690http://www.ingentaconnect.com/content/spatial/jss/2004/00000049/00000002/art00007http://www.ingentaconnect.com/content/spatial/jss/2004/00000049/00000002/art00007http://www.ingentaconnect.com/content/spatial/jss/2004/00000049/00000002/art00007http://www.ingentaconnect.com/content/spatial/jss/2004/00000049/00000002/art00007http://dx.doi.org/10.1016/j.jag.2003.08.001http://www.springerlink.com/content/lm55103463270u51/http://adsabs.harvard.edu/cgi-bin/nph-abs_connect?fforward=http://dx.doi.org/10.1016/j.jag.2004.12.001


1. Miliaresis G. 2009. Biophysical Terrain Analysis. In: Environmental Cost Management [Randi Taylor Mancuso, Editors]. Nova Science Publishers, New York, Chapter 7, pp.255-273. ISBN: 978-1-60741-815-3.

2. Miliaresis G., 2008. Quantification of Terrain Processes. Lecture Notes in Geoinformation & Chartography (LNG&C), XIV, 13-28. [doi:10.1007/978-3-540-77800-4_2] (In: Advances in digital terrain analysis, Springer, Editors: Qiming Zhou, Brian Lees,Guo-an Tang, ISBN 978-3-540-77799-1, 462 p.)

3. Argialas, D.P., and G.CH. Miliaresis, 2001. Human factors in the Interpretation of Physiography by Symbolic and Numerical Representations within an Expert System. In Interpreting Remote Sensing Imagery: Human factors by R. R. Hoffman and A. B. Markman (Eds), 304 pages, ISBN:1566704138. Lewis Publishers-CRC PRESS , New York, 59-81.

Conferences

1. Papasotirakopoulos S., Miliaresis G., Tsatsaris A., 2010. Thermal modelling of Africa from multi-temporal MODIS LS imagery. 20th Greek ESRI Users Conference, 1st to 3rd of November 2010, Athens, 6 p.

2. Partsinevelos P. Miliaresis G., 2009. Spatiotemporal filtering of multi-temporal images: application on MODIS sea surface temperature (SST) imagery.5th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (MultiTemp-2009). Mystic, Connecticut, USA,on July 28-30, 377-384

3. Miliaresis G. 2008. Monitoring/Impact of Wild Fires of the August 2007 in the Mountain Region of Ilia Prefecture from Web Spatial Databases. Mountain GIS e-Conference: GIS & Earth Observation for the Sustainable Development, Int. Centre for Integrated Mountain Development (ICIMOD), 14 - 25 Jan., 8 p.

4. Miliaresis G., 2007. Delineation & Representation of Linear Megadunes from CSI-SRTM DEM. GeoComputation, Session 1A: Remote Sensing. National University of Ireland, Maynooth, 3-5 Sept., 5 p.

5. Miliaresis G. and Basoukos K., 2007. Landslides susceptibility of barren class objects from modern imagery. Conference on Environmental Management, Engineering, Planning and Economics, Skiathos, June 24-28, 2145-2150.

6. Miliaresis 2007. Segmentation of multi-temporal earthquake imagery for the detection of geophysical related geothermal activity. 4th Int. Workshop on the Analysis of Multi-Temporal Images (MULTITEMP-2007), July 18-20, 2007, Leuven, Belgium, 6 p.

7. Miliaresis G. 2006. Terrain modelling for specific geomorphologic processing (keynote speaker presentation). International Symposium on Terrain Analysis and Digital Terrain Modelling, Nanjing, China, 23-25 November 2006, 10 p.

8. Miliaresis G. and Kokkas N., 2006. Geomorphometric segmentation applied to the city modeling problem. Int. Symposium on Terrain Analysis & Digital Terrain Modelling, China (Nanjing), 23-25 Nov. 2006, 12 p.

9. Miliaresis G., 2006. Geometric and landcover signatures of local authorities in Peloponnesus. Int. Conf. on Energy, Environment, Ecosystems & Sustainable Development, Athens, July 11-13, 128-133.

http://www.novapublishers.com/


10.Blasco F., Bellan M.F.,Barbaroussi B., Miliaresis G., 2004. Ground truth by the use of orthophotos in IKONOS image processing. Int. Archieves of Photogrammetry, Remote Sensing & GIS - Vol. XXXV, (XXth ISPRS Congress, 12-23 July, Istanbul, Commission IV), 417-421.

11.Kokkas N., Miliaresis G., 2004. Geomorphometric Mapping of Grand Canyon from the 1-degree USGS DEM. Int. Archieves of Photogrammetry, Remote Sensing & GIS - Vol. XXXV, (XXth ISPRS Congress, 12-23 July, 2004 Istanbul, Commission IV), 406-411.

12.Rodopoulos J., & Miliaresis G., 2004. Geomorphometric description of cluter maps ASPRS Annual Conf., Anchorage, Alaska, May, 5-9, 399-403

13.Miliaresis G., Kokkas N., 2003. The geomophometric signature of Valles Marineris from M.O.L.A. DEM. ASPRS Annual Conf., Anchorage, Alaska, May 5-9, 122-130

14.Panagou Th., Miliaresis G., 2003. Evaluating the thematic information content of ASTER (VNIR) imagery in urban areas by classification techniques. The International Archieves of Photogrammetry, Remote Sensing & Spatial Information Science, Vol. XXXIV-7/W9 [Remote Sensing of Urban Areas, Editor Carsten Jurgens], 263-267

15.Miliaresis, G. & Paraschou Ch., 2002. The Globe DEM Parameterization of the mountain features of Minor Asia. ASPRS Annual Conference, April 19 - 26, Washington DC, 8 p.

16.Miliaresis G.Ch., 2002. Characterizing landscape dynamics by general & specific geomorphometric techniques. WEGENER 2002, International Association of Geodesy, Athens 12th-14th of June. [12 p.]

17.Miliaresis G. and Paraschou Ch. 2001. A feature based accuracy evaluation of GTOPO30 DEM. Remote Sensing & Photogrammetry Society Annual Conf., 12-14th September, London, 203-213 p.

18.Miliaresis, G.Ch., 2001. Automated Segmentation of Bajadas from 15-minute-DEMs and Landsat TM imagery. ASPRS Annual Conference, St. Louis, Missouri, April, 23-27, 8 p.

19.Miliaresis, G. Ch., 2000. Landscape Characterization of Zargos Ranges. 26th Conf. of the Remote Sensing Society, University of Leicester, 12-14th of September. 8 p.

20.Miliaresis, G. Ch., 2000. The DEM to Mountain Transformation of Zagros Ranges. Proceedings, 5th Int. Conf. on Geocomputation, University of Greenwich, 23-25th of August, 8 p.

21.Argialas, D.P., and G.CH. Miliaresis, 2000. Physiographic Region nterpretation: Formalization With Rule Based Structures and Object Hierarchies. 19th Conf. of Int. Archives of Photogrammetry & Remote Sensing, July 19-23th, 2000, Amsterdam, The Netherlands, Vol. XXXIII, Part B4, 91-98

22.Miliaresis, G.Ch., 1999. Automated Segmentation of Alluvial Fans to Regions of High to Intermediate Flood Hazard from Landsat Thematic Maper Imagery. 2nd Int. Symposium Operationalization of Remote Sensing, ITC Enschede, 16-20 August. 6 p.


23.Miliaresis, G.Ch. and D.P. Argialas, 1999. Fuzzy Pattern Recognition of Compressional Mountain Ranges in Iran. Proceedings, 5th International Conference of the Association for Mathematical Geology, Trondheim (Norway), August 6, 227-232.

24.Miliaresis, G.Ch., 1999. A Region Growing Algorithm for the Segmentation of Alluvial Fans from Digital Elevation Models. Proceedings, 1st Int. Symposium on Imaging Applications in Geology (GeoVision 99), Liege (Belgium), 6-7 May, 189192.

25.Miliaresis, G. Ch. and D.P. Argialas, 1999. Formalization of the Photo-Interpretation Process by a Fuzzy Set Representation of Mountain Objects. 25th Conference of the Remote Sensing Society, Cardiff (U.K.), Sept. 8 10, 745-750.

26.Miliaresis, G.Ch. and D.P. Argialas, 1998. Parametric Representation and Classification Of Mountain Objects Extracted From Moderate Resolution DEMs. Int. Conf. of the Ass. for Mathematical Geology, Ispra (Italy), October 5 9, 892-897.

27.Miliaresis, G.Ch. and D.P. Argialas, 1998. Physiographic Feature Extraction From Moderate Resolution Digital Elevation Data. 24th International Conference of the Remote Sensing Society, Greenwich (U.K.), Sept. 911, 545-551.

28.Argialas, D.P., and G.CH. Miliaresis, 1997. An Object Oriented Representation Model For The Landforms Of An Arid Climate Intermontane Basin. Proceedings. 23rd Int. Conf. of the Remote Sensing Society, Reading, Sept. 24, 199-205.

29.Argialas, D.P., and G.CH. Miliaresis, 1997. Landform Spatial Knowledge Acquisition: Identification, Conceptualization and Representation. Proceedings, ACSM/ASPRS, Seattle-Washington, April 7-10, 733-740.

30.Argialas, D.P., and G.CH. Miliaresis, 1996. Physiographic Knowledge Acquisition: Identification, Conceptualization and Representation. ACSM/ASPRS, Baltimore-Maryland, April 22-25, 311-320.

Posters -Abstracts

1. Miliaresis G., Tselentis G., 2009.The spatial pattern of the temporal SST variations during the 2004 Indian Ocean Earthquake. Int. Workshop on Validation of Earthquake Precursors by Satellite, Terrestrial and other Observations (VESTO), case studies of the recent Asian events.Chiba University, Nishi-Chiba Campus, Tokyo, Japan, March 26-28, http://www-es.s.chiba-u.ac.jp/geoph/ulf/vesto/

2. Veizi I., N. Tsiougou, C. Kouki, D. Matsa, G. Tsiougos, N. Lakafosis, M. Zarras, G. Miliaresis, P. Partsinevelos, M. Pigaki, 2007. Anthropogenetic intensity, a new indicator to measure coastal man-made volume, case study: Navpaktos -Aetolia-Acarnania, Greece. Future Perspectives of GeoInformation for Integrated Coastal Management, GISIG/ICCOPS/ECOImagine, Genoa, 21-23 Nov., [poster].

3. Miliaresis G., Sabatakakis N., Koukis G., 2004. Terrain segmentation & parameterization for regional slope stability studies. European GeoSciences Union, 1st General assembly (Copernicus), Nice, France, 25-30 April. [abstract]

4. Miliaresis G.Ch., 2000. Segmentation of Alluvial Aprons from the USGS DEMs with Spacing 2-Arc Seconds. RGS-IBG, Session on Surface Modelling, Sussex, (U.K.) 4-7 Jan. [abstract]

http://www.copernicus.org/EGU/ga/egu04/index.htmlhttp://www.copernicus.org/EGU/ga/egu04/index.htmlhttp://www.cosis.net/abstracts/EGU04/05417/EGU04-J-05417.pdfhttp://www.cosis.net/abstracts/EGU04/05417/EGU04-J-05417.pdfhttp://www.gisig.it/eco-imaginehttp://www.gisig.it/eco-imaginehttp://www.gisig.it/eco-imaginehttp://www.gisig.it/eco-imaginehttp://www-es.s.chiba-u.ac.jp/geoph/ulf/vesto/


No Journal evaluation factors S.C.I S.J.RArticle

influence

1 Canadian Journal of Remote Sensing 1.315 0.048 -

4 Computers & Geosciences 1.142 0.073 -

1 Environmental Earth Sciences 1.026 0.05 0.360

2 Environmental Monitoring & Assessment 1.436 0.061 -

1 Geografiska Annaler: Series A, Physical Geography 1.041 0.055 0.662

1 GIScience & Remote Sensing 0.708 0.048 -

1 Earth Science Informatics 0.657

1 Lecture Notes in Geoinformation & Chartography - - -

2 Int. Journal of Applied Earth Observation & Geo-Information 1.776 0.069 -

4 nt. Journal of Remote Sensing 1.089 0.057 0.504

1 Int. Journal of Environmental Protection

2 Journal of Spatial Sciences - 0.045 -

1 Journal of Volcanology & Geothermal Research 1.921 0.087 1.186

1 Natural Resources Research - 0.043 -

2 Photogrammetric Engineering & Remote Sensing 1.846 0.059 0.689

1 Remote Sensing Letters included - -

2 Remote Sensing - - -

1 Sensors 1.821 0.102 0.381

http://www.mdpi.com/journal/sensorshttp://www.mdpi.com/journal/remotesensing/indexhttp://www.tandfdc.com/journals/TRSLhttp://www.asprs.org/publications/pers/http://www.springerlink.com/content/105547/http://www.elsevier.com/wps/find/journaldescription.cws_home/503346/description#descriptionhttp://www.mappingsciences.org.au/journal.htmhttp://www.ij-ep.org/index.aspxhttp://www.ij-ep.org/index.aspxhttp://www.tandf.co.uk/journals/titles/01431161.asphttp://www.tandf.co.uk/journals/titles/01431161.asphttp://www.elsevier.com/wps/find/journaldescription.cws_home/622741/description#descriptionhttp://www.springer.com/series/7418https://www.editorialmanager.com/esin/http://www.bellpub.com/msrs/http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1468-0459http://www.springer.com/environment/monitoring+-+environmental+analysis/journal/10661http://www.springerlink.com/content/x4664n8516n3/http://www.elsevier.com/wps/find/journaldescription.cws_home/398/description#descriptionhttp://pubservices.nrc-cnrc.ca/rp-ps/journalDetail.jsp?jcode=cjrs%E2%8C%A9=enghttp://www.eigenfactor.org/index.phphttp://www.eigenfactor.org/index.phphttp://www.scimagojr.com/journalrank.phphttp://admin-apps.isiknowledge.com/JCR/JCR


Papers in GREEKJournals

1. ., 2003. . ..., . 151, 179-190

Conferences 1. ., 2005.

. & . 5 & , 17-19 , , 8 .

2. , & ., 2004. SRTM. 1 . . , 24-26, 9 .

3. ., ., ., 2004. Aster . 4o - : " ", 23-26 ., , 7 .

4. . & . 2002. . 6 , 3-6 , 187-192.

5. . 2001. Zagros Ranges . , V, No 5., 2017-2023.

6. ., & ., 2001. GTOPO30. 3 , , , , 7-10 , 14 .

7. ., & ., 2001. . 3o : , , (....), , 7-10 , 12 .

8. . . , 1999. . , 5 , 11-13 , 308-317.

9. . ., 1999. . , 5 , 11-13 , 352-360

Abstracts 1. ., 2008.

( ). .... - ( & ), 27/6/2008, [abstract]

2. ., 2007. - ( ). -: & , , , , 22-23/2/2007, [abstract]

3. . 2006. ( ). 4 , 7-12-2006. / [abstract].

http://www.auth.gr/research/conf/geography6cong/gr_index.html


Known Cited Papers of mine (self cited papers were excluded)MILIARESIS, G. CH., & D.P. ARGIALAS, 1999. Segmentation Of Physiographic Features From The Global Digital Elevation Model/Gtopo30. Computers & Geosciences, 25, 715-728.

1. Bishop, M.P., James, L.A., Shroder, J.F., Walsh, S.J., 2012. Geospatial technologies and digital geomorphological mapping: Concepts, issues and research. Geomorphology, 137 (1) 5-26.

2. Saha, K., Wells, N.A., Munro-Stasiuk, M. 2011. An object-oriented approach to automated landform mapping: A case study of drumlins. Computers and Geosciences, 37 (9) 1324-1336.

3. Ralph K. Straumann, Ross S. Purves, 2011. Computation and Elicitation of Valleyness. Spatial Cognition and Computation, 11(2):178 - 204

4. Ahmad Fadzil Mohamad Hani, Dinesh Sathyamoorthy, Vijanth Sagayan Asirvadam, 2011. A method for computation of surface roughness of digital elevation model terrains via multiscale analysis. Computers & Geosciences, 37(2) :177-192 ,

5. Weiming Cheng, Chenghu Zhou, Huixia Chai, Shangmin Zhao, Haijiang Liu, Zengpo Zhou, 2011. Research and compilation of the geomorphologic atlas of the People's Republic of China (1: 1,000,000). Journal of Geographical Sciences,21(1):89-100

6. Sinha, G., Mark, D.M.2010. Cognition-based extraction and modeling of topographic eminences Cartographica, 45 (2) 105-112.

7. Dinesh Sathyamoorthy, 2010. Scale based uncertainty modelling. The Journal of Defense & Security, 1(1): 16 p.

8. Ahmadi, S., Zoej, M.J.V., Ebadi, H., Moghaddam, H.A., Mohammadzadeh, A. 2010.Automatic urban building boundary extraction from high resolution aerial images using an innovative model of active contours. International Journal Of Applied Earth Observation & Geoinformation, 12 (3) 150-157.

9. Dinesh Sathyamoorthy, 2010. Morphological spatial pattern analysis of mountains extracted from multiscale digital elevation models. The Journal of Defense & Security, 1(2): 220-237

10. Deniz Gerek 2010. Object-Based Classification of Landforms Based on Their Local Geometry and Geomorphometric Context. PhD thesis, Middle East Technical University, 220 p.

11. Dinesh Sathyamoorthy, 2010. Morphological Spatial Pattern Analysis of Mountains Extracted from Multiscale Digital Elevation Models. MAPASIA, 26-28/07/2010, Kuala Lumpur, MALAYSIA, 26 p.

12. Ehsani , A.H., Quiel, F.2009. Self-organizing maps for multi-scale morphometric feature identification using shuttle radar topography mission data. Geocarto International, 24 (5) 335-355

13. Benito-Calvo, A.; Perez-Gonzalez, A.; Magri, O.; Meza, P. 2009. Assessing regional geodiversity: the Iberian Peninsula. Earth Surface Processes And Landforms 34 (10): 1433-1445

14. Song, Yonghak; Shan, Jie, 2009. An Adaptive Approach to Topographic Feature Extraction from Digital Terrain Models. Photogrammetric Engineering & Remote Sensing, 75 (3): 281-290.

15. Dinesh ., 2009. Analysis of Landform Metrics of Mountains Extracted from Multiscale Digital Elevation Models Australian Journal Of Basic & Applied Sciences (AJBAS), 3(4): 3997-4010.

16. ZHOU Chenghu CHENG Weiming QIAN Jinkai LI Bingyuan ZHANG Baiping 2009. Research on the Classification System of Digital Land Geomorphology of 1: 1 000 000 in China. Journal of Geo-Information Science, 11(6) 23-93.

17. Hengl, T. / MacMillan, R.A. 2009. A Key to Landscape Mapping and Modelling. Developments in Soil Science, 33, doi:10.1016/S0166-2481(08)00019-6

18. Straumann, R.K., Purves, R.S., 2008. Delineation of valleys and valley floors. Lecture Notes in Computer Science, 5266 LNCS, 320-336

19. Dinesh, S. 2008. Computation of surface roughness of mountains extracted from Digital Elevation Models. Journal Of Applied Sciences 8 (2), 262-270.

20. Ehsani Amir Houshang, 2008. Artificial neural networks: applications in morphometric and landscape features analysis PhD thesis. Division of Environmental and Natural Resources Information Systems, Department of Civil and Architectural Engineering, Royal Institute of Technology, Stockholm, Sweden

http://www.diva-portal.org/kth/theses/abstract.xsql?dbid=4392%20,%20http://kth.diva-portal.org/smash/get/diva2:13966/FULLTEXT01http://www.diva-portal.org/kth/theses/abstract.xsql?dbid=4392%20,%20http://kth.diva-portal.org/smash/get/diva2:13966/FULLTEXT01http://www.diva-portal.org/kth/theses/abstract.xsql?dbid=4392%20,%20http://kth.diva-portal.org/smash/get/diva2:13966/FULLTEXT01http://www.mapasia.org/2010/proceeding/pdf/94.pdfhttp://www.mapasia.org/2010/proceeding/pdf/94.pdfhttp://etd.lib.metu.edu.tr/upload/12611780/index.pdfhttp://etd.lib.metu.edu.tr/upload/12611780/index.pdfhttp://www.scopus.com/alert/results/record.url?AID=500138&ATP=document&eid=2-s2.0-82555191090&origin=SingleRecordEmailAlert

20/01/2012 Curriculum Vitae 14 / 2821. Flavio Fortes Camargo, 2008. Object-oriented analysis applied to the mapping of geomorphological units

based on ASTER/TERRA data. PhD Thesis. Instituto Nacional de Pesquisas Espaciais, Brazil, 157 p 22. Dinesh Sathyamoorthy, Ahmad Fadzil Mohamad Hani, Vijanth Sagayan a/l Asirvadam, 2008. Computation of

Scale-Independent Surface Roughness of Individual Mountains. Map Asia 2008 Kuala Lumpur, Malaysia, 16 p. 23. Straumann, R.K., Purves, R.S., 2008. Definition of valleys and valley floors. . Geographic information science: 5th

international conference, GIScience-2008 (Gova T., Miller H., Frank A., Goodchild M. Editors), Park City, Utah, USA , 320-335.

24. Dinesh, S. , Ahmad Fadzil, M.H. , 2007. Characterization of the size distribution of mountains extracted from multiscale digital elevation models. Journal of Applied Sciences 7 (10), 1410-1415

25. Sathymoorthy D, Palanikumar R, Sagar BSD, 2007. Morphological segmentation of physiographic features from DEM Int. Journal Of Remote Sensing, 28 (15) 3379-3394

26. Iwahashi, J., Pike, R.J. 2007. Automated classifications of topography from DEMs by an unsupervised nested-means algorithm and a three-part geometric signature. Geomorphology 86 (3-4), 409-440

27. Yet-Chung Chang, Gaurav Sinha, 2007. A visual basic program for ridge axis picking on DEM data using the profile-recognition and polygon-breaking algorithms. Computers & Geosciences 33, 229237

28. Sodr, R.V.R. et al., 2007. Classificao de bacias de drenagem do alto jequita (minas gerais) a partir da anlise de principais componentes e anlise de grupos. Revista Brasileira De Geomorfologia, v.8, n.2, p.73-86.

29. Lucian Drgu, Thomas Blaschke, 2006. Automated classification of landform elements using object-based image analysis. Geomorphology 81 (2006) 330344

30. D ikau, R. , Moldenhauer, K.-M., Bedehasing, J. 2006. Die Erdoberflache - Lebens- und Gestaltungsraum des Menschen: Forschungsstrategische und programmatische Leitlinien zukunftiger geomorphologischer Forschung und Lehre Zeitschrift Fur Geomorphologie, 148, 1-149

31. Rigon R., Ghesla M., Tisso S., Cozzini A., 2006. The HORTON machine: a system for DEM analysis PhD thesis. University of Trento, Department of Civil & Environmental Engineering, 144 p,

32. Enrique Castellanos, 2005. Processing Srtm Dem Data For National Landslide Hazard Assessment. Vi Congreso De Geologa . La Habana, 5-8 April, 12 p.

33. Dinesh S., 2006. Extraction of Mountains from Digital Elevation Models Using Mathematical Morphology. GIS Development, 1(4), 16-19.

34. Brad Maguire, 2005. Towards a Landform Geodatabase: The Automatic Identification of Landforms PhD Thesis, Faculty of Geography, University of British Columbia, UBC, April 2005, 145 p.

35. Remco J.J. Dost, 2005. Hydrologic Information Systems as a support tool for water quality monitoring MSc Thesis. International Institute For Geo Information Science And Earth Observation, ENSCHEDE, THE NETHERLANDS, 93 pages

36. Stefan Rasemann, Jochen Schmidt, Lothar Schrott, and Richard Dikau, 2004. Geomorphometry in mountain terrain. In: Michael Bishop & John F. Shroder (Editors) Geographic Information Science & Mountain Geomorphology, Springer Praxis Books, Chichester, UK., 468 p.

37. Carvalho T., Latrubesse E. 2004. DEM in macrogeomorphological study of Araguaia river basin. Revista Brazileira De Geomorphologia, 5 (10), 85-93

38. Valeriano M., 2004. DEM with SRTM DATA for S. America. Instituto Nacional de Pesquisas Espaciais (INPE), Brazil 72 p.,

39. Stefan Rasemann , 2003. Geomorphometrische Struktur eines mesoskaligen alpinen Geosystems hD Thesis), Mathematisch-Naturwissenschaftliche Fakultt University of Bonn, 353 p

40. Mrcio M. Valeriano, Anglica G. Picini 2003. Geoprocessing of agroclimatological information. INPE-10128-RPQ/751, So Jos dos Campos, 133 p

41. Pike, R., 2003. A Bibliography of Terrain Modeling the Quantitative Representation of TopographySupplement 4.0. U.S. Geological Survey Open-File Report 02-465, 157 p.

42. Valeriano M., 2002. Constructing Digital Elevation Models For Watersheds With Kriging. INPE, Brazil 56 p., 43. Mrcio de Morisson Valeriano, Andr Ricardo de Melo, Ludmila Alexandra dos Santos Sarraipa, Ivan

Paulo Mendes Negreiros e Wander Pallone Filho, 2002. Constructing a digital topographical database (1:1.000.000) for state of So Paulo with RADARSAT-1 data. Acta Scientiarum 24, 6, 1825-1831.

44. Argialas D. Angelos, T., 2002. Geomorphological feature extraction from a digital elevation model through fuzzy knowledge-based classification.Proceedings of SPIE - The Int. Society for Optical Engineering 4886, 516-527

http://mtc-m12.sid.inpe.br/col/sid.inpe.br/iris@1912/2005/07.21.00.43.43/doc/mde_krig3.pdffile:///. http:/mtc-m12.sid.inpe.br/col/sid.inpe.br/marciana/2003/12.09.09.48/doc/publicacao.pdffile:///1.. http:/hss.ulb.uni-bonn.de/diss_online/math_nat_fak/2003/rasemann_stefanhttp://mtc-m12.sid.inpe.br/col/sid.inpe.br/sergio/2004/06.30.10.57/doc/publicacao.pdfhttp://www.amazon.com/exec/obidos/search-handle-url/105-2656944-3277228?_encoding=UTF8&search-type=ss&index=books&field-author=John%20F.%20Shroderhttp://www.amazon.com/exec/obidos/search-handle-url/105-2656944-3277228?_encoding=UTF8&search-type=ss&index=books&field-author=Michael%20Bishopfile:///. http:/www.itc.nl/library/papers_2005/msc/wrem/dost.pdfhttp://web.mala.bc.ca/maguireb/papers/Thesis_Final_Apr21_2005.pdfhttp://www.ing.unitn.it/dica/eng/Quaderni/index.phphttp://www.scopus.com/scopus/search/submit/author.url?author=Bedeha%CC%88sing%2C+J.&origin=resultslist&authorId=23484372300&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Moldenhauer%2C+K.-M.&origin=resultslist&authorId=23485805000&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Dikau%2C+R.&origin=resultslist&authorId=23484802600&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Dikau%2C+R.&origin=resultslist&authorId=23484802600&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Ahmad+Fadzil%2C+M.H.&origin=resultslist&authorId=7801527934&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Dinesh%2C+S.&origin=resultslist&authorId=16743773800&src=shttp://www.gisdevelopment.net/proceedings/mapasia/2008/photogrammetry3dmodlingandlidar/ma08_209.pdfhttp://www.gisdevelopment.net/proceedings/mapasia/2008/photogrammetry3dmodlingandlidar/ma08_209.pdfhttp://www.gisdevelopment.net/proceedings/mapasia/2008/photogrammetry3dmodlingandlidar/ma08_209.pdffile:///., http:/mtc-m17.sid.inpe.br/col/sid.inpe.br/mtc-m17@80/2008/03.17.19.50/doc/Disserta%E7%E3o_FFC_SR_INPE.pdffile:///., http:/mtc-m17.sid.inpe.br/col/sid.inpe.br/mtc-m17@80/2008/03.17.19.50/doc/Disserta%E7%E3o_FFC_SR_INPE.pdf

20/01/2012 Curriculum Vitae 15 / 2845. Wentz, E.A., Kuby, M., Vogt, B.J., 2001. Extracting high points from statistical surfaces: A case study

using DEMs. Cartography and Geographic Information Science 28 (4), 259-271MILIARESIS, G.CH., 1999. Automated Segmentation Of Alluvial Fans To Regions Of High To Intermediate Flood Hazard From Landsat Thematic Maper Imagery. 2nd Int. Symp. On Operationalization Of Remote Sensing, ITC ENSCHEDE, 16-20 AUG. 6 p

46. Wang Ruibo; Cheng Weiming 2009. Extraction of Tectonic Faults of Longmen Mountain Based on DEM. 2nd International Congress on Image and Signal Processing,, CISP '09. Tianjin, China 17-19 Oct. 2009, 4 p.


48. Cho, Hyun-Kook : 2002. Studies on the mapping of forest area and their changes using satellite remote sensing and segment based classification An example of the study area "Pyeong-Chang" in Korea, PhD Thesis, University of Gottingen, 137 p.

ARGIALAS, D.P., AND MILIARESIS, G.CH., (2000), PHYSIOGRAPHIC REGION INTERPRETATION: FORMALIZATION WITH RULE BASED STRUCTURES AND OBJECT HIERARCHIES, INT. ARCHIVES OF PHOTOGRAMMETRY & REMOTE SENSING (ISPRS), VOL. XXXIII, PART B4: 9198

49. Josef STROBL 2008. Segmentation-based Terrain Classification, Lecture Notes In Geoinformation & Chartography, Vol. XIV, 125-139


MILIARESIS, G. CH., 2000. THE DEM TO MOUNTAIN TRANSFORMATION OF ZAGROS RANGES. 5TH INT. CONF. ON GEOCOMPUTATION, UNIVERSITY OF GREENWICH, 23-25TH OF AUGUST. 8 PAGES

51. Dinesh Sathyamoorthy, 2010. Morphological spatial pattern analysis of mountains extracted from multiscale digital elevation models. The Journal of Defense & Security, 1(2): 220-237

52. Dinesh Sathyamoorthy, 2010. Morphological Spatial Pattern Analysis of Mountains Extracted from Multiscale Digital Elevation Models. MAPASIA, 26-28/07/2010, Kuala Lumpur, MALAYSIA, 26 pages,

53. Dinesh S.., 2009. Analysis of Landform Metrics of Mountains Extracted from Multiscale Digital Elevation Models Australian Journal Of Basic And Applied Sciences, 3(4): 3997-4010.

54. Dinesh, S. 2008. Computation of surface roughness of mountains extracted from Digital Elevation Models. Journal Of Applied Sciences 8 (2), 262-270.

55. Dinesh Sathyamoorthy, Ahmad Fadzil Mohamad Hani, Vijanth Sagayan a/l Asirvadam, 2008. Computation of Scale-Independent Surface Roughness of Individual Mountains. Map Asia 2008 Kuala Lumpur, Malaysia, 16 p.

56. Dinesh, S., Ahmad Fadzil, M.H. , 2007. Characterization of the size distribution of mountains extracted from multiscale digital elevation models. Journal of Applied Sciences 7 (10), 1410-1415

57. Sathymoorthy D, Palanikumar R, Sagar BSD, 2007. Morphological segmentation of physiographic features from DEM Int. Journal of Remote Sensing, 28 (15) 3379-3394

58. Shahram Nasiri, Alireza Rezaei & Mohsen Mardani, 2005. The report of October 21, 2005 earthquake (ML 5.0) in Sarkhun, Miyankuh , High Zagros. Natural Disasters and Crisis Management group, National Geoscience Database of Iran, Tehran, Iran, 50 p

59. SAIEDEH HUSSAINI, SAEID PIRASTEH, SYED AHMAD ALI, 2005. Remote Sensing & Digital Elevation Model (DEM) Application: Stability-Saturation study and Relation to Lithology in Tang-e- Bostanak, Zagros Mountains Southwest Iran. Map India 2005 and Geomatics 2005, 8th Annual International Conference, New Delhi, 9 pages

60. Ali, S.A. , Rangzan, K., Pirasteh, S., 2003. Use of digital elevation model for study of drainage morphometry and identification stability and saturation zones in relations to landslide assessments in parts of the Shahbazan area, SW Iran. Cartography 32 (2), 71-76

MILIARESIS, G.CH., & D.P. ARGIALAS, 2000. Extraction & delineation of alluvial fans from DS & LANDSAT TM IMAGES. PHOTOGRAMMETRIC ENGINEERING & REMOTE SENSING, 66, 1093-1101.

http://www.scopus.com/scopus/search/submit/author.url?author=Pirasteh%2C+S.&origin=resultslist&authorId=6505946731&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Rangzan%2C+K.&origin=resultslist&authorId=7801505713&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Ali%2C+S.A.&origin=resultslist&authorId=7403093615&src=shttp://www.mapindia.org/2005/papers/pdf/50.pdfhttp://www.mapindia.org/2005/papers/pdf/50.pdfhttp://www.mapindia.org/2005/papers/pdf/50.pdffile:///. http:/www.ngdir.ir/GeoportalInfo/PSubjectInfoDetail.asp?PID=231&index=16file:///. http:/www.ngdir.ir/GeoportalInfo/PSubjectInfoDetail.asp?PID=231&index=16http://www.scopus.com/scopus/search/submit/author.url?author=Dinesh%2C+S.&origin=resultslist&authorId=16743773800&src=sfile:///1.http:/www.gisdevelopment.net/proceedings/mapasia/2008/photogrammetry3dmodlingandlidar/ma08_209.pdffile:///1.http:/www.gisdevelopment.net/proceedings/mapasia/2008/photogrammetry3dmodlingandlidar/ma08_209.pdfhttp://www.mapasia.org/2010/proceeding/pdf/94.pdfhttp://www.mapasia.org/2010/proceeding/pdf/94.pdfhttp://webdoc.sub.gwdg.de/diss/2002/cho/http://webdoc.sub.gwdg.de/diss/2002/cho/mailto:[email protected]://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=5304704


61. V. Prasannakumar, H. Vijith, N. Geetha, 2012. Terrain evaluation through the assessment of geomorphometric parameters using DEM and GIS: case study of two major sub-watersheds in Attapady, South India. Arabian Journal of Geosciences, DOI:10.1007/s12517-011-0408-2

62. CHENG Weiming, ZHOU Chenghu, LI Bingyuan, SHEN Yuancun, ZHANG Baiping, 2011. Structure and contents of layered classification system of digital geomorphology for China Journal of Geographical Sciences, 21(5): 771-790

63. Weiming Cheng, Chenghu Zhou, Huixia Chai, Shangmin Zhao, Haijiang Liu, Zengpo Zhou, 2011. Research and compilation of the geomorphologic atlas of the People's Republic of China (1: 1,000,000). Journal of Geographical Sciences,21(1):89-100

64. R Mousavi, S Pirasteh, B Pradhan, S Mansor 2011. The ASTER DEM Generation for Geomorphometric Analysis of the Central Alborz Mountains, Iran. Pentanica: J. Sci. & Technol., 19(S): 115-124.

65. Dousari, A.A., Din, S.U. 2010. Cost effective digital elevation model using ASTER stereo data. European Journal of Scientific Research, 41 (4) pp. 526-542.

66. Kumar, A., Jayappa, K.S., Deepika, B. 2010. Application of remote sensing and geographic information system in change detection of the Netravati and Gurpur river channels, Karnataka, India. Geocarto International, 25 (5) 397-425.

67. Ahmed Al Dousari, Saif ud din, 2010. Cost Effective Digital Elevation Model using ASTER Stereo Data. European Journal Of Scientific Research, 41 (4), 526-542

68. Akiko Hashimoto, Takashi Oguchi, , Yuichi Hayakawa, Zhou Lin, Kyoji Saito and Thad A. Wasklewicz, 2009. GIS analysis of depositional slope change at alluvial-fan toes in Japan and the American Southwest, Geomorphology 100 (1-2) 120-130

69. LONG En CHENG Wei-ming XIAO Fei LIU Hai-jiang CHEN Jian-jun LANG Ling-ling, 2008. Research on key technology of the plain and mountain extraction based on SRTM-DEM and RS. Science of Surveying and Mapping, 33 (2) 53-56.

70. En, L. , Weiming, C., Cheng-hu, Z., Yong-hui, Y., Hai-jiang, L. 2008. Extraction of landform information in changbai mountains based on Srtm-DEM and TM data. International Geoscience and Remote Sensing Symposium (IGARSS), art. no. 4423213, 1966-1969

71. Wahid Moufaddal and Ahmed E. Rifaat, 2006. Identifying Geomorphic Features between Ras Gemsha and Safaga, Red Sea Coast, Egypt, Using Remote Sensing Techniques. Marine Sciences, vol. 17, 105-128,

72. Kamp, U., Bolch, T., Olsenholler, J. 2005. Geomorphometry of cerro sillajhuay (Andes, Chile/Bolivia): Comparison of Digital Elevation Models (DEMs) from ASTER remote sensing data and contour maps. Geocarto, 20 (1), 23-33.

73. A.S. Jayko, C.M. Menges, and R.A. Thompson, 2005. Digital Method for Regional Mapping of Surficial Basin Deposits in Arid Regions, Example from Central Death Valley, Inyo County, California, Open-File Report 2005-1445, US Geological Survey, 43 p.

74. Chrysoulakis, N., Keramitsoglou, I., Cartalis, C. , 2004. Hydrologic land cover classification mapping at local level with the combined use of ASTER multispectral imagery and GPS measurements. SPIE - The International Society for Optical Engineering vol. 5239, 532-541

75. Demetre P. Argialas, Angelos Tzotsos, 2004 Automatic Extraction Of Aluvial Fans From Aster L1 Satellite Data And A Digital Elevation Model Using Object-Oriented Image Analysis, XXth ISPRS Congress, 12-23 July, 6 pages, Istanbul, Commission VII).


77. Ulrich Kam, Tobias Bolch, Jeffrey Olsenholler, 2003. DEM Generation From Aster Satellite Data For Geomorphometric Analysis Of Cerro Sillajhuay, Chile/Bolivia. ASPRS 2003 Annual Conference Proceedings, May 2003, Anchorage, Alaska, 9 pages

78. Ke Xiao, 2003. Fractal Compression And Analysis On Remotely Sensed Imagery PhD thesis. Submitted to the Graduate Faculty of the Louisiana State University, Department of Geography, 280 p

79. Radoslav Bonk 2002. Scale-dependent Geomorphometric Analysis for Glacier Mapping at Nanga Parbat: GRASS GIS Approach. Proceedings of the Open source GIS-GRASS users conf. 2002 - Trento, Italy, 11-13 September 2002, 21 p.

80. Niemer, I., 2000. Satellite and Nuclear control Bon University, PhD Thesis. Umwelt Environment (ISBN 3-89336-281-9), Vol 28. 224 p.

http://www.geomonitoring.tu-freiberg.de/publications/umwelt28.pdf?PHPSESSID=b3b9d2b3e528a7afe1005cdede90eae5file:///. http:/etd.lsu.edu/docs/available/etd-0124103-142051/unrestricted/Xiao_dis.pdfhttp://www.pcigeomatics.com/services/support_center/tech_papers/dem_aster.pdfhttp://www.pcigeomatics.com/services/support_center/tech_papers/dem_aster.pdfhttp://www.isprs.org/congresses/istanbul2004/comm7/papers/251.pdfhttp://www.isprs.org/congresses/istanbul2004/comm7/papers/251.pdfhttp://www.scopus.com/scopus/search/submit/author.url?author=Hai-jiang%2C+L.&origin=resultslist&authorId=23491993400&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Yong-hui%2C+Y.&origin=resultslist&authorId=23494315400&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Cheng-hu%2C+Z.&origin=resultslist&authorId=23491382900&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=Wei-ming%2C+C.&origin=resultslist&authorId=23494227400&src=shttp://www.scopus.com/scopus/search/submit/author.url?author=En%2C+L.&origin=resultslist&authorId=23491915800&src=shttp://www.scopus.com/alert/results/record.url?AID=500139&ATP=document&eid=2-s2.0-79960060063&origin=SingleRecordEmailAlerthttp://scholar.google.gr/scholar_url?hl=el&q=http://pertanika.upm.edu.my/Pertanika%2520ARCHIVES/JST/2011/JST%2520Vol.%252019%2520(S)%2520Oct.%25202011%2520(view%2520Full%2520Journal).pdf%23page%3D126&sa=X&scisig=AAGBfm3H0AKt0IaYwwos2eDRMGk5JUon9g&oi=scholaralrthttp://scholar.google.gr/scholar_url?hl=el&q=http://pertanika.upm.edu.my/Pertanika%2520ARCHIVES/JST/2011/JST%2520Vol.%252019%2520(S)%2520Oct.%25202011%2520(view%2520Full%2520Journal).pdf%23page%3D126&sa=X&scisig=AAGBfm3H0AKt0IaYwwos2eDRMGk5JUon9g&oi=scholaralrt


ARGIALAS, D.P., AND G.CH. MILIARESIS, 2001. Human factors in the interpretation of physiography by symbolic and numerical representations within an expert system. IN Interpreting Remote Sensing Imagery: Human factors BY R. R. HOFFMAN AND A. B. MARKMAN (EDS), 304 PAGES, ISBN:1566704138 . LEWIS PUBLISHERS-CRC Press, NEW YORK, pp. 59-81


MILIARESIS, G. CH., 2001. GEOMORPHOMETRIC MAPPING OF ZAGROS RANGES AT REGIONAL SCALE. COMPUTERS & GEOSCIENCES, 27, 775-786.

82. Bishop, M.P., James, L.A., Shroder, J.F., Walsh, S.J, 2012. Geospatial technologies and digital geomorphological mapping: Concepts, issues and research. Geomorphology,137(1)5-26.

83. Drgu, L., Eisank, C. 2011. Object representations at multiple scales from digital elevation models. Geomorphology, 129:183189.

84. Ferentinou M., Karymbalis E., Charou E., Sakellariou M., 2011, Using Self Organising Maps in Applied Geomorphology. In Self Or ganizing Maps - Applications & Novel Algorithm Design by Josphat Igadwa Mwasiagi (Editor). Intech Publisher, 274-298

85. F. Shahzad and R. Gloaguen, 2011. Tecdem: A matlab based toolbox for tectonic geomorphology, part 2: Surface dynamics and basin analysis. Computer and Geosciences, 37 (2) :261-271.

86. Paulo Cesar Fernandes da Silva, John Canning Cripps, 2011. Geo-environmental Terrain Assessments Based on Remote Sensing Tools: A Review of Applications to Hazard Mapping and Control in Environmental Management in Practice, Edited by: Elzbieta Broniewicz, Publisher: InTech, chapter 5, pp. 85-118

87. Van Niekerk, A. 2010. A comparison of land unit delineation techniques for land evaluation in the Western Cape, South Africa. Land Use Policy, 27 (3) 937-945.

88. Tomislav Hengl, Hannes I. Reuter, 2009. Geomorphometry: concepts, software, applications. Developments in Soil Science, 33 (C) 653-694.

89. Deniz Gerek 2010. Object-Based Classification of Landforms Based on Their Local Geometry and Geomorphometric Context. PhD thesis, Middle East Technical University, 220 p.

90. Ehsani , A.H., Quiel, F.2009. Self-organizing maps for multi-scale morphometric feature identification using shuttle radar topography mission data. Geocarto International, 24 (5) 335-355

91. Raeisi, Ezzat, Stevanovic, Zoran, 2009. Springs of the Zagros mountain range (Iran and Iraq). Groundwater Hydrology of Springs, 498-515

92. Congguo, T., Congqiang, L. 2008 Surface water hydrologic simulation of qingshuijiang watershed based on SRTM DEM. Proceedings of SPIE - The International Society for Optical Engineering 7143, art. no. 71430W.

93. Cees J. van Westen, Enrique Castellanos and Sekhar L. Kuriakose, 2008. Spatial data for landslide susceptibility, hazard, and vulnerability assessment: An overview. Engineering Geology,102, 3-4, 112-131

94. Amir Houshang Ehsani and Friedrich Quiel , 2008. Application of Self Organizing Map and SRTM data to characterize yardangs in the Lut desert, Iran. Remote Sensing Of Environment 112 (7), 3284-3294

95. Amir Houshang Ehsani and Friedrich Quiel , 2008. Geomorphometric feature analysis using morphometric parameterization and artificial neural networks Geomorphology, 99, 1-12

96. ZHOU Qiming, Brian G. Lees and TANG Guo-an, 2008. The TADTM Initiative, Advances in Digital Terrain Analysis, Lecture Notes In Geoinformation & Chartography Vol. XIV, 4-10

97. Rene Lhrer M.A., 2008. Reliefanalyse an Schwemmfchern und Fuflchen im Sdwesten der USA. PhD Thesis, Von der Fakultt fr Georessourcen und Materialtechnik der Rheinisch -Westflischen Technischen Hochschule Aachen, 189 p

98. Luis Felipe Soares Cherem, 2008. Anlise morfomtrica da bacia do alto Rio das Velhas MG. PhD thesis. Universidade Federal de Minas Gerais UFMG, Instituto de Geocincias, 96 p.

99. Gh. Farhoudi, J. Rahnama-Rad & M. Ghodrat, 2008. The wonder of the Bamu overturning northeast of Shiraz, Iran. Iranian Journal of Applied Geology, 6 p

http://www.csr.ufmg.br/modelagem/dissertacoes/luizfelipecherem.pdffile:///. http:/darwin.bth.rwth-aachen.de/opus3/volltexte/2008/2504/pdf/Loehrer_Rene.pdfhttp://etd.lib.metu.edu.tr/upload/12611780/index.pdfhttp://etd.lib.metu.edu.tr/upload/12611780/index.pdfhttp://www.intechweb.org/http://www.intechopen.com/books/show/title/environmental-management-in-practicehttp://www.intechopen.com/books/show/title/self-organizing-maps-applications-and-novel-algorithm-designhttp://www.intechopen.com/books/show/title/self-organizing-maps-applications-and-novel-algorithm-designhttp://www.intechopen.com/books/show/title/self-organizing-maps-applications-and-novel-algorithm-designhttp://www.intechopen.com/articles/show/title/using-self-organising-maps-in-applied-geomorphologyhttp://www.intechopen.com/articles/show/title/using-self-organising-maps-in-applied-geomorphologyhttp://www.crcpress.com/http://www.cplbookshop.com/contents/C2021.htmhttp://www.cplbookshop.com/contents/C2021.htm

20/01/2012 Curriculum Vitae 18 / 28100.Flavio Fortes Camargo, 2008. Object-oriented analysis applied to the mapping of geomorphological units

based on ASTER/TERRA data. PhD Thesis. Instituto Nacional de Pesquisas Espaciais (INPE), Brazil 157 p.,

101.Maria Elisabete Silveira Borges, 2008. Geomorphometric Mapping of Rio Preto Basin. PhD Thesis. University de Brazilia (UnB), Department of Geography, 80 p.

102.Nieker A.V. 2008. CLUES a web based landuse expert system for the Western Cape. PhD Thesis, Stelenbosh University, 242 p

103.Etzelmller, B., Romstad, B. & Fjellanger, J. 2007. Automatic regional classification of topography in Norway. Norwegian Journal of Geology, 87, 167-180.

104.Ehsani Amir Houshang, 2007. Artificial neural networks: applications in morphometric and landscape features analysis PhD thesis. Division of Environmental and Natural Resources Information Systems, Department of Civil and Architectural Engineering, Royal Institute of Technology, Stockholm, Sweden.

105.Ehsani, A.H., Quiel, F. , 2007. Landforms identification using neural network -self organizing map and SRTM data (case study: Eastern carpathians) SPIE - The International Society for Optical Engineering 6748, art. no. 67481H

106.Roa Jos Gregorio, 2007. The use of satellite data and imagery for landslide susceptibility mapping in the Mocotes River Basin, Mrida State-Venezuela. Revista Geogrfica Venezolana v.48 n.2, 183-219

107.M. Alinaghikhani , A. Adib, & M. Pourkermany, 2007. Investigating of seismic source & seismotectonic activities in Kuhrang Area. Iranian Journal of Applied Geology 2(3) 10 p.

108.Borges M , O. Carvalho, . Martins, G. Arcoverde, R.Guimares 2007. Emprego do processamento digital dos parmetros morfomtricos no mapeamento geomorfolgico da bacia do rio preto. Espao & Geografia, 10(2) 401:429

109.Valeriano, M.M., Kuplich, T.M., Storino, M., Amaral, B.D., Mendes Jr., J.N., Lima, D.J. 2006. Modeling small watersheds in Brazilian Amazonia with shuttle radar topographic mission-90 m data. Computers & Geosciences 32 (8), 1169-1181.

110.Ashjari, J., Raeisi, E., 2006. Influences of anticlinal structure on regional flow, Zagros, Iran. Journal of Cave & Karst Studies, 68, 118-129.

111.Van Asselen, S., Seijmonsbergen, A.C. , 2006. Expert-driven semi-automated geomorphological mapping for a mountainous area using a laser DTM. Geomorphology 78, 309-320.

112.Lucian Drgu, Thomas Blaschke, 2006. Automated classification of landform elements using object-based image analysis. Geomorphology 81, 330344

113.Ashjari, J., Raeisi, E. 2006. Lithological control on water chemistry in karst aquifers of the Zagros Range, Iran. Cave & Karst Science, 33 (3), 111-118.

114.Saiedeh Hussaini, Saeid Pirasteh, Syed Ahmad Ali, 2005. Remote Sensing & Digital Elevation Model (DEM) Application: Stability-Saturation study and Relation to Lithology in Tang-e- Bostanak, Zagros Mountains Southwest Iran. Geomatics 2005, New Deli, India. 8 pages.

115.Fernanda Nery, Joo Matos, 2005. Avaliao de modelos globais de terreno em portugal continent. Instituto Geograpfico Portugues, 12 p.

116.Stefan Rasemann, Jochen Schmidt, Lothar Schrott, and Richard Dikau, 2004. Geomorphometry in mountain terrain. In: Michael Bishop & John F. Shroder (Editors). Geographic Information Science & Mountain Geomorphology, Springer Praxis Books, Chichester, UK., 468 p.

117.A. O. T. Pinto, O. A. de Carvalho Junior, R. F. Guimares, R. A.T. Gomes, .S. Martins & M.D.A. Neto, 2004. Tratamento Dos Dados Da Misso Shuttle Radar Topography Mission E Comparao Com Modelo Digital De Terreno Gerado Por Interpolao De Cartas Topogrficas. Espao & Geografia, 7, 1, 77:97

118.Valeriano M., 2004. DEM with SRTM DATA for S. America . Instituto Nacional de Pesquisas Espaciais (INPE), Brazil 72 p.,

119.Paa nek, T. 2004. The use of morphometric parameters in tectonic geomorphology (on the example of the Western Beskydy Mts), Acta Universitatis Carolinae Geographica, 39 (1), 111-126

120.Nash, G.D., Johnson, G.W. 2003. Conceptualization and implementation of a tectonic geomorphology study for geothermal exploration in the Great Basin, U.S.A. Transactions - Geothermal Resources, 27, 663-667

121.Gallant, J.C., Dowling, T.I. 2003. A multiresolution index of valley bottom flatness for mapping depositional areas, Water Resources Research 39 (12), ESG 401-ESG 413

http://mtc-m12.sid.inpe.br/col/sid.inpe.br/sergio/2004/06.30.10.57/doc/publicacao.pdfhttp://mtc-m12.sid.inpe.br/col/sid.inpe.br/sergio/2004/06.30.10.57/doc/publicacao.pdfhttp://www.amazon.com/exec/obidos/search-handle-url/105-2656944-3277228?_encoding=UTF8&search-type=ss&index=books&field-author=John%20F.%20Shroderhttp://www.amazon.com/exec/obidos/search-handle-url/105-2656944-3277228?_encoding=UTF8&search-type=ss&index=books&field-author=Michael%20Bishophttp://www.igeo.pt/instituto/cegig/got/3_Docs/Files/%20Nery_Matos_2005_AvaliacaoDeModelosGlobaisDeTerrenoEmPortugalContinental.pdfhttp://www.diva-portal.org/kth/theses/abstract.xsql?dbid=4392%20,%20http://kth.diva-portal.org/smash/get/diva2:13966/FULLTEXT01http://www.diva-portal.org/kth/theses/abstract.xsql?dbid=4392%20,%20http://kth.diva-portal.org/smash/get/diva2:13966/FULLTEXT01file:///. https:/etd.sun.ac.za/jspui/bitstream/10019/1778/2/Van Niekerk, A.pdfhttp://bdtd.bce.unb.br/tedesimplificado/tde_busca/processaArquivo.php?codArquivo=3356http://mtc-m17.sid.inpe.br/col/sid.inpe.br/mtc-m17@80/2008/03.17.19.50/doc/Disserta%E7%E3o_FFC_SR_INPE.pdfhttp://mtc-m17.sid.inpe.br/col/sid.inpe.br/mtc-m17@80/2008/03.17.19.50/doc/Disserta%E7%E3o_FFC_SR_INPE.pdf

20/01/2012 Curriculum Vitae 19 / 28122.Mrcio M. Valeriano, Anglica G. Picini 2003. Geoprocessing of agroclimatological information. INPE-10128-

RPQ/751, So Jos dos Campos, 133 p 123.Pike, R., 2003. A Bibliography of Terrain Modeling the Quantitative Representation of Topography

Supplement 4.0. U.S. Geological Survey Open-File Report 02-465, 157 p. 124.Stefan Rasemann , 2003. Geomorphometrische Struktur eines mesoskaligen alpinen Geosystems PhD

Thesis Mathematisch-Naturwissenschaftliche Fakultt University of Bonn, 353 p.\125.Valeriano M., 2002. Constructing Digital Elevation Models For Watersheds With Kriging. INPE, Brazil 56 p., 126.Mrcio de Morisson Valeriano, Andr Ricardo de Melo, Ludmila Alexandra dos Santos Sarraipa, Ivan

Paulo Mendes Negreiros e Wander Pallone Filho, 2002. Constructing a digital topographical database for state of So Paulo with RADARSAT-1 data. Acta Scientiarum v. 24, n. 6, p. 1825-1831.

MILIARESIS, G.CH., 2001. EXTRACTION OF BAJADAS FROM DIGITAL ELEVATION MODELS & SATELLITE IMAGERY. COMPUTERS & GEOSCIENCES, 27, 1157-1167

127.CHENG Weiming, ZHOU Chenghu, LI Bingyuan, SHEN Yuancun, ZHANG Baiping, 2011. Structure and contents of layered classification system of digital geomorphology for China Journal of Geographical Sciences, 21(5): 771-790

128.Jos Luis Silvn-Crdenas, Le Wang, 2011. Extraction of Buildings Footprint from LiDAR Altimetry Data with the Hermite Transform. Lecture Notes in Computer Science, 6718, 314-321, DOI: 10.1007/978-3-642-21587-2_34

129.Faisal Shahzad, Richard Gloaguen 2011, Tecdem: A matlab based toolbox for tectonic geomorphology, part 1: Drainage network preprocessing and stream profile analysis. Computers & Geosciences, 37 (2) :250-260.

130.Drgu, L., Eisank, C. 2011. Object representations at multiple scales from digital elevation models. Geomorphology, 129:183189.

131.Weiming Cheng, Chenghu Zhou, Huixia Chai, Shangmin Zhao, Haijiang Liu, Zengpo Zhou, 2011. Research and compilation of the geomorphologic atlas of the People's Republic of China (1: 1,000,000). Journal of Geographical Sciences,21(1):89-100

132.F. Shahzad and R. Gloaguen, 2011. Tecdem: A matlab based toolbox for tectonic geomorphology, part 2: Surface dynamics and basin analysis. Computer and Geosciences, 37 (2) :261-271.

133.En, L., Wei-ming, C., Cheng-hu, Z., Yong-hui, Y., Hai-jiang, L. 2008. Extraction of landform information in changbai mountains based on Srtm-DEM and TM data. International Geoscience and Remote Sensing Symposium (IGARSS), art. no. 4423213, 1966-1969.

134.LONG En, CHENG Wei-min, XIAO Fei, LIU Hai-jiang, CHEN Jian-jun, LANG Ling-ling, 2008. Research on key technology of the plain and mountain extraction based on SRTM-DEM and RS. Science of Surveying & Mapping, 33, 2, 53-56.

135.Roa Jose Gregorio, 2007. The use of satellite data and imagery for landslide susceptibility mapping in the Mocotes River Basin, Mrida State-Venezuela. Revista Geogrfica Venezolana, 48(2), 183-219

136.Jose Gregorio Rio Logo, 2007. Identifying landslide hazards in a tropical mountain environment, using geomorphologic and probabilistic approaches. PhD thesis University of Maryland. 187 p.

137.A.S. Jayko1, C.M. Menges2, and R.A. Thompson, 2005. Digital Method for Regional Mapping of Surficial Basin Deposits in Arid Regions, Example from Central Death Valley, Inyo County, California, Open-File Report 2005-1445, US Geological Survey, 43 p.

138.Pike, R., 2003. A Bibliography of Terrain Modeling the Quantitative Representation of TopographySupplement 4.0. U.S. Geological Survey Open-File Report 02-465, 157 p.

MILIARESIS, G. CH., ARGIALAS, D.P. 2002. QUANTITATIVE REPRESENTATION OF MOUNTAIN OBJECTS EXTRACTED FROM THE GTOPO30. INT. JOURNAL OF REMOTE SENSING, 23, 949-964.

139.Bishop, M.P., James, L.A., Shroder, J.F., Walsh, S.J, 2012. Geospatial technologies and digital geomorphological mapping: Concepts, issues and research. Geomorphology,137(1)5-26.

140.Camargo, F.F., Almeida, C.M., Florenzano, T.G., Heipke, C., Feitosa, R.Q., Costa, G.A.O.P.2011. Aster/Terra imagery and a multilevel semantic network for semi-automated classification of landforms in a subtropical area. Photogrammetric Engineering and Remote Sensing, 77 (6) 619-629.

141.A., Wang, Y. Liu, 2011. Object-oriented method based research on classification of relief form of China. International Conference on Information Science and Technology, ICIST 2011, art. no. 5765338, pp. 679-684.

http://drum.lib.umd.edu/bitstream/1903/7825/1/umi-umd-5110.pdfhttp://drum.lib.umd.edu/bitstream/1903/7825/1/umi-umd-5110.pdfhttp://mtc-m12.sid.inpe.br/col/sid.inpe.br/iris@1912/2005/07.21.00.43.43/doc/mde_krig3.pdffile:///1.. http:/hss.ulb.uni-bonn.de/diss_online/math_nat_fak/2003/rasemann_stefanfile:///. http:/mtc-m12.sid.inpe.br/col/sid.inpe.br/marciana/2003/12.09.09.48/doc/publicacao.pdf

20/01/2012 Curriculum Vitae 20 / 28142.Ahmad Fadzil Mohamad Hani, Dinesh Sathyamoorthy, Vijanth Sagayan Asirvadam, 2011. A method for

computation of surface roughness of digital elevation model terrains via multiscale analysis. Computers & Geosciences, 37(2) :177-192 , DOI: 10.1016/j.cageo.2010.05.021.

143.Dinesh Sathyamoorthy, 2010. Scale based uncertainty modelling. The Journal of Defense & Security, 1(1): 16 p.

144.Rosa Nappi, Giuliana Alessio, Eliana Bellucci Sessa, 2010. A case study comparing landscape metrics to geologic and seismic data from the Ischia Island (Southern Italy). Applied Geomatics, 2, 73-82.

145.Dinesh Sathyamoorthy, 2010. Morphological spatial pattern analysis of mountains extracted from multiscale digital elevation models. The Journal of Defense & Security, 1(2): 220-237

146.Dinesh Sathyamoorthy, 2010. Morphological Spatial Pattern Analysis of Mountains Extracted from Multiscale Digital Elevation Models. MAPASIA, 26-28/07/2010, Kuala Lumpur, MALAYSIA, 26 pages,

147.Dinesh ., 2009. Analysis of Landform Metrics of Mountains Extracted from Multiscale Digital Elevation Models Australian Journal of Basic and Applied Sciences, 3(4): 3997-4010.

148.Flvio Fortes Camargo, Teresa Gallotti Florenzano, Cludia Maria de Almeida & Cleber Gonzales de Oliveira, 2009. Abordagens cognitivas para a identificao de unidades geomorfolgicas por meio de dados ASTER/Terra. Revista Brasileira de Geocincias, 39(2), 276-288.

149.Straumann, R.K., Purves, R.S., 2008. Delineation of valleys and valley floors. Lecture Notes In Computer Science, 5266 LNCS 320-336.

150.Dinesh, S. 2008. Computation of surface roughness of mountains extracted from Digital Elevation Models Journal of Applied Sciences 8 (2), 262-270

151.Sathyamoorthy, D. , 2008. Extraction of watersheds from digital elevation models using mathematical morphology. Journal of Applied Sciences 8 (6), 956-965

152.Dinesh, S, Mohd Hani, Ahmad Fadzil 2008. Scale-independent surface roughness via the generation of multiscale digital elevation models. International Conference on Computer and Communication Engineering, May 13-15, Kuala Lumpur, Malaysia

153.Straumann, R.K., Purves, R.S., 2008. Definition of valleys and valley floors. . Geographic information science: 5th international conference, GIScience-2008 (Gova T., Miller H., Frank A., Goodchild M. Editors), Park City, Utah, USA , 320-335.

154.Harry Seijmonsbergen, 2008. Digital geomorphological information for alpine hazard studies using laser altimetry data and gis with an example from vorarlberg, Austria. INTERPRAEVENT 2008 Conference Vol. 2, 395-406,

155.LIU Aili , 2008. DEM-based Analysis of Local Relief, Lecture Notes In Geoinformation & Chartography, Vol. XIV, 177-192

156.TANG Guo-an and LI Fayuan, 2008. Landform Classification of the Loess Plateau Based on Slope Spectrum from Grid DEMs), Lecture Notes In Geoinformation & Chartography (Springer), Vol. XIV, 107-124

157.Flavio Fortes Camargo, 2008. Object-oriented analysis applied to the mapping of geomorphological units based on ASTER/TERRA data. PhD Thesis. Instituto Nacional de Pesquisas Espaciais (INPE), Brazil 157 p

158.Sathyamoorthy D., Ahmad Fadzil Mohamad Hani, Vijanth Sagayan a/l Asirvadam, 2008. Computation of Scale-Independent Surface Roughness of Individual Mountains. Map Asia 2008 Kuala Lumpur, Malaysia, 16 p.

159.Dinesh S., 2007. Application of Opening by Reconstruction to Characterize the Size Distribution of Catchments Extracted from Digital Elevation Models. Applied Mathematical Sciences, 1 (13), 615 - 628

160.Dinesh S., 2007. Fuzzy Classification of Physiographic Features Extracted from Multiscale DEMs. Applied Mathematical Sciences, 1(19), 939 - 961

161.Dinesh, S., 2007. Characterization of areas of pixels modified during the generation of multiscale digital elevation models.Journal Of Applied Sciences 7 (20), 3069-3074

162.Dinesh, S., Ahmad Fadzil, M.H. , 2007. Characterization of the size distribution of mountains extracted from multiscale digital elevation models. Journal Of Applied Sciences 7 (10), 1410-1415

163.Dinesh, S., 2007. Characterization of Catchments Extracted From Multiscale Digital Elevation Models. Applied Mathematical Sciences, 1(20), 963 - 974

164.Sathyamoorthy D, 2007. The effect of morphological smoothing by reconstruction on the extraction of peaks and pits from digital elevation models. Pattern Recognition Letters, 28 (12)1400-1406

http://mtc-m17.sid.inpe.br/col/sid.inpe.br/mtc-m17@80/2008/03.17.19.50/doc/Disserta%E7%E3o_FFC_SR_INPE.pdfhttp://mtc-m17.sid.inpe.br/col/sid.inpe.br/mtc-m17@80/2008/03.17.19.50/doc/Disserta%E7%E3o_FFC_SR_INPE.pdfhttp://www.interpraevent.at/palm-cms/upload_files/Publikationen/Tagungsbeitraege/2008_2_395.pdfhttp://www.interpraevent.at/palm-cms/upload_files/Publikationen/Tagungsbeitraege/2008_2_395.pdfhttp://eprints.utp.edu.my/1050/1/dineshComputationanMap.pdfhttp://eprints.utp.edu.my/1050/1/dineshComputationanMap.pdfhttp://www.mapasia.org/2010/proceeding/pdf/94.pdfhttp://www.mapasia.org/2010/proceeding/pdf/94.pdf

20/01/2012 Curriculum Vitae 21 / 28165.Sathymoorthy D, Palanikumar R, Sagar BSD, 2007. Morphological segmentation of physiographic

features from DEM Int. Journal Of Remote Sensing, 28 (15) 3379-3394166.Ivica MILEVSKI, 2007. Morphometric elements of terrain morphology In the republic of macedonia and their

influence on soil erosion. International Conference Erosion and Torrent Control as a Factor in Sustainable River Basin Management 25-28 September 2007, Belgrade Serbia. 8p.

167.LIU Aili TANG Guoan, 2006. DEM Based Auto-classification of Chinese Landform. Geo-Information Science, Vol.8 No.4 P.8-14

168.Pathmanabhan A., S. Dinesh, 2007. The Effect of Gaussian Blurring on the Extraction of Peaks and Pits from Digital Elevation Models. Discrete Dynamics in Nature and Society, Article ID 62137 1-12 p.

169.L. Coulibaly and k. Goita, 2006. Evaluation of the potential of various spectral indices and textural features derived from satellite images for surficial deposits mapping, International Journal of Remote Sensing, 27, 45674584

170.Van Asselen, S., Seijmonsbergen, A.C. , 2006. Expert-driven semi-automated geomorphological mapping for a mountainous area using a laser DTM. Geomorphology 78, 309-320

171.Dinesh Sathyamoorthy, 2006. Extraction of Mountains from Digital Elevation Models Using Mathematical Morphology. GIS Development, October-December, 5 pages.

172.Coulibaly, L., Gwyn, Q.H.J. 2005. Integration of optical and radar satellite image data and of topographic data for geomorphologic mapping, Canadian Journal of Remote Sensing 31 (6), 439-449

173.Tang, G., Liu, A., Li, F., Zhou, J. 2006. DEM based research on the landform features of China. SPIE - The International Society for Optical Engineering 6420, art. no. 64201Y

174.Enrique Castellanos, 2005. Processing Srtm Dem Data For National Landslide Hazard Assessment. Vi Congreso De Geologa. La Habana, 5-8 April, 12 p.

175.Brad Maguire, 2006. Development of the Landform Classification System, Geotech 2006, Ottawa, Canada, 14-15 Feb.

176.Brad Maguire, 2005. Towards a Landform Geodatabase: The Automatic Identification of Landforms (M.Sc. Thesis), Faculty of Geography, University of British Columbia, UBC, April 2005), 145 p.

177.Pike, R., 2003. A Bibliography of Terrain Modeling the Quantitative Representation of TopographySupplement 4.0. U.S. Geological Survey Open-File Report 02-465, 157 p.

MILIARESIS G., KOKKAS N., 2003. THE GEOMOPHOMETRIC SIGNATURE OF VALLES MARINERIS FROM M.O.L.A. DEM. ASPRS ANNUAL CONF., ANCHORAGE, ALASKA, MAY 5-9, 122-130

178.M. A. V. Gorini, 2009. Physiographic Classification of the Ocean Floor: A Multi-Scale Geomorphometric Approach. Proceedings of Geomorphometry 2009. Zurich, Switzerland, 31 Aug. - 2 Sep., pp.98-105

., 2003. -. , , 243 p.179. . 2010.

, . , 1(1):25-30180. , O & 2009. & .

, 3:121-135 p.181. . 2008. /.

Diploma Thesis, , & , 155 p.182. . , 2008.

. MSc Thesis, , - (_....) " ". 153 .

183. , 2007. -: 28 2007 . MSc Thesis /, ... 152 p.

184.Papadogiannakis N., 2006. Remote satellite imaging analysis with the use of geographic information systems in vineyards management". MSc Thesis, Environmental Science Department University of the Aegean, 77 p.

BLASCO F., BELLAN M.F., BARBAROUSSI B., MILIARESIS G., 2004. Ground truth by the use of orthophotos in ikonos image processing. Int. Archieves Of Photogrammetry, Remote Sensing & GIS - VOL. XXXV, (XXTH ISPRS Congress, 12-23 JULY, Istanbul, Commission IV), 417-421.

http://www.srcosmos.gr/srcosmos/generic_pagelet.aspx?pagelet=Article%20summary&pub_id=9527#References%20included%20in%20article:http://www.srcosmos.gr/srcosmos/generic_pagelet.aspx?pagelet=Article%20summary&pub_id=9527#References%20included%20in%20article:http://attica.hua.gr:8080/dspace/bitstream/123456789/292/1/Metaptychaiki5.pdfhttp://attica.hua.gr:8080/dspace/bitstream/123456789/292/1/Metaptychaiki5.pdfhttp://dspace.lib.ntua.gr/bitstream/123456789/2895/3/gouliamoua_ecoregions.pdfhttp://dspace.lib.ntua.gr/bitstream/123456789/2895/3/gouliamoua_ecoregions.pdfhttp://artemis.cslab.ntua.gr/el_thesis/artemis.ntua.ece/.../DT2008-0087.dochttp://geomorphometry.

Documents

Email: miliaresis.g@gmail - Research Development Officerdo.upatras.gr/v1/public/files/885/file242.pdf · Email: [email protected] ... Terrain analysis and Hydrology as well as