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International Journal of Geographical Information Science Volume 16, 2002 - Issue 5
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Original Articles

Errors of signal processing in digital terrain modelling

Igor V. Florinsky
Pages 475-501 | Published online: 10 Nov 2010

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Mehmet Doğruluk & Mustafa Yanalak. (2021) Object-based modelling and accuracy assessment of Gordion tumuli using very high-resolution stereo satellite images. International Journal of Remote Sensing 42:19, pages 7239-7269.
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I. V. Florinsky, T. N. Skrypitsyna, S. Trevisani & S. V. Romaikin. (2019) Statistical and visual quality assessment of nearly-global and continental digital elevation models of Trentino, Italy. Remote Sensing Letters 10:8, pages 726-735.
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I. V. Florinsky & A. N. Pankratov. (2016) A universal spectral analytical method for digital terrain modeling. International Journal of Geographical Information Science 30:12, pages 2506-2528.
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Deren Li, Jingxiong Zhang & Huayi Wu. (2012) Spatial data quality and beyond. International Journal of Geographical Information Science 26:12, pages 2277-2290.
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Arabinda Sharma, K.N. Tiwari & P.B.S. Bhadoria. (2010) Vertical accuracy of digital elevation model from Shuttle Radar Topographic Mission – a case study. Geocarto International 25:4, pages 257-267.
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PaulA. Zandbergen. (2010) Accuracy Considerations in the Analysis of Depressions in Medium-Resolution Lidar DEMs. GIScience & Remote Sensing 47:2, pages 187-207.
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IgorV. Florinsky. (2009) Computation of the third‐order partial derivatives from a digital elevation model. International Journal of Geographical Information Science 23:2, pages 213-231.
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A. Nelson, T. Oberthür & S. Cook. (2007) Multi‐scale correlations between topography and vegetation in a hillside catchment of Honduras. International Journal of Geographical Information Science 21:2, pages 145-174.
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J. Oksanen & T. Sarjakoski. (2006) Uncovering the statistical and spatial characteristics of fine toposcale DEM error. International Journal of Geographical Information Science 20:4, pages 345-369.
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M. Albani , B. Klinkenberg, D. W. Andison & J. P. Kimmins. (2004) The choice of window size in approximating topographic surfaces from Digital Elevation Models . International Journal of Geographical Information Science 18:6, pages 577-593.
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Articles from other publishers (59)

Minyoung Jung & Jinha Jung. (2023) A Scalable Method to Improve Large-Scale Lidar Topographic Differencing Results. Remote Sensing 15:17, pages 4289.
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T.N. Skrypitsyna, I.V. Florinsky & G. Qiao. (2023) Motion of the Dålk Glacier (Prydz Bay, East Antarctica): Application of unmanned aerial survey. Polar Science, pages 100949.
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Liyang Xiong, Sijin Li, Guoan Tang & Josef Strobl. (2022) Geomorphometry and terrain analysis: data, methods, platforms and applications. Earth-Science Reviews 233, pages 104191.
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D.R. Newman, J.M.H. Cockburn, L. Drǎguţ & J.B. Lindsay. (2022) Local scale optimization of geomorphometric land surface parameters using scale-standardized Gaussian scale-space. Computers & Geosciences 165, pages 105144.
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Abra Atwood & A. Joshua West. (2021) Evaluation of high‐resolution DEMs from satellite imagery for geomorphic applications: A case study using the SETSM algorithm. Earth Surface Processes and Landforms 47:3, pages 706-722.
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Olga Viedma. (2022) Applying a Robust Empirical Method for Comparing Repeated LiDAR Data with Different Point Density. Forests 13:3, pages 380.
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Anna Dedkova, Igor Florinsky & Nikolay Djuzhev. (2021) Techniques for analyzing digital elevation models of surface topography of microelectronics objects. Techniques for analyzing digital elevation models of surface topography of microelectronics objects.
Daniel R. Newman, Jaclyn M. H. Cockburn, Lucian Drǎguţ & John B. Lindsay. (2022) Evaluating Scaling Frameworks for Multiscale Geomorphometric Analysis. Geomatics 2:1, pages 36-51.
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Igor V. Florinsky & Sergey V. Filippov. (2021) Three-Dimensional Geomorphometric Modeling of the Arctic Ocean Submarine Topography: A Low-Resolution Desktop Application. IEEE Journal of Oceanic Engineering 46:1, pages 88-101.
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Chenrui Li, Fayuan Li, Ziyang Dai, Xue Yang, Xujia Cui & Lanhua Luo. (2020) Spatial variation of gully development in the loess plateau of China based on the morphological perspective. Earth Science Informatics 13:4, pages 1103-1117.
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Laurent Polidori & Mhamad El Hage. (2020) Digital Elevation Model Quality Assessment Methods: A Critical Review. Remote Sensing 12:21, pages 3522.
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Sergey A. Lebedev, Andrey G. Kostianoy & Pavel N. Kravchenko. 2020. The Republic of Adygea Environment. The Republic of Adygea Environment 57 83 .
Bartłomiej Szypuła. (2019) Quality assessment of DEM derived from topographic maps for geomorphometric purposes. Open Geosciences 11:1, pages 843-865.
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Ashutosh Bhardwaj, Kamal Jain & Rajat S. Chatterjee. (2019) Generation of high-quality digital elevation models by assimilation of remote sensing-based DEMs. Journal of Applied Remote Sensing 13:04, pages 1.
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Ante Šiljeg, Mirko Barada, Ivan Marić & Vlatko Roland. (2018) The effect of user-defined parameters on DTM accuracy—development of a hybrid model. Applied Geomatics 11:1, pages 81-96.
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Lukas Graf, Mariano Moreno-de-las-Heras, Maurici Ruiz, Aleix Calsamiglia, Julián García-Comendador, Josep Fortesa, José López-Tarazón & Joan Estrany. (2018) Accuracy Assessment of Digital Terrain Model Dataset Sources for Hydrogeomorphological Modelling in Small Mediterranean Catchments. Remote Sensing 10:12, pages 2014.
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Serajis Salekin, Jack Burgess, Justin Morgenroth, Euan Mason & Dean Meason. (2018) A Comparative Study of Three Non-Geostatistical Methods for Optimising Digital Elevation Model Interpolation. ISPRS International Journal of Geo-Information 7:8, pages 300.
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John P. Wilson. 2018. Environmental Applications of Digital Terrain Modeling. Environmental Applications of Digital Terrain Modeling 279 332 .
Igor V. Florinsky, Vladimir M. Kurkov & Dmitrii P. Bliakharskii. (2018) Geomorphometry from unmanned aerial surveys. Transactions in GIS 22:1, pages 58-81.
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I.V. Florinsky. (2018) Multiscale geomorphometric modeling of Mercury. Planetary and Space Science 151, pages 56-70.
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Izabela Piech, Stanisław Bacior & Monika Mika. (2018) Flood Hazard Zone Modeling for Cadastral Plots in Ojców National Park in Poland. E3S Web of Conferences 63, pages 00016.
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I.V. Florinsky & S.V. Filippov. (2017) A desktop system of virtual morphometric globes for Mars and the Moon. Planetary and Space Science 137, pages 32-39.
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Aliakbar Nazari Samani, Hassan Khosravi, Tayyebeh Mesbahzadeh, Maryam Azarakhshi & Mohammad Reza Rahdari. (2016) Determination of sand dune characteristics through geomorphometry and wind data analysis in central Iran (Kashan Erg). Arabian Journal of Geosciences 9:18.
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Fayuan Li, Guoan Tang, Chun Wang, Lingzhou Cui & Rui Zhu. (2015) Slope spectrum variation in a simulated loess watershed. Frontiers of Earth Science 10:2, pages 328-339.
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. 2016. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 415 473 .
Igor V. Florinsky. 2016. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 221 241 .
Igor V. Florinsky. 2016. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 189 219 .
Igor V. Florinsky. 2016. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 149 187 .
Igor V. Florinsky. 2016. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 109 147 .
Igor V. Florinsky. 2016. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 77 108 .
Wenzhong Shi, Bin Wang & Yan Tian. (2014) Accuracy Analysis of Digital Elevation Model Relating to Spatial Resolution and Terrain Slope by Bilinear Interpolation. Mathematical Geosciences 46:4, pages 445-481.
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Rudolf Sailer, Martin Rutzinger, Lorenzo Rieg & Volker Wichmann. (2014) Digital elevation models derived from airborne laser scanning point clouds: appropriate spatial resolutions for multi-temporal characterization and quantification of geomorphological processes. Earth Surface Processes and Landforms 39:2, pages 272-284.
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Matthew V. Bilskie, Reza Akhavian & Scott Hagen. (2012) Bare Earth LiDAR to Gridded Topography for the Pascagoula River, MS: An Accuracy Assessment. Bare Earth LiDAR to Gridded Topography for the Pascagoula River, MS: An Accuracy Assessment.
Arved C. Schwendel, Ian C. Fuller & Russell G. Death. (2012) Assessing DEM interpolation methods for effective representation of upland stream morphology for rapid appraisal of bed stability. River Research and Applications 28:5, pages 567-584.
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. 2012. Digital Terrain Analysis in Soil Science and Geology. Digital Terrain Analysis in Soil Science and Geology 317 366 .
Stephen Wise. (2011) Cross-validation as a means of investigating DEM interpolation error. Computers & Geosciences 37:8, pages 978-991.
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Tian-Xiang Yue. 2011. Surface Modeling. Surface Modeling 207 229 .
Neil Arnold. (2010) A new approach for dealing with depressions in digital elevation models when calculating flow accumulation values. Progress in Physical Geography: Earth and Environment 34:6, pages 781-809.
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Qinghua Guo, Wenkai Li, Hong Yu & Otto Alvarez. (2010) Effects of Topographic Variability and Lidar Sampling Density on Several DEM Interpolation Methods. Photogrammetric Engineering & Remote Sensing 76:6, pages 701-712.
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Arved C. Schwendel, Ian C. Fuller & Russell G. Death. (2010) Morphological dynamics of upland headwater streams in the southern North Island of New Zealand. New Zealand Geographer 66:1, pages 14-32.
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Yonghak Song & Jie Shan. (2009) An Adaptive Approach to Topographic Feature Extraction from Digital Terrain Models. Photogrammetric Engineering & Remote Sensing 75:3, pages 281-290.
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GuoAn Tang, FaYuan Li, XueJun Liu, Yi Long & Xin Yang. (2008) Research on the slope spectrum of the Loess Plateau. Science in China Series E: Technological Sciences 51:S1, pages 175-185.
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Xiaoye Liu. (2008) Airborne LiDAR for DEM generation: some critical issues. Progress in Physical Geography: Earth and Environment 32:1, pages 31-49.
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Igor V. FLORINSKY. 2008. Advances in Digital Terrain Analysis. Advances in Digital Terrain Analysis 365 382 .
Igor V. Florinsky. 2008. Geospatial Vision. Geospatial Vision 171 192 .
Ian C. Fuller & Erin L. Hutchinson. (2007) Sediment flux in a small gravel-bed stream: Response to channel remediation works. New Zealand Geographer 63:3, pages 169-180.
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Tian-Xiang Yue, Zhen-Ping Du, Dun-Jiang Song & Yun Gong. (2007) A new method of surface modeling and its application to DEM construction. Geomorphology 91:1-2, pages 161-172.
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Jan T. Bjørke & Stein Nilsen. (2007) Computation of Random Errors in Digital Terrain Models. GeoInformatica 11:3, pages 359-382.
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Jaroslav Hofierka & Tom Cebecauer. (2007) Spatial Interpolation of Elevation Data With Variable Density: A New Methodology to Derive Quality DEMs. IEEE Geoscience and Remote Sensing Letters 4:1, pages 117-121.
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John B. Lindsay & Irena F. Creed. (2006) Distinguishing actual and artefact depressions in digital elevation data. Computers & Geosciences 32:8, pages 1192-1204.
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Paul A Zandbergen. (2006) The effect of cell resolution on depressions in Digital Elevation Models. Applied GIS 2:1, pages 4.1-4.1.
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John B. Lindsay & Irena F. Creed. (2005) Removal of artifact depressions from digital elevation models: towards a minimum impact approach. Hydrological Processes 19:16, pages 3113-3126.
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John B. Lindsay & Irena F. Creed. (2005) Sensitivity of Digital Landscapes to Artifact Depressions in Remotely-sensed DEMs. Photogrammetric Engineering & Remote Sensing 71:9, pages 1029-1036.
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Igor V. Florinsky. (2005) Artificial Lineaments in Digital Terrain Modelling: Can Operators of Topographic Variables Cause Them?. Mathematical Geology 37:4, pages 357-372.
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Bernhard Schneider. (2005) Extraction of Hierarchical Surface Networks from Bilinear Surface Patches. Geographical Analysis 37:2, pages 244-263.
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S. L. Smith, D. A. Holland & P. A. Longley. (2005) Quantifying Interpolation Errors in Urban Airborne Laser Scanning Models. Geographical Analysis 37:2, pages 200-224.
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Marco Hugentobler & Bernhard Schneider. (2005) Breaklines in Coons surfaces over triangles for the use in terrain modelling. Computers & Geosciences 31:1, pages 45-54.
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S.D. Warren, M.G. Hohmann, K. Auerswald & H. Mitasova. (2004) An evaluation of methods to determine slope using digital elevation data. CATENA 58:3, pages 215-233.
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Ian C. Fuller, Andrew R. G. Large, Martin E. Charlton, George L. Heritage & David J. Milan. (2003) Reach‐scale sediment transfers: an evaluation of two morphological budgeting approaches. Earth Surface Processes and Landforms 28:8, pages 889-903.
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