0 |
Berry et al. (2007Berry, P. A. M., Garlick, J. D.; Smith, R. G. 2007. Near-global validation of the SRTM DEM using satellite radar altimetry. Remote Sensing of Environment, 106, p.17-27. ). |
Global |
SRTM V2 |
Satélite ERS-1. |
ME: 3.60m; SD: 16.16m. |
1 |
Shortridge and Messina (2011Shortridge, A., Messina, J. 2011. Near-global validation of the SRTM DEM using satellite radar altimetry. Remote Sensing of Environment, 115, p.1576−1587.). |
EUA |
SRTM-V2 |
National Elevation Dataset (NED) |
ME: 2.0 m; SD: 8.3 m. |
2 |
Mukherjee et al. (2013Mukherjee, S., Joshi, P. K., Mukherjee, S., Ghosi, A., Garc, R. D., Mukhopadhyay, A. 2013. Evaluation of vertical accuracy of open source Digital Elevation Model (DEM). International Journal of Applied Earth Observation and Geoinformation , 21, p.205-217.). |
Shiwalik Himalaya |
CGIAR-CSI SRTM v4.1 |
Ground Control Points (GCPs) |
ME: −2.94 m RMSE: 9.20m. |
3 |
Liu (2008Liu, Y. 2008. An Evaluation on the Data Quality of SRTM DEM at the Alpine and Plateau Area, North-Western of China. In: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII, Part B1, Beijing. p.1123-1128.). |
China |
NASA SRTM3 |
Topographic map 1:25.000 |
ME: -6.635m; SD: 29.16 m. |
4 |
Chaieb et al. (2016Chaieb, A., Rebai, N., Bouaziz, S. 2016. Vertical accuracy assessment of SRTM Ver 4.1 and ASTER GDEM Ver 2 using GPS measurements in Central West of Tunisia. Journal of Geographic Information System, 8, p.57-64. ) |
Kasserini, Tunisia |
SRTM v4.1 |
Ground Control Points (GCPs) |
ME: -1.85 m; SD: 9.41m. |
5 |
Miceli et al. (2011Miceli, S. B., Dias, M. F., Seabra, M. F., Santos, A. R. P., Fernandes, C. M. 2011. Avaliação vertical de Modelos Digitais de Elevação (MDEs) em diferentes configurações topográficas para médias e pequenas escalas. Revista Brasileira de Cartografia , 63(01), p.191-201.). |
Rio de janeiro, Brazil |
SRTM 1 |
Topographic map 1:10.000. |
90% less than 15m; RMSE de 8.86m. |
6 |
Robinson et al. (2014Robinson, N., Regetz, J., Guralnick, R.P. 2014. EarthEnv-DEM90: A nearly-global, void-free, multi-scale smoothed, 90m digital elevation model from fused ASTER and SRTM data. ISPRS Journal of Photogrammetry andRemote Sensing , 87, p.57-67.). |
EUA |
CGIAR-CSI SRTM v4.1 |
Ground Control Points (GCPs) |
ME: 1.66 m; RMSE 4.15m. |
7 |
Datta and Kirchner (2010Datta, P. S., Kirchner, H. S. 2010. Erosion relevant topographical parameters derived from different DEMs-A comparative study from the Indian Lesser Himalayas. Remote Sensing , 2, p.1941-1961. ) |
India |
SRTM University of Maryland. |
Ground Control Points (GCPs) |
ME: -12.56m; SD: 51.37m. |
8 |
Athmania and Achour (2014Athmania, D., Achour, H. 2014. External validation of the ASTER GDEM2, GMTED2010 and CGIAR-CSI- SRTM v4.1 free access Digital Elevation Models (DEMs) in Tunisia and Algeria. Remote Sensing, 6, p.4600-4620.). |
Anaguid, Tunisia |
CGIAR-CSI SRTM v4.1 |
RTK-DGPS |
ME: 2.9 m; SD: 4.6m. |
9 |
Athmania and Achour (2014Athmania, D., Achour, H. 2014. External validation of the ASTER GDEM2, GMTED2010 and CGIAR-CSI- SRTM v4.1 free access Digital Elevation Models (DEMs) in Tunisia and Algeria. Remote Sensing, 6, p.4600-4620.). |
Tebessa, Tunisia |
CGIAR-CSI SRTM v4.1 |
RTK-DGPS |
ME: 0.48 m; SD: 8.4m. |
10 |
Gorokhovich and Voustianiouck (2006Gorokhovich, A., Voustianiouk, A. 2006. Accuracy assessment of the processed SRTM-based elevation data by CGIAR using field data from USA and Thailand and its relation to the terrain characteristics. Remote Sensing of Environment, 104, p.409-415.). |
Catskill Mountains, EUA |
CGIAR-CSI SRTM |
Ground Control Points (GCPs) |
ME: 7.58 m; SD: 8.09m. |
11 |
Gorokhovich and Voustianiouck (2006Gorokhovich, A., Voustianiouk, A. 2006. Accuracy assessment of the processed SRTM-based elevation data by CGIAR using field data from USA and Thailand and its relation to the terrain characteristics. Remote Sensing of Environment, 104, p.409-415.). |
Phuket, Thailand. |
CGIAR-CSI SRTM |
Ground Control Points (GCPs) |
ME: 4.07 m; SD: 4.01m. |
12 |
Tarquini et al. (2012Tarquini, S., Vinci, S., Favalli, M., Doumaz, F., Fornaciai, A., Nannipieri, L. 2012. Release ofa10-m-resolution DEM for the Italian territory: Comparison with global-coverage DEMs and anaglyph-mode exploration via the web. Computers & Geosciences, 38, p.409-415.). |
Italy |
SRTM-JPL-NASA |
LIDAR |
RMSE: 7.78m |
13 |
Frey and Paul (2012Frey, H., Paul, F. 2012. On the suitability of the SRTM DEM and ASTER GDEM for the compilation of topographic parameters in glacier inventories. International Journal of Applied Earth Observation and Geoinformation, 18, p.480-490.). |
Switzerland |
SRTM3 |
DHM25 (swisstopo). |
ME: 2.23 m; SD: 21.64m. |
14 |
Miceli et al. (2011Miceli, S. B., Dias, M. F., Seabra, M. F., Santos, A. R. P., Fernandes, C. M. 2011. Avaliação vertical de Modelos Digitais de Elevação (MDEs) em diferentes configurações topográficas para médias e pequenas escalas. Revista Brasileira de Cartografia , 63(01), p.191-201.). |
Amazon, Brazil |
SRTM 1 |
Ground Control Points (GCPs) |
90% less than 25.00m; RMSE: 11.70m. |
15 |
Rexer and Hirt (2014Rexer, M., Hirt, C. 2014. Comparison of free high-resolution digital elevation data sets (ASTER GDEM2, SRTM v2.1/v4.1) and validation against accurate heights from the Australian National Gravity Database. Australian Journal of Earth Sciences, 61(2), p.213-226.) |
Australia |
CGIAR-CSI SRTM v4.1 |
Ground Control Points (GCPs) |
ME: 3.04 m; SD: 3.22m. |
16 |
Karwel and Ewiak (2008Karwel, A. K., Ewiak, I. 2008. Estimation of the Accuracy of the SRTM Terrain Modelo on the Area of Poland. In: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXI, Part B7, Beijing, p.169-172.) |
Poland |
SRTM |
Ground Control Points (GCPs) |
RMSE: 2.9m (plan); RMSE= 5.4m (mountain) |
17 |
Jörn and Diana (2008) |
Southern Germany |
SRTM-JPL-NGA |
Ground Control Points (GCPs) |
SD: 3.90m. |
18 |
Natalia and Jacek (2014) |
Poland |
SRTM -v4 |
DEM-Cartographic Inventory |
ME: 4.31 m; SD: 14.09m. |
19 |
Antonios et al. (2010) |
Greece |
SRTM v4 |
KGPS coletados com veículo (GPS). |
ME: 0.30 m; SD: 6.40m. |
20 |
Alvaro et al. (2011) |
Spain |
SRTM v4.1 |
Topographic map 1:10.000 |
RMSE: 6.10m |
21 |
Wang et al. (2012Wang, W., Yang, X., Yao, T. 2012.Evaluation of ASTER GDEM and SRTM and their suitability in hydraulic modelling of a glacial lake outburst flood in southeast Tibets. Hydrological Processes, 26, p.213-225. ) |
Tibet |
CIGIAR_ SRTM |
Topographic map 1:50.000 |
ME: 5.3 m; SD: 12.2m. |
22 |
Mukul et al. (2015Mukul, M., Srivastava, V., Mukul, M. 2015. Analysis of the accuracy of Shuttle Radar Topography Mission (SRTM) height models using International Global Navigation Satellite System Service (IGS) Network. Journal of Earth System Science, 124, p.1343-135721.) |
South America |
SRTM v4.1 |
Ground Control Points (GCPs) |
ME: 5.2m; RMSE:11.2m. |
23 |
Ouerghi et al. (2015Ouerghi, S., Elsheikh, R. F. A., Achour, H., Bouazi, S. 2015. Evaluation and validation of recent freely-available ASTER-GDEM V.2, SRTM V.4.1 and the DEM Derived from topographical map over SW Grombalia (Test Area) in North East of Tunisia. Journal of Geographic Information System , 7, pp.266-279. ) |
Grombalia, Tunisia |
SRTM v4.1 |
Topographic map 1:25.000 |
ME: 0.76 m; SD: 47.46m. |
24 |
Suwandana et al. (2012Suwandana, E., Kawamura, K., Sakuno, Y., Kustianto, E., Raharjo, B. 2012. Evaluation of ASTER GDEM2 in Comparison with GDEM1, SRTM DEM and Topographic-Map-Derived DEM Using Inundation Area Analysis and RTK-DGPS Data. Remote Sensing , 4, p.2419-2431.). |
Indonesia |
SRTM v4.1 |
RTK-DGPS |
RMSE: 3.250m |
25 |
Mukul et al. (2015Mukul, M., Srivastava, V., Mukul, M. 2015. Analysis of the accuracy of Shuttle Radar Topography Mission (SRTM) height models using International Global Navigation Satellite System Service (IGS) Network. Journal of Earth System Science, 124, p.1343-135721.) |
Global |
SRTM v4.1 |
Ground Control Points (GCPs) |
ME: 8.0 m; SD: 8.3m. |
26 |
Moura et al. (2014Moura, L. Z., Bias, E. S., Brites, R. 2014. Avaliação da acurácia vertical de Modelos Digitais de Elevação (MDES) nas bacias do Paranoá e São Bartolomeu. Revista Brasileira de Cartografia , 66(01), p.1-14. ) |
Federal District, Brazil |
SRTM v4 |
Topographic map 1:10.000 |
ME: 3.14 m; SD: 4.06m. |
27 |
Santos et al. (2006Santos, A. R. P., Gaboardi, C., Oliveira, C. L. 2006. Avaliação da precisão vertical dos modelos SRTM para a Amazônia. Revista Brasileira de Cartografia , 58(01), p.101-107.) |
Amazon, Brazil |
SRTM-3 |
Ground Control Points (GCPs) |
SD: 11.06m. |
28 |
Ludwig and Schneider (2006Ludwig, R., Schneider, P. 2006. Validation of digital elevation models from SRTM XSAR for applications in hydrologic modeling. ISPRS Journal of Photogrammetry & Remote Sensing 60, p.339-358. ) |
Germany |
SRTM |
Topographic map 1:25.000 |
ME: 11.98 m; RMSE: 36.21m. |
29 |
Jarihani et al. (2015Jarihani, A. A., Callow, J. N., Mcvicar, T. R., Nile, T. G. V., Larsen, J. R. 2015. Satellite-derived Digital Elevation Model (DEM) selection, preparation, and correction for hydrodynamic modelling in large, low-gradient and data-sparse catchments. Journal of Hydrology, 524, p.489-506. ) |
Australia |
SRTM (30/90m) |
Ground Control Points (GCPs) |
SD: 1.84m |
30 |
Iorio et al. (2011) |
Pantanal, Brazil |
SRTM v4 |
Ground Control Points (GCPs) |
RMSE: 16.69m |
31 |
Medeiros et al. (2009Medeiros, C. L., Ferreira, C. N., Ferrreira, G. L. 2009.Avaliação de modelos digitais de elevação para delimitação automática de bacias hidrográficas. Revista Brasileira de Cartografia , 61(02), p.137-151. ) |
Goiás, Brazil |
SRTM-EMBRAPA |
Ground Control Points (GCPs) |
ME: -3.0m; SD:10.0m. |
32 |
Nobrega et al. (2005Nobrega, A. A. R., Santos, C., Cintra, P. J. 2005. Comparação Quantitativa e Qualitativa entre o Modelo Digital Gerado pelo SRTM e por Aerofotogrametria. Anais XII Simpósio Brasileiro de Sensoriamento Remoto, Goiânia, Brasil, INPE, p. 4437-4444.) |
São Paulo Brazil |
SRTM |
Photogrammetry 1:8.000 |
ME: 14.23m; SD:13.73m. |