A satellite-based burned area dataset for the northern boreal region from 1982 to 2020 |
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UAV-Based Disease Detection in Palm Groves of Phoenix canariensis Using Machine Learning and Multispectral Imagery |
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Proposal of an alternative to the ama guidelines for the evaluation of the cervical rom |
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Artificial intelligence prediction of the effect of rehabilitation in whiplash associated disorder |
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Improving the staging of neck injuries using a new index, the Neck Functional Holistic Analysis Score: Clustering approach to determine degrees of impairment |
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Modis sensor capability to burned area mapping—assessment of performance and improvements provided by the latest standard products in boreal regions |
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Description of the Baseline Surface Radiation Network (BSRN) station at the Izaña Observatory (2009-2017): Measurements and quality control/assurance procedures |
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Mapping Chestnut Stands Using Bi-Temporal VHR Data |
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Mapping Chestnut stands using bi-temporal VHR data |
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A Comparison of Burned Area Time Series in the Alaskan Boreal Forests from Different Remote Sensing Products |
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A comparison of burned area time series in the alaskan boreal forests from different remote sensing products |
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Estimation of burned area in the Northeastern Siberian boreal forest from a Long-Term Data Record (LTDR) 1982-2015 time series |
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Evaluation of a Bayesian algorithm to detect Burned Areas in the Canary Islands' Dry Woodlands and forests ecoregion using MODIS data |
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Estimation of Burned Area in the Northeastern Siberian Boreal Forest from a Long-Term Data Record (LTDR) 1982–2015 Time Series |
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Evaluation of a Bayesian Algorithm to Detect Burned Areas in the Canary Islands’ Dry Woodlands and Forests Ecoregion Using MODIS Data |
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Methodology for the detection of land cover changes in time series of daily satellite images. Application to burned area detection,Desarrollo de una metodología para la detección de cambios de la cubierta vegetal en series temporales de imágenes de satélite diarias. Aplicación a la detección de áreas quemadas |
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The synergy of the 0.05° (∼5km) AVHRR long-term data record (LTDR) and landsat TM archive to map large fires in the North American boreal region from 1984 to 1998 |
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Burned Area Mapping in the North American Boreal Forest Using Terra-MODIS LTDR (2001–2011): A Comparison with the MCD45A1, MCD64A1 and BA GEOLAND-2 Products |
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Effect of spatial resolution on the accuracy of satellite-based fire scar detection in the northwest of the Iberian Peninsula |
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A comparative analysis of burned area datasets in canadian boreal forest in 2000 |
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Burned area mapping in the North American boreal forest using terra-MODIS LTDR (2001-2011): A comparison with the MCD45A1, MCD64A1 and BA GEOLAND-2 products |
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Burned area mapping time series in Canada (1984-1999) from NOAA-AVHRR LTDR: A comparison with other remote sensing products and fire perimeters |
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Intercomparison of AVHRR PAL and LTDR Version 2 Long-Term Data Sets for Africa From 1982 to 2000 and Its Impact on Mapping Burned Area |
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Burned area forecasting using past burned area records and Southern Oscillation Index for tropical Africa (1981-1999) |
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Global spatial patterns and temporal trends of burned area between 1981 and 2000 using NOAA-NASA Pathfinder |
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Burned data time series for Tropical Africa (1981-2000) with the Daily Tile NOAA/NASA Pathfinder AVHRR 8-km Land dataset |
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Estimating above-ground burned biomass and CO<sub>2</sub> emissions for tropical Africa for the year 1990 with the NOAA-NASA Pathfinder AVHRR 8 km land dataset |
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Estimating burned area for tropical Africa for the year 1990 with the NOAA-NASA pathfinder AVHRR 8 km land dataset |
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Uncertainty propagation in models driven by remotely sensed data |
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Space-vegetation software: A remote sensing tool for environmental applications at regional level |
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Program in PASCAL for computing unbiased wright’s F statistics, nei’s gene diversity, and nei’s genetic distance indices |
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