Vegetation-Ice-Bare Land Cover Conversion in the Oceanic Glacial Region of Tibet Based on Multiple Machine Learning Classifications

Abstract: Oceanic glaciers are one of the most sensitive indicators of climate change. However, remotely sensed evidence of land cover change in the oceanic glacial region is still limited due to the cloudy weather during the growing season. In addition, the performance of common machine learning classification algorithms is also worth testing in this cloudy, frigid and mountainous region. In this study, three algorithms, namely, the random forest, back-propagation neural network (BPNN) and convolutional neural network … Show more

“…Such understanding relay on the Land Use Land Change Modeling LULC that try to explain human environment dynamics producing the changes [6]. LULC needs multi temporal land/forest cover maps as well as the driving forces conducting to that changes [7][8][9]. In addition, machine learning algorithms have been used extensively to explain LULCs.…”

A Random Forest-Cellular Automata Modeling Approach to Predict Future Forest Cover Change in Middle Atlas Morocco, Under Anthropic, Biotic and Abiotic Parameters

“…Such understanding relay on the Land Use Land Change Modeling LULC that try to explain human environment dynamics producing the changes [6]. LULC needs multi temporal land/forest cover maps as well as the driving forces conducting to that changes [7][8][9]. In addition, machine learning algorithms have been used extensively to explain LULCs.…”

A Random Forest-Cellular Automata Modeling Approach to Predict Future Forest Cover Change in Middle Atlas Morocco, Under Anthropic, Biotic and Abiotic Parameters

Estimation of area and volume change in the glaciers of the Columbia Icefield, Canada using machine learning algorithms and Landsat images

Challenges for sustainable development goal of land degradation neutrality in drylands: Evidence from the Northern Slope of the Tianshan Mountains, China