Machine learning-based monitoring and modeling for spatio-temporal urban growth of Islamabad

LULC maps are important thematic maps that provide a baseline for monitoring, assessing, and planning activities. This study incorporates spatio-temporal land use/ land cover (LULC) monitoring (1991-2021) and urban growth modeling (2021-2041) of Islamabad, Pakistan to deduce the changes in various LULC classes in the past and the future by incorporating realistic influential thematic layers and Artificial Neural Network-Cellular Automata (ANN-CA) machine learning algorithms. Three decades of Landsat satellite imagery were used to classify LULC maps using a random forest algorithm with high Kappa indexes ranging from 0.93 to 0.97. Simulations for 2011 and 2021 were done for well-calibration of the model with Kappa (> 0.85) and spatial similarity (> 75%) using the MOLUSCE plugin in QGIS software. Future predictions were done for the years 2031 and 2041 to analyze and study the future urban growth patterns. The satellite-based LULC maps during 1991-2021 exhibited a 142.4 km(2) increase in net urban growth. This had detrimental effects on other classes: net decrease of forests by 38.4 km(2) and waterbodies by 2.9 km2. The projected increase of urban areas in 2021-2041 will be 58.2 km(2). Visual urban sprawl assessment on LULC maps was done to highlight the type of sprawls. Overall, it was sensed that the city's urbanization has been unplanned and erratic; leading to dire consequences on the environmental and urban systems. Therefore, the study necessitates better monitoring and better planning of urbanization by enforcing policies and necessary measures. (C) 2022 National Authority of Remote Sensing & Space Science. Published by Elsevier B.V.