Abstract
A complex pattern of urban demographic transition has been taking shape since the onset of the COVID-19 pandemic. The long-standing rural-to-urban route of population migration that has propelled waves of massive urbanization over the decades is increasingly being juxtaposed with a reverse movement, as the pandemic drives urban dwellers to suburban communities. The changing dynamics of the flow of residents to and from urban areas underscore the necessity of comprehensive urban land-use mapping for urban planning/management/assessment. These maps are essential for anticipating the rapidly evolving demands of the urban populace and mitigating the environmental and social consequences of uncontrolled urban expansion. The integration of light detection and ranging (LiDAR) and imagery data provides an opportunity for urban planning projects to take advantage of its complementary geometric and radiometric characteristics, respectively, with a potential increase in urban mapping accuracies. We enhance the color-based segmentation algorithm for object-based classification of multispectral LiDAR point clouds fused with very high-resolution imagery data acquired for a residential urban study area. We propose a multilevel classification using multilayer perceptron neural networks through vectors of geometric and spectral features structured in different classification scenarios. After an investigation of all classification scenarios, the proposed method achieves an overall mapping accuracy exceeding 98%, combining the original and calculated feature vectors and their output space projected by principal components analysis. This combination also eliminates some misclassifications among classes. We used splits of training, validation, and testing subsets and the k-fold cross-validation to quantitatively assess the classification scenarios. The proposed work improves the color-based segmentation algorithm to fit object-based classification applications and examines multiple classification scenarios. The presented scenarios prove superiority in developing urban mapping accuracies. The various feature spaces suggest the best urban mapping applications based on the available characteristics of the obtained data.
Highlights
The United Nations’ world urbanization prospects of 2019 anticipate the world urban population to increase to 4.9 billion versus the world rural population dropping by ∼28 million between 2005 and 2030
Of the considerable negative impacts that urban sprawl brings to the ecosystem, the loss of agricultural lands, air
We aim to (i) enhance the color-based segmentation technique[18] to fit supervised object-based classification of colored airborne light detection and ranging (LiDAR) point clouds after integration with aerial photos and (ii) introduce a detailed multilevel classification of LiDAR data using 10 feature spaces formed from different combinations of variables based on the multispectral properties of LiDAR-imagery data and the 3D geometric characteristics of LiDAR point clouds
Summary
The United Nations’ world urbanization prospects of 2019 anticipate the world urban population to increase to 4.9 billion versus the world rural population dropping by ∼28 million between 2005 and 2030. Urban sprawl has significant ecological, social, and health ramifications. Of the considerable negative impacts that urban sprawl brings to the ecosystem, the loss of agricultural lands, air Journal of Applied Remote Sensing. Urban residents in North America are more than doubled in 1950 to 2018 (110 versus 299 million) and are expected to increase by 29% in 2050. The urban population growth rate declined from 1995 to 2000 to 2015 to 2020 (1.6% versus 1%) and is projected to further decrease to 0.6% in 2045 to 2050. The still-positive growth rate exhibits North America’s high levels of urbanization
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