Abstract
Land use/land cover (LULC) change is one of the most important indicators in understanding the interactions between humans and the environment. Traditionally, when LULC maps are produced yearly, most existing remote-sensing methods have to collect ground reference data annually, as the classifiers have to be trained individually in each corresponding year. This study presented a novel strategy to map LULC classes without training samples or assigning parameters. First of all, several novel indices were carefully selected from the index pool, which were able to highlight certain LULC very well. Following this, a common unsupervised classifier was employed to extract the LULC from the associated index image without assigning thresholds. Finally, a supervised classification was implemented with samples automatically collected from the unsupervised classification outputs. Results illustrated that the proposed method could achieve satisfactory performance, reaching similar accuracies to traditional approaches. Findings of this study demonstrate that the proposed strategy is a simple and effective alternative to mapping urban LULC. With the proposed strategy, the budget and time required for remote-sensing data processing could be reduced dramatically.
Highlights
As ecosystems in urban areas are strongly influenced by anthropogenic activities, considerable attention is currently directed towards monitoring changes in urban LULC [4]
Several indices were carefully selected from hundreds of published to map typical urban LULC, including MNDWI, NBLI and Urban Index (UI), for highlighting the water, bare land and built-up respectively
The rapid urbanization in developing cities has led to an increase in “city diseases”, natural hazards and environmental changes
Summary
Land use/land cover (LULC) change is one of the most important indicators in understanding the impact of human activities on the environment, which seem unprecedented despite profoundly affecting the Earth’s ecological systems [1]. Of the LULC changes induced by humans, urbanization manifests itself as the most widespread anthropogenic causes of the loss of arable land, habitat destruction and the decline in natural vegetation cover [2]. As ecosystems in urban areas are strongly influenced by anthropogenic activities, considerable attention is currently directed towards monitoring changes in urban LULC [4]. Such studies are important because the spatial characteristics of LULC are useful for understanding various impacts of human activities on ecological conditions in urban environment
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