摘要
Accurate impervious surface estimation(ISE)is challenging due to the diversity of land covers and the vegetation phenology and climate.This study investigates the variation of impervious surfaces estimated from different seasons of satellite images and the seasonal sensitivity of different methods.Four Landsat ETM?images of four different seasons and two popular methods(i.e.artificial neural network(ANN)and support vector machine(SVM))are employed to estimate the impervious surface on the pixel level.Results indicate that winter(dry season)is the best season to estimate impervious surface even though plants are not in their growing season.Less cloud and less variable source areas(VSA)(seasonal water body)become the major advantages of winter for the ISE,as cloud is easily confusedwith bright impervious surfaces,andwater in VSA is confusedwith dark impervious surfaces due to their similar spectral reflectance.For the seasonal sensitivity of methods,ANN appears more stable as its accuracy varied less than that obtained with SVM.However,both the methods showed a general consistency of the seasonal changes of the accuracy,indicating that winter time is the best season for impervious surfaces estimation with optical satellite images in subtropical monsoon regions.
基金
The ETM+data from USGS are highly appreciated.This study is jointly supported by the CUHK Direct Grants(2021103)
Hong Kong Research Grants Council(RGC)General Research Grants(GRF)project(CUHK 459210 and 457212)
Hong Kong Innovation and Technology Fund(GHP/002/11GD)
the funding of Shenzhen Municipal Science and Technology Innovation Council(JCYJ20120619151239947)
the National Key Technol-ogies R&D Program in the 12th Five Year Plan of China(2012BAH32B03).
