Integrating CART Algorithm and Multi-source Remote Sensing D
发布时间:2021-02-03 03:50
The sub-pixel impervious surface percentage(SPIS) is the fraction of impervious surface area in one pixel,and it is an important indicator of urbanization.Using remote sensing data,the spatial distribution of SPIS values over large areas can be extracted,and these data are significant for studies of urban climate,environment and hydrology.To develop a stabilized,multi-temporal SPIS estimation method suitable for typical temperate semi-arid climate zones with distinct seasons,an optimal model for...
【文章来源】:Chinese Geographical Science. 2017,27(04)
【文章页数】:12 页
【文章目录】:
1 Introduction
2 Materials and Methods
2.1 Study area
2.2 Data and processing
2.3 Methods
2.3.1 CART algorithm
2.3.2 Training-test data collection
2.3.3 CART modeling and validation
3 Results and Analyses
3.1 CART modeling and accuracy assessment
3.2 Regional extension of model and input vari-able selection
3.2.1 Overall assessment of regional modeling
3.2.2 Analysis of modeling with NLT data
3.2.3 Analysis of modeling using multi-seasonal im-ages
3.3 Final CART model and SPIS results
3.4 Multi-temporal SPIS mapping
4 Discussion
4.1 Effect of bands selection on the SPIS estimates
4.2 Accuracy assessment in different categories of SPIS
5 Conclusions
【参考文献】:
期刊论文
[1]CART集成学习方法估算平原河网区不透水面覆盖度[J]. 李晓宁,张友静,佘远见,陈立文,陈静欣. 国土资源遥感. 2013(04)
[2]Fuzzy ARTMAP算法在城市不透水面估算中的应用研究[J]. 曹丽琴,李平湘,张良培,许雄. 武汉大学学报(信息科学版). 2012(10)
[3]流域尺度的不透水面遥感提取[J]. 王浩,吴炳方,李晓松,卢善龙. 遥感学报. 2011(02)
[4]基于遥感影像不同亮度的CART方法估算不透水率研究[J]. 李倩,李彩丽,芮菡艺,郑大鹏,都金康. 水电能源科学. 2010(12)
[5]利用多源遥感数据进行城市不透水面覆盖度估算[J]. 张路,高志宏,廖明生,李新延. 武汉大学学报(信息科学版). 2010(10)
[6]城市土地利用变化的不透水面覆盖度检测方法[J]. 高志宏,张路,李新延,廖明生,邱建壮. 遥感学报. 2010(03)
[7]利用雷达干涉数据进行城市不透水层百分比估算[J]. 江利明,廖明生,林珲,杨立民,汪长城. 遥感学报. 2008(01)
[8]北京城市不透水层覆盖度遥感估算[J]. 周纪,陈云浩,张锦水,李京. 国土资源遥感. 2007(03)
[9]基于亚像元估测的城市硬化地表景观格局分析[J]. 肖荣波,欧阳志云,蔡云楠,李伟峰. 生态学报. 2007(08)
[10]基于MODIS数据的决策树分类方法研究与应用[J]. 刘勇洪,牛铮,王长耀. 遥感学报. 2005(04)
本文编号:3015858
【文章来源】:Chinese Geographical Science. 2017,27(04)
【文章页数】:12 页
【文章目录】:
1 Introduction
2 Materials and Methods
2.1 Study area
2.2 Data and processing
2.3 Methods
2.3.1 CART algorithm
2.3.2 Training-test data collection
2.3.3 CART modeling and validation
3 Results and Analyses
3.1 CART modeling and accuracy assessment
3.2 Regional extension of model and input vari-able selection
3.2.1 Overall assessment of regional modeling
3.2.2 Analysis of modeling with NLT data
3.2.3 Analysis of modeling using multi-seasonal im-ages
3.3 Final CART model and SPIS results
3.4 Multi-temporal SPIS mapping
4 Discussion
4.1 Effect of bands selection on the SPIS estimates
4.2 Accuracy assessment in different categories of SPIS
5 Conclusions
【参考文献】:
期刊论文
[1]CART集成学习方法估算平原河网区不透水面覆盖度[J]. 李晓宁,张友静,佘远见,陈立文,陈静欣. 国土资源遥感. 2013(04)
[2]Fuzzy ARTMAP算法在城市不透水面估算中的应用研究[J]. 曹丽琴,李平湘,张良培,许雄. 武汉大学学报(信息科学版). 2012(10)
[3]流域尺度的不透水面遥感提取[J]. 王浩,吴炳方,李晓松,卢善龙. 遥感学报. 2011(02)
[4]基于遥感影像不同亮度的CART方法估算不透水率研究[J]. 李倩,李彩丽,芮菡艺,郑大鹏,都金康. 水电能源科学. 2010(12)
[5]利用多源遥感数据进行城市不透水面覆盖度估算[J]. 张路,高志宏,廖明生,李新延. 武汉大学学报(信息科学版). 2010(10)
[6]城市土地利用变化的不透水面覆盖度检测方法[J]. 高志宏,张路,李新延,廖明生,邱建壮. 遥感学报. 2010(03)
[7]利用雷达干涉数据进行城市不透水层百分比估算[J]. 江利明,廖明生,林珲,杨立民,汪长城. 遥感学报. 2008(01)
[8]北京城市不透水层覆盖度遥感估算[J]. 周纪,陈云浩,张锦水,李京. 国土资源遥感. 2007(03)
[9]基于亚像元估测的城市硬化地表景观格局分析[J]. 肖荣波,欧阳志云,蔡云楠,李伟峰. 生态学报. 2007(08)
[10]基于MODIS数据的决策树分类方法研究与应用[J]. 刘勇洪,牛铮,王长耀. 遥感学报. 2005(04)
本文编号:3015858
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