Mapping dynamic cover types in a large seasonally flooded wetland using extended principal component analysis and object-based classification

文献类型: 外文期刊

第一作者: Dronova, Iryna

作者: Dronova, Iryna;Dronova, Iryna;Gong, Peng;Zhong, Liheng;Gong, Peng;Wang, Lin;Gong, Peng;Wang, Lin;Gong, Peng;Wang, Lin;Gong, Peng;Wang, Lin;Gong, Peng;Wang, Lin

作者机构:

关键词: Dynamic cover types;Wetland remote sensing;Object-based image analysis;PR China;Extended PCA;Phenology;Change trajectory analysis

期刊名称:REMOTE SENSING OF ENVIRONMENT ( 影响因子:10.164; 五年影响因子:11.057 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Periodically inundated wetlands with high short-term surface variation require special approaches to assess their composition and long-term change. To circumvent high uncertainty in single-date analyses of such areas, we propose to characterize them as dynamic cover types (DCTs), or sequences of wetland states and transitions informed by physically and ecologically plausible surface processes. This study delineated DCTs for one 2007-2008 flood cycle at Poyang Lake, the largest freshwater wetland in China, using spatial and temporal orientation modes of extended principal components analysis (EPCA) and supervised object-based classification of multi-spectral and radar image series. Classification accuracy was compared among three sets of attributes selected by machine-learning optimization from object-level mean and standard deviations of: 1) image time series alone; 2) the most informative EPCA outputs alone and 3) image time series and EPCA results together. Classification uncertainty was additionally assessed as low values of object's maximum class membership (<0.5). The highest accuracy was achieved with a larger set of 33 attributes selected from combined time series and EPCA results (overall accuracy 95.0%, kappa 0.94); however, accuracies with smaller sets of variables from input image series or EPCA results alone were comparably high (93.1% and 94.7%, respectively). All three selected attribute sets included standard deviations of image and/or EPCA values, suggesting the utility of object texture in dynamic class discrimination. The highest classification uncertainty was observed primarily along the mapped class boundaries, in some cases indicating minor change trajectories for which prior reference data were not available. Results indicate that DCTs provide a reasonable classification framework for complex and variable Poyang Lake wetlands that can be facilitated by EPCA transformation of complementary remote sensing time series. Future work should test this approach over multiple change cycles and assess sensitivity of results to temporal frequency of input image series, alternative variable selection algorithms and other remote sensors. (C) 2014 Elsevier Inc All rights reserved.

分类号: X83`TP70`P3

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