2013_2014和2017_2018土地覆盖产品的南非土地覆盖变化检测

IF 0.3 Q4 REMOTE SENSING South African Journal of Geomatics Pub Date : 2019-10-09 DOI:10.4314/sajg.v8i2.4
L. Ngcofe, R. Hickson, Pradeep Singh
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引用次数: 2

摘要

对有关地球表面的最新信息的需求不断增加,因为这些信息为大量应用提供了基础。其中包括地球资源探测和评价、土地覆盖和土地利用变化监测以及气候变化评估等其他广泛的环境研究。由于遥感对地观测具有重复性数据采集、天气视图及其提供的不同空间分辨率和历史数据集的优势,已成为各种地球研究的主要首选数据源。本研究对2013 ~ 2014年和2017 ~ 2018年地球观测所得土地覆盖产品的土地覆盖变化检测进行了评估。有大量的变更检测方法和技术,其中一些还在不断涌现。本研究开展了分类后变化检测方法,包括形态学和光谱滤波技术。为检测变化而评估的10个土地覆盖类别是:天然林地、灌木地、草地、水体、湿地、荒地、耕地、人工林以及矿山和采石场。变化检测准确率为74.97%。通过似然分析,发生变化的可能性(如耕地到草地)和不发生变化的可能性(如建成林到人工林),导致72.2%的潜在现实变化面积。变化检测结果进一步取决于输入的土地覆盖数据集的质量、兼容性和准确性。不同辅助数据的应用以及不同的土地覆盖分类建模技术也会影响土地覆盖变化检测的真实反射率。因此,在分析变更检测时应格外小心,以便提供真实可靠的变更。
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The South African land cover change detection derived from 2013_2014 and 2017_2018 land cover products
The appetite for up-to-date information about the earth’s surface is ever increasing, as such information provides a basis for a large number of applications. These include the earth’s resource detection and evaluation, land cover and land use change monitoring together with other vast environmental studies such as climate change assessment. Due to the advantages of repetitive data acquisition, the synoptic view, together with the varied spatial resolution it provides, and its available historically achieved dataset, remote sensing earth observation has become the major preferred data source for various earth studies. This study assesses land cover change detection of the land cover products (2013_2014 and 2017_2018) derived from earth observation.There are vast number of change detection methodologies and techniques with some still emerging. This study embarked on post classification change detection methodology which entailed morphological and spectral filtering techniques. The 10 land cover classes that were assessed for change detection are: natural wooded land, shrubland, grassland, waterbodies, wetlands, barren lands, cultivated, built-up, planted forest together with mines and quarries. The change detection accuracy result was 74.97%. Through the likelihood analysis, the likelihood for change to occur (e.g. cultivated to grassland) and unlikelihood of change to occur (e.g. built-up to planted forest), resulted in 72.2% areas of potential realistic change.The change detection results, further depend on the quality, compatibility and accuracy of the input land cover datasets. The application of different ancillary data together with different modelling techniques for land cover classification also affect the true reflectance of land cover change detection. Therefore extra caution should be exercised when analysing change detection so as to provide true and reliable changes.
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