The use of remote sensing and GIS for land use and land cover mapping in Eswatini: A Review

IF 0.3 Q4 REMOTE SENSING South African Journal of Geomatics Pub Date : 2022-09-04 DOI:10.4314/sajg.v10i2.13
Sabelo P. Simelane, C. Hansen, C. Munghemezulu
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引用次数: 1

Abstract

Remote sensing and GIS are often used to assess spatiotemporal variations for land use/land cover (LULC) monitoring and classification. While LULC monitoring and classification has been undertaken in Eswatini, little attention has been given to ascertaining covered thematic areas, methods of image classification, and approaches and techniques for improving classification accuracy. This paper summarises and synthesizes the progress made in the Kingdom of Eswatini regarding the application of remote sensing and GIS in LULC monitoring and classification. Eight thematic areas (water resources mapping; land degradation; forestry; wildfire detection; urban expansion; crop production; disease surveillance; general mapping) dominate evaluated LULC studies, employing three LULC classification methods (classic; manual; advanced). While some studies include strengths and weaknesses of LULC classification techniques applied, others do not. This review shows that only two advanced classifiers (random forest; object-based) were identified from the reviewed articles. In addition, reviewed studies applied only two approaches (use of multi temporal data; fine spatial resolution data) and three techniques (use of ancillary data; post-classification procedure; the use of multisource data) for improving classification accuracy. Furthermore, the review finds that limited LULC investigations have been covered in Eswatini with a specific focus on the Sustainable Development Goals (SDGs). As such, this review recommends 1) the inclusion of higher resolution imagery for mapping purposes, 2) the adaptation of strengths and weaknesses for any image classification technique employed in future publications, 3) the use of more varied approaches and techniques for improving classification accuracy and area estimates, 4) inclusion of standard errors or confidence intervals for error-adjusted area estimates as part of accuracy assessment reporting, 5) the application of advanced image classifiers, and 6) the application of Earth Observation (EO) Analysis Ready Data (ARD) in the production of information for the support of the SDGs.
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遥感和地理信息系统在斯威士兰土地利用和土地覆盖制图中的应用综述
遥感和地理信息系统通常用于评估土地利用/土地覆盖(LULC)监测和分类的时空变化。虽然在斯瓦蒂尼进行了LULC监测和分类,但很少注意确定所涵盖的专题领域、图像分类方法以及提高分类准确性的途径和技术。本文综述和综合了斯威士兰王国在利用遥感和地理信息系统监测和分类土地利用变化方面取得的进展。八个专题领域(水资源制图;土地退化;林业;火灾探测;城市扩张;作物生产;疾病监测;一般映射)主导了评估的LULC研究,采用了三种LULC分类方法(经典;手册;先进的)。虽然一些研究包括了应用的LULC分类技术的优缺点,但其他研究则没有。这篇综述表明只有两个高级分类器(随机森林;基于对象的)从综述文章中被识别出来。此外,所审查的研究只采用了两种方法(使用多时相数据;精细空间分辨率数据)和三种技术(辅助数据的使用;post-classification过程;使用多源数据)提高分类精度。此外,审查发现,在斯瓦蒂尼,有限的LULC调查已被覆盖,并特别关注可持续发展目标(SDGs)。因此,本综述建议1)为制图目的纳入更高分辨率的图像,2)适应未来出版物中使用的任何图像分类技术的优缺点,3)使用更多样化的方法和技术来提高分类精度和面积估计,4)将标准误差或误差调整后的置信区间纳入精度评估报告的一部分。5)先进图像分类器的应用;6)地球观测(EO)分析就绪数据(ARD)在支持可持续发展目标的信息生产中的应用。
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