Dryland Crop Recognition Based on Multi-temporal Polarization SAR Data

Zheng Sun, Di Wang, Qingbo Zhou
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引用次数: 2

Abstract

Dryland crops in China have a large planting area and wide spatial distribution, which contributes a lot to grain production. Accurate and timely acquisition of information on dryland crop types, planting areas and spatial distribution in dryland can provide an important basis for agricultural production and management, as well as the formulation of national food policy and economic plan, therefore, it is of great significance for promoting structural reform of agricultural supply side and national food security. The key stage of crop growth in the north of China is affected by cloud and rain weather, which makes it difficult to obtain sufficient effective optical data, and the current recognition accuracy of dryland crops based on polarized SAR data is low. In order to solve these problems, this study selected Jizhou City, Hebei Province as the research area, using the full-polarization RADARSAT -2 data of July 17, August 7 and September 24, 2018, and then selected three polarization decomposition methods (Cloude-Pottier decomposition, Freeman decomposition and Yamaguchi decomposition) and two classification methods (maximum likelihood and random forest) to construct 18 classification combinations. The identification of corn and cotton in study area was studied by using various schemes. Finally, the accuracy of dry land crop identification under various combination schemes was compared quantitatively with the ground survey data. The results showed that, Yamaguchi decomposition combined with maximum likelihood classification method was used on August 7 (flowering and boll period of cotton), and the classification accuracy was the highest (production accuracy was 78.98%). For corn, Yamaguchi decomposition combined with random forest classification method was used on September 24 (mature period of corn), and the classification accuracy was the highest (production accuracy was over 90%). I For the decomposition method, Yamaguchi decomposition has the highest classification accuracy among the three decomposition methods, followed by Freeman decomposition, Cloude-Pottier decomposition has the lowest classification accuracy; as far as the classification method is concerned, the maximum likelihood classification method has the highest recognition accuracy for cotton, but the random forest classification has the highest recognition accuracy for corn; in terms of the best identification phase, the flowering and boll period is the best recognition period for cotton, and the maturity period is the best recognition time for corn.. This study will help to improve the recognition accuracy of corn and cotton in fully polarized SAR data, and provide reference for the identification of multi-temporal dryland crops under complex planting structures.
基于多时相极化SAR数据的旱地作物识别
中国旱地作物种植面积大,空间分布广,对粮食生产有很大贡献。准确、及时地获取旱地作物类型、种植面积和空间分布等信息,可以为农业生产经营以及国家粮食政策和经济计划的制定提供重要依据,对推进农业供给侧结构性改革,保障国家粮食安全具有重要意义。中国北方作物生长关键期受云雨天气影响,难以获得足够有效的光学数据,目前基于极化SAR数据的旱地作物识别精度较低。为了解决这些问题,本研究以河北省济州市为研究区域,利用2018年7月17日、8月7日和9月24日的全极化RADARSAT -2数据,选取3种极化分解方法(cloud - pottier分解、Freeman分解和Yamaguchi分解)和2种分类方法(极大似然和随机森林)构建18种分类组合。采用不同的鉴定方案对研究区玉米和棉花进行了鉴定。最后,将不同组合方案下的旱地作物识别精度与地面调查数据进行了定量比较。结果表明,8月7日(棉花花铃期)采用山口分解结合最大似然分类方法,分类准确率最高(生产准确率为78.98%);对于玉米,9月24日(玉米成熟期)采用山口分解结合随机森林分类方法,分类准确率最高(生产准确率达90%以上)。1对于分解方法,三种分解方法中,Yamaguchi分解的分类精度最高,Freeman分解次之,cloud - pottier分解的分类精度最低;就分类方法而言,最大似然分类法对棉花的识别精度最高,而随机森林分类法对玉米的识别精度最高;在最佳识别期方面,棉花的最佳识别期为花铃期,玉米的最佳识别期为成熟期。本研究将有助于提高全极化SAR数据中玉米和棉花的识别精度,并为复杂种植结构下的多时段旱地作物识别提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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