Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning

Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning

The jujube industry plays a very important role in the agricultural industrial structure of Xinjiang, China. In recent years, the abandonment of jujube fields has gradually emerged. It is critical to inventory the abandoned land soon after it is generated to adjust agricultural production better and...

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Main Authors: Xingrong Li, Chenghai Yang, Hongri Zhang, Panpan Wang, Jia Tang, Yanqin Tian, Qing Zhang
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Remote Sensing
Subjects:
abandoned jujube land
multi-temporal
high spatial resolution
Gaofen-1
Gaofen-6
Random Forest algorithm
Online Access:https://www.mdpi.com/2072-4292/13/4/801
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spelling doaj-5106cf6ec66449349530c07e74913be02021-02-23T00:01:30ZengMDPI AGRemote Sensing2072-42922021-02-011380180110.3390/rs13040801Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine LearningXingrong Li0Chenghai Yang1Hongri Zhang2Panpan Wang3Jia Tang4Yanqin Tian5Qing Zhang6College of Geodesy and Geomatics, Shandong University of Science and Technology, Qingdao 266590, ChinaAerial Application Technology Research Unit, USDA-Agricultural Research Service, College Station, TX 77845, USACollege of Geodesy and Geomatics, Shandong University of Science and Technology, Qingdao 266590, ChinaInstitute of Agricultural Sciences, the 14th Division of Xinjiang Production and Construction Corps, Kunyu 848116, ChinaFaculty of Geographical Science, Beijing Normal University, Beijing 100875, ChinaKey Laboratory of Digital Earth Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100094, ChinaKey Laboratory of Digital Earth Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100094, ChinaThe jujube industry plays a very important role in the agricultural industrial structure of Xinjiang, China. In recent years, the abandonment of jujube fields has gradually emerged. It is critical to inventory the abandoned land soon after it is generated to adjust agricultural production better and prevent the negative impacts from the abandonment (such as outbreaks of diseases, insect pests, and fires). High-resolution multi-temporal satellite remote sensing images can be used to identify subtle differences among crops and provide a good tool for solving this problem. In this research, both field-based and pixel-based classification approaches using field boundaries were used to estimate the percentage of abandoned jujube fields with multi-temporal high spatial resolution satellite images (Gaofen-1 and Gaofen-6) and the Random Forest algorithm. The results showed that both approaches produced good classification results and similar distributions of abandoned fields. The overall accuracy was 91.1% for the field-based classification and 90.0% for the pixel-based classification, and the Kappa was 0.866 and 0.848 for the respective classifications. The areas of abandoned land detected in the field-based and pixel-based classification maps were 806.09 ha and 828.21 ha, respectively, accounting for 8.97% and 9.11% of the study area. In addition, feature importance evaluations of the two approaches showed that the overall importance of texture features was higher than that of vegetation indices and that 31 October and 10 November were important dates for abandoned land detection. The methodology proposed in this study will be useful for identifying abandoned jujube fields and have the potential for large-scale application.https://www.mdpi.com/2072-4292/13/4/801abandoned jujube landmulti-temporalhigh spatial resolutionGaofen-1Gaofen-6Random Forest algorithm
collection DOAJ
language English
format Article
sources DOAJ
author Xingrong Li
Chenghai Yang
Hongri Zhang
Panpan Wang
Jia Tang
Yanqin Tian
Qing Zhang
spellingShingle Xingrong Li
Chenghai Yang
Hongri Zhang
Panpan Wang
Jia Tang
Yanqin Tian
Qing Zhang
Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning
Remote Sensing
abandoned jujube land
multi-temporal
high spatial resolution
Gaofen-1
Gaofen-6
Random Forest algorithm
author_facet Xingrong Li
Chenghai Yang
Hongri Zhang
Panpan Wang
Jia Tang
Yanqin Tian
Qing Zhang
author_sort Xingrong Li
title Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning
title_short Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning
title_full Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning
title_fullStr Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning
title_full_unstemmed Identification of Abandoned Jujube Fields Using Multi-Temporal High-Resolution Imagery and Machine Learning
title_sort identification of abandoned jujube fields using multi-temporal high-resolution imagery and machine learning
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-02-01
description The jujube industry plays a very important role in the agricultural industrial structure of Xinjiang, China. In recent years, the abandonment of jujube fields has gradually emerged. It is critical to inventory the abandoned land soon after it is generated to adjust agricultural production better and prevent the negative impacts from the abandonment (such as outbreaks of diseases, insect pests, and fires). High-resolution multi-temporal satellite remote sensing images can be used to identify subtle differences among crops and provide a good tool for solving this problem. In this research, both field-based and pixel-based classification approaches using field boundaries were used to estimate the percentage of abandoned jujube fields with multi-temporal high spatial resolution satellite images (Gaofen-1 and Gaofen-6) and the Random Forest algorithm. The results showed that both approaches produced good classification results and similar distributions of abandoned fields. The overall accuracy was 91.1% for the field-based classification and 90.0% for the pixel-based classification, and the Kappa was 0.866 and 0.848 for the respective classifications. The areas of abandoned land detected in the field-based and pixel-based classification maps were 806.09 ha and 828.21 ha, respectively, accounting for 8.97% and 9.11% of the study area. In addition, feature importance evaluations of the two approaches showed that the overall importance of texture features was higher than that of vegetation indices and that 31 October and 10 November were important dates for abandoned land detection. The methodology proposed in this study will be useful for identifying abandoned jujube fields and have the potential for large-scale application.
topic abandoned jujube land
multi-temporal
high spatial resolution
Gaofen-1
Gaofen-6
Random Forest algorithm
url https://www.mdpi.com/2072-4292/13/4/801
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AT qingzhang identificationofabandonedjujubefieldsusingmultitemporalhighresolutionimageryandmachinelearning
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