Forest Types Classification Based on Multi-Source Data Fusion

Forest Types Classification Based on Multi-Source Data Fusion

Forest plays an important role in global carbon, hydrological and atmospheric cycles and provides a wide range of valuable ecosystem services. Timely and accurate forest-type mapping is an essential topic for forest resource inventory supporting forest management, conservation biology and ecological...

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Main Authors: Ming Lu, Bin Chen, Xiaohan Liao, Tianxiang Yue, Huanyin Yue, Shengming Ren, Xiaowen Li, Zhen Nie, Bing Xu
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:Remote Sensing
Subjects:
data fusion
forest types
classification
Online Access:https://www.mdpi.com/2072-4292/9/11/1153
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spelling doaj-f652ef5d55a243a8884a452b62623b232020-11-24T21:52:54ZengMDPI AGRemote Sensing2072-42922017-11-01911115310.3390/rs9111153rs9111153Forest Types Classification Based on Multi-Source Data FusionMing Lu0Bin Chen1Xiaohan Liao2Tianxiang Yue3Huanyin Yue4Shengming Ren5Xiaowen Li6Zhen Nie7Bing Xu8State Key Laboratory of Resources and Environment Information System, Institute of Geographical Science and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, ChinaDepartment of Earth System Science, Tsinghua University, Beijing 100084, ChinaState Key Laboratory of Resources and Environment Information System, Institute of Geographical Science and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Resources and Environment Information System, Institute of Geographical Science and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Resources and Environment Information System, Institute of Geographical Science and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, ChinaKey Laboratory of Watershed ecology and Geographical Environment Monitoring, National Administration of Surveying, Mapping and Geoinformation, Nanchang 330209, ChinaDepartment of Earth System Science, Tsinghua University, Beijing 100084, ChinaState Key Lab of Remote Sensing Science, College of Global Change and Earth System Science, Beijing Normal University, Beijing 100875 ChinaDepartment of Earth System Science, Tsinghua University, Beijing 100084, ChinaForest plays an important role in global carbon, hydrological and atmospheric cycles and provides a wide range of valuable ecosystem services. Timely and accurate forest-type mapping is an essential topic for forest resource inventory supporting forest management, conservation biology and ecological restoration. Despite efforts and progress having been made in forest cover mapping using multi-source remotely sensed data, fine spatial, temporal and spectral resolution modeling for forest type distinction is still limited. In this paper, we proposed a novel spatial-temporal-spectral fusion framework through spatial-spectral fusion and spatial-temporal fusion. Addressing the shortcomings of the commonly-used spatial-spectral fusion model, we proposed a novel spatial-spectral fusion model called the Segmented Difference Value method (SEGDV) to generate fine spatial-spectra-resolution images by blending the China environment 1A series satellite (HJ-1A) multispectral image (Charge Coupled Device (CCD)) and Hyperspectral Imager (HSI). A Hierarchical Spatiotemporal Adaptive Fusion Model (HSTAFM) was used to conduct spatial-temporal fusion to generate the fine spatial-temporal-resolution image by blending the HJ-1A CCD and Moderate Resolution Imaging Spectroradiometer (MODIS) data. The spatial-spectral-temporal information was utilized simultaneously to distinguish various forest types. Experimental results of the classification comparison conducted in the Gan River source nature reserves showed that the proposed method could enhance spatial, temporal and spectral information effectively, and the fused dataset yielded the highest classification accuracy of 83.6% compared with the classification results derived from single Landsat-8 (69.95%), single spatial-spectral fusion (70.95%) and single spatial-temporal fusion (78.94%) images, thereby indicating that the proposed method could be valid and applicable in forest type classification.https://www.mdpi.com/2072-4292/9/11/1153data fusionforest typesclassification
collection DOAJ
language English
format Article
sources DOAJ
author Ming Lu
Bin Chen
Xiaohan Liao
Tianxiang Yue
Huanyin Yue
Shengming Ren
Xiaowen Li
Zhen Nie
Bing Xu
spellingShingle Ming Lu
Bin Chen
Xiaohan Liao
Tianxiang Yue
Huanyin Yue
Shengming Ren
Xiaowen Li
Zhen Nie
Bing Xu
Forest Types Classification Based on Multi-Source Data Fusion
Remote Sensing
data fusion
forest types
classification
author_facet Ming Lu
Bin Chen
Xiaohan Liao
Tianxiang Yue
Huanyin Yue
Shengming Ren
Xiaowen Li
Zhen Nie
Bing Xu
author_sort Ming Lu
title Forest Types Classification Based on Multi-Source Data Fusion
title_short Forest Types Classification Based on Multi-Source Data Fusion
title_full Forest Types Classification Based on Multi-Source Data Fusion
title_fullStr Forest Types Classification Based on Multi-Source Data Fusion
title_full_unstemmed Forest Types Classification Based on Multi-Source Data Fusion
title_sort forest types classification based on multi-source data fusion
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2017-11-01
description Forest plays an important role in global carbon, hydrological and atmospheric cycles and provides a wide range of valuable ecosystem services. Timely and accurate forest-type mapping is an essential topic for forest resource inventory supporting forest management, conservation biology and ecological restoration. Despite efforts and progress having been made in forest cover mapping using multi-source remotely sensed data, fine spatial, temporal and spectral resolution modeling for forest type distinction is still limited. In this paper, we proposed a novel spatial-temporal-spectral fusion framework through spatial-spectral fusion and spatial-temporal fusion. Addressing the shortcomings of the commonly-used spatial-spectral fusion model, we proposed a novel spatial-spectral fusion model called the Segmented Difference Value method (SEGDV) to generate fine spatial-spectra-resolution images by blending the China environment 1A series satellite (HJ-1A) multispectral image (Charge Coupled Device (CCD)) and Hyperspectral Imager (HSI). A Hierarchical Spatiotemporal Adaptive Fusion Model (HSTAFM) was used to conduct spatial-temporal fusion to generate the fine spatial-temporal-resolution image by blending the HJ-1A CCD and Moderate Resolution Imaging Spectroradiometer (MODIS) data. The spatial-spectral-temporal information was utilized simultaneously to distinguish various forest types. Experimental results of the classification comparison conducted in the Gan River source nature reserves showed that the proposed method could enhance spatial, temporal and spectral information effectively, and the fused dataset yielded the highest classification accuracy of 83.6% compared with the classification results derived from single Landsat-8 (69.95%), single spatial-spectral fusion (70.95%) and single spatial-temporal fusion (78.94%) images, thereby indicating that the proposed method could be valid and applicable in forest type classification.
topic data fusion
forest types
classification
url https://www.mdpi.com/2072-4292/9/11/1153
work_keys_str_mv AT minglu foresttypesclassificationbasedonmultisourcedatafusion
AT binchen foresttypesclassificationbasedonmultisourcedatafusion
AT xiaohanliao foresttypesclassificationbasedonmultisourcedatafusion
AT tianxiangyue foresttypesclassificationbasedonmultisourcedatafusion
AT huanyinyue foresttypesclassificationbasedonmultisourcedatafusion
AT shengmingren foresttypesclassificationbasedonmultisourcedatafusion
AT xiaowenli foresttypesclassificationbasedonmultisourcedatafusion
AT zhennie foresttypesclassificationbasedonmultisourcedatafusion
AT bingxu foresttypesclassificationbasedonmultisourcedatafusion
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