eprintid: 2765
rev_number: 10
eprint_status: archive
userid: 297
dir: disk0/00/00/27/65
datestamp: 2017-12-12 07:44:09
lastmod: 2017-12-12 07:44:09
status_changed: 2017-12-12 07:44:09
type: article
metadata_visibility: show
creators_name: Man, Duc Chuc
creators_name: Nguyen, Thanh Thuy
creators_name: Bui, Quang Hung
creators_name: Lasko, Kristofer
creators_name: Nguyen, Thi Nhat Thanh
creators_id: chucmd@fimo.edu.vn
creators_id: nguyenthanhthuy@vnu.edu.vn
creators_id: hungbq@fimo.edu.vn
creators_id: thanhntn@vnu.edu.vn
title: Improvement of land-cover classification over frequently cloud-covered areas using Landsat 8 time-series composites and an ensemble of supervised classifiers
ispublished: pub
subjects: isi
divisions: FIMO
divisions: fac_fit
abstract: Recent abundance of moderate-to-high spatial resolution satellite imagery has facilitated land-cover map production. However, in cloud-prone areas, building high-resolution land-cover maps is still challenging due to infrequent satellite revisits and lack of cloud-free data. We propose a classification method for cloud-persistent areas with high temporal dynamics of land-cover types. First, compositing techniques are employed to create dense time-series composite images from all available Landsat 8 images. Then, spectral–temporal features are extracted to train an ensemble of five supervised classifiers. The resulting composite images are clear with at least 99.78% cloud-free pixels and are 20.47% better than their original images on average. We classify seven land classes, including paddy rice, cropland, grass/shrub, trees, bare land, impervious area, and waterbody over Hanoi, Vietnam, in 2016. Using a time series of composites significantly improves the classification performance with 10.03% higher overall accuracy (OA) compared to single composite classifications. Additionally, using time series of composites and the ensemble technique, which combines the best of five experimented classifiers (eXtreme Gradient Boosting, logistic regression, Support Vector Machine (SVM) with Radial Basis Function (RBF) kernel – SVM–RBF and Linear kernel – SVM–Linear, multilayer perceptron), performed best with 84% OA and 0.79 kappa coefficient.
date: 2017
date_type: published
official_url: http://www.tandfonline.com/doi/abs/10.1080/01431161.2017.1399477?journalCode=tres20
id_number: 10.1080/01431161.2017.1399477
full_text_status: none
publication: International Journal of Remote Sensing
volume: 39
number: 4
refereed: TRUE
funders: Vietnam National University Hanoi
projects: QG.17.41
citation:   Man, Duc Chuc and Nguyen, Thanh Thuy and Bui, Quang Hung and Lasko, Kristofer and Nguyen, Thi Nhat Thanh  (2017) Improvement of land-cover classification over frequently cloud-covered areas using Landsat 8 time-series composites and an ensemble of supervised classifiers.  International Journal of Remote Sensing, 39  (4).