Lorena Santos scite author profile

Recently, remote sensing image time series analysis has being widely used to investigate the dynamics of environments over time. Many studies have combined image time series analysis with machine learning methods to improve land use and cover change mapping. In order to support image time series analysis, analysis-ready data (ARD) image collections have been modeled and organized as multidimensional data cubes. Data cubes can be defined as sets of time series associated with spatially aligned pixels. Based on lessons learned in the research project e-Sensing, related to national demands for land use and cover monitoring and related to state-of-the-art studies on relevant topics, we define the requirements to build Earth observation data cubes for Brazil. This paper presents the methodology to generate ARD and multidimensional data cubes from remote sensing images for Brazil. We describe the computational infrastructure that we are developing in the Brazil Data Cube project, composed of software applications and Web services to create, integrate, discover, access, and process the data sets. We also present how we are producing land use and cover maps from data cubes using image time series analysis and machine learning techniques.

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Land use and cover maps for Mato Grosso State in Brazil from 2001 to 2017

Simões

Picoli

Câmara

et al. 2020

Sci Data

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This paper presents a dataset of yearly land use and land cover classification maps for Mato GrossoState, Brazil, from 2001 to 2017. Mato Grosso is one of the world's fast moving agricultural frontiers. To ensure multi-year compatibility, the work uses MODIS sensor analysis-ready products and an innovative method that applies machine learning techniques to classify satellite image time series. The maps provide information about crop and pasture expansion over natural vegetation, as well as spatially explicit estimates of increases in agricultural productivity and trade-offs between crop and pasture expansion. Therefore, the dataset provides new and relevant information to understand the impact of environmental policies on the expansion of tropical agriculture in Brazil. Using such results, researchers can make informed assessments of the interplay between production and protection within amazon, Cerrado, and Pantanal biomes.track the agriculture intensification in Brazil, and on which land use agriculture has expanded. It is also possible to verify compliance with the soybean moratorium and the NFC policies. Code availabilityThe code used in this study was provided under the GNU General Public Licence v3.0 and is available in 29 . The images were processed and classified on Amazon Web Services (AWS). The R package sits (Satellite Image Time Series) provides a set of visualization methods for an image time series, clustering methods for the time series samples, machine learning methods for the time series classification, including SVM, LDA, QDA, GLM, and other tools that support analysis of long-term satellite image time series. The development version of sits is available on GitHub at https://github.com/e-sensing/sits.

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Satellite Image Time Series Analysis for Big Earth Observation Data

et al. 2021

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The development of analytical software for big Earth observation data faces several challenges. Designers need to balance between conflicting factors. Solutions that are efficient for specific hardware architectures can not be used in other environments. Packages that work on generic hardware and open standards will not have the same performance as dedicated solutions. Software that assumes that its users are computer programmers are flexible but may be difficult to learn for a wide audience. This paper describes sits, an open-source R package for satellite image time series analysis using machine learning. To allow experts to use satellite imagery to the fullest extent, sits adopts a time-first, space-later approach. It supports the complete cycle of data analysis for land classification. Its API provides a simple but powerful set of functions. The software works in different cloud computing environments. Satellite image time series are input to machine learning classifiers, and the results are post-processed using spatial smoothing. Since machine learning methods need accurate training data, sits includes methods for quality assessment of training samples. The software also provides methods for validation and accuracy measurement. The package thus comprises a production environment for big EO data analysis. We show that this approach produces high accuracy for land use and land cover maps through a case study in the Cerrado biome, one of the world’s fast moving agricultural frontiers for the year 2018.

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Quality control and class noise reduction of satellite image time series

Santos

Ferreira

Câmara

et al. 2021

ISPRS Journal of Photogrammetry and Remote Sensing

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Identifying Spatiotemporal Patterns in Land Use and Cover Samples from Satellite Image Time Series

et al. 2021

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The use of satellite image time series analysis and machine learning methods brings new opportunities and challenges for land use and cover changes (LUCC) mapping over large areas. One of these challenges is the need for samples that properly represent the high variability of land used and cover classes over large areas to train supervised machine learning methods and to produce accurate LUCC maps. This paper addresses this challenge and presents a method to identify spatiotemporal patterns in land use and cover samples to infer subclasses through the phenological and spectral information provided by satellite image time series. The proposed method uses self-organizing maps (SOMs) to reduce the data dimensionality creating primary clusters. From these primary clusters, it uses hierarchical clustering to create subclusters that recognize intra-class variability intrinsic to different regions and periods, mainly in large areas and multiple years. To show how the method works, we use MODIS image time series associated to samples of cropland and pasture classes over the Cerrado biome in Brazil. The results prove that the proposed method is suitable for identifying spatiotemporal patterns in land use and cover samples that can be used to infer subclasses, mainly for crop-types.

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Lorena Santos

Earth Observation Data Cubes for Brazil: Requirements, Methodology and Products

Land use and cover maps for Mato Grosso State in Brazil from 2001 to 2017

Satellite Image Time Series Analysis for Big Earth Observation Data

Quality control and class noise reduction of satellite image time series

Identifying Spatiotemporal Patterns in Land Use and Cover Samples from Satellite Image Time Series

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