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Chapter Artificial Intelligence Data Science Methodology for Earth Observation (2021)

Schwarz, Gottfried ; Lorenzo, Jose ; Castel, Fabien ; [et al.]

InTechOpen

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Publication Date: 2024-04-14

Description: This chapter describes a Copernicus Access Platform Intermediate Layers Small-Scale Demonstrator, which is a general platform for the handling, analysis, and interpretation of Earth observation satellite images, mainly exploiting big data of the European Copernicus Programme by artificial intelligence (AI) methods. From 2020, the platform will be applied at a regional and national level to various use cases such as urban expansion, forest health, and natural disasters. Its workflows allow the selection of satellite images from data archives, the extraction of useful information from the metadata, the generation of descriptors for each individual image, the ingestion of image and descriptor data into a common database, the assignment of semantic content labels to image patches, and the possibility to search and to retrieve similar content-related image patches. The main two components, namely, data mining and data fusion, are detailed and validated. The most important contributions of this chapter are the integration of these two components with a Copernicus platform on top of the European DIAS system, for the purpose of large-scale Earth observation image annotation, and the measurement of the clustering and classification performances of various Copernicus Sentinel and third-party mission data. The average classification accuracy is ranging from 80 to 95% depending on the type of images.

Keywords: Earth observation, machine learning, data mining, Copernicus Programme, TerraSAR-X ; thema EDItEUR::U Computing and Information Technology

Language: English

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Chapter Deep Learning Training and Benchmarks for Earth Observation Images: Data Sets, Features, and Procedures (2021)

Schwarz, Gottfried ; Octavian Dumitru, Corneliu ; Datcu, Mihai

InTechOpen

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Publication Date: 2024-04-14

Description: Deep learning methods are often used for image classification or local object segmentation. The corresponding test and validation data sets are an integral part of the learning process and also of the algorithm performance evaluation. High and particularly very high-resolution Earth observation (EO) applications based on satellite images primarily aim at the semantic labeling of land cover structures or objects as well as of temporal evolution classes. However, one of the main EO objectives is physical parameter retrievals such as temperatures, precipitation, and crop yield predictions. Therefore, we need reliably labeled data sets and tools to train the developed algorithms and to assess the performance of our deep learning paradigms. Generally, imaging sensors generate a visually understandable representation of the observed scene. However, this does not hold for many EO images, where the recorded images only depict a spectral subset of the scattered light field, thus generating an indirect signature of the imaged object. This spots the load of EO image understanding, as a new and particular challenge of Machine Learning (ML) and Artificial Intelligence (AI). This chapter reviews and analyses the new approaches of EO imaging leveraging the recent advances in physical process-based ML and AI methods and signal processing.

Keywords: Earth observation, synthetic aperture radar, multispectral, machine learning, deep learning ; thema EDItEUR::U Computing and Information Technology

Language: English

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