Machine and Deep Learning Techniques for Content Extraction of Satellite Images PDF Download
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Author: Manami Barthakur
Publisher:
ISBN: 9787193905015
Category :
Languages : en
Pages : 0
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Book Description
Machine and deep learning techniques for content extraction of satellite images utilize artificial intelligence and neural networks to analyze and extract information from satellite imagery. These techniques can be used for a variety of applications, such as image classification, object detection, optical character recognition (OCR), and semantic segmentation. Convolutional Neural Networks (CNNs) are commonly used for image classification and object detection tasks. These networks are designed to process and understand images by analyzing the spatial relationship between pixels. They are composed of multiple layers, with each layer analyzing a different level of detail in the image. CNNs are particularly effective at identifying patterns and features in satellite images, such as roads, buildings, and vegetation. Recurrent Neural Networks (RNNs) and Long Short-term Memory (LSTM) networks are particularly useful for tasks that require the analysis of sequential data, like time series data. They are particularly useful in land cover change detection, change detection and time series analysis of satellite images. Semantic segmentation is the process of classifying each pixel in an image to a particular class, and it can be achieved using Fully Convolutional Networks (FCN) and U-Net architecture. This technique is particularly useful for identifying different land cover classes in satellite images, such as urban, agricultural, and natural areas. Generative Adversarial Networks (GANs) are used for creating synthetic images or super resolution of images. These are particularly useful for creating synthetic data for training and testing deep learning models for satellite images. Transfer learning is a technique that allows a pre-trained model to be fine-tuned for a specific task. This can be used to improve the accuracy of image classification and object detection tasks by using a pre-trained model as a starting point. In summary, machine and deep learning techniques for content extraction of satellite images involve using neural networks and computer vision techniques to analyze and extract information from satellite imagery. These techniques can be used for a variety of applications, such as image classification, object detection, and semantic segmentation, and can improve the accuracy and efficiency of extracting information from satellite images. to process and understand images by analyzing the spatial relationship between pixels. They are composed of multiple layers, with each layer analyzing a different level of detail in the image. CNNs are particularly effective at identifying patterns and features in satellite images, such as roads, buildings, and vegetation. Recurrent Neural Networks (RNNs) and Long Short-term Memory (LSTM) networks are particularly useful for tasks that require the analysis of sequential data, like time series data. They are particularly useful in land cover change detection, change detection and time series analysis of satellite images. Semantic segmentation is the process of classifying each pixel in an image to a particular class, and it can be achieved using Fully Convolutional Networks (FCN) and U-Net architecture. This technique is particularly useful for identifying different land cover classes in satellite images, such as urban, agricultural, and natural areas. Generative Adversarial Networks (GANs) are used for creating synthetic images or super resolution of images. These are particularly useful for creating synthetic data for training and testing deep learning models for satellite images. Transfer learning is a technique that allows a pre-trained model to be fine-tuned for a specific task. This can be used to improve the accuracy of image classification and object detection.
Author: Manami Barthakur
Publisher:
ISBN: 9787193905015
Category :
Languages : en
Pages : 0
Get Book Here
Book Description
Machine and deep learning techniques for content extraction of satellite images utilize artificial intelligence and neural networks to analyze and extract information from satellite imagery. These techniques can be used for a variety of applications, such as image classification, object detection, optical character recognition (OCR), and semantic segmentation. Convolutional Neural Networks (CNNs) are commonly used for image classification and object detection tasks. These networks are designed to process and understand images by analyzing the spatial relationship between pixels. They are composed of multiple layers, with each layer analyzing a different level of detail in the image. CNNs are particularly effective at identifying patterns and features in satellite images, such as roads, buildings, and vegetation. Recurrent Neural Networks (RNNs) and Long Short-term Memory (LSTM) networks are particularly useful for tasks that require the analysis of sequential data, like time series data. They are particularly useful in land cover change detection, change detection and time series analysis of satellite images. Semantic segmentation is the process of classifying each pixel in an image to a particular class, and it can be achieved using Fully Convolutional Networks (FCN) and U-Net architecture. This technique is particularly useful for identifying different land cover classes in satellite images, such as urban, agricultural, and natural areas. Generative Adversarial Networks (GANs) are used for creating synthetic images or super resolution of images. These are particularly useful for creating synthetic data for training and testing deep learning models for satellite images. Transfer learning is a technique that allows a pre-trained model to be fine-tuned for a specific task. This can be used to improve the accuracy of image classification and object detection tasks by using a pre-trained model as a starting point. In summary, machine and deep learning techniques for content extraction of satellite images involve using neural networks and computer vision techniques to analyze and extract information from satellite imagery. These techniques can be used for a variety of applications, such as image classification, object detection, and semantic segmentation, and can improve the accuracy and efficiency of extracting information from satellite images. to process and understand images by analyzing the spatial relationship between pixels. They are composed of multiple layers, with each layer analyzing a different level of detail in the image. CNNs are particularly effective at identifying patterns and features in satellite images, such as roads, buildings, and vegetation. Recurrent Neural Networks (RNNs) and Long Short-term Memory (LSTM) networks are particularly useful for tasks that require the analysis of sequential data, like time series data. They are particularly useful in land cover change detection, change detection and time series analysis of satellite images. Semantic segmentation is the process of classifying each pixel in an image to a particular class, and it can be achieved using Fully Convolutional Networks (FCN) and U-Net architecture. This technique is particularly useful for identifying different land cover classes in satellite images, such as urban, agricultural, and natural areas. Generative Adversarial Networks (GANs) are used for creating synthetic images or super resolution of images. These are particularly useful for creating synthetic data for training and testing deep learning models for satellite images. Transfer learning is a technique that allows a pre-trained model to be fine-tuned for a specific task. This can be used to improve the accuracy of image classification and object detection.
Author: Surekha Borra
Publisher: Springer
ISBN: 9811364249
Category : Technology & Engineering
Languages : en
Pages : 110
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Book Description
Thanks to recent advances in sensors, communication and satellite technology, data storage, processing and networking capabilities, satellite image acquisition and mining are now on the rise. In turn, satellite images play a vital role in providing essential geographical information. Highly accurate automatic classification and decision support systems can facilitate the efforts of data analysts, reduce human error, and allow the rapid and rigorous analysis of land use and land cover information. Integrating Machine Learning (ML) technology with the human visual psychometric can help meet geologists’ demands for more efficient and higher-quality classification in real time. This book introduces readers to key concepts, methods and models for satellite image analysis; highlights state-of-the-art classification and clustering techniques; discusses recent developments and remaining challenges; and addresses various applications, making it a valuable asset for engineers, data analysts and researchers in the fields of geographic information systems and remote sensing engineering.
Author: Anil Kumar
Publisher: CRC Press
ISBN: 1000091546
Category : Computers
Languages : en
Pages : 177
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Book Description
This book covers the state-of-art image classification methods for discrimination of earth objects from remote sensing satellite data with an emphasis on fuzzy machine learning and deep learning algorithms. Both types of algorithms are described in such details that these can be implemented directly for thematic mapping of multiple-class or specific-class landcover from multispectral optical remote sensing data. These algorithms along with multi-date, multi-sensor remote sensing are capable to monitor specific stage (for e.g., phenology of growing crop) of a particular class also included. With these capabilities fuzzy machine learning algorithms have strong applications in areas like crop insurance, forest fire mapping, stubble burning, post disaster damage mapping etc. It also provides details about the temporal indices database using proposed Class Based Sensor Independent (CBSI) approach supported by practical examples. As well, this book addresses other related algorithms based on distance, kernel based as well as spatial information through Markov Random Field (MRF)/Local convolution methods to handle mixed pixels, non-linearity and noisy pixels. Further, this book covers about techniques for quantiative assessment of soft classified fraction outputs from soft classification and supported by in-house developed tool called sub-pixel multi-spectral image classifier (SMIC). It is aimed at graduate, postgraduate, research scholars and working professionals of different branches such as Geoinformation sciences, Geography, Electrical, Electronics and Computer Sciences etc., working in the fields of earth observation and satellite image processing. Learning algorithms discussed in this book may also be useful in other related fields, for example, in medical imaging. Overall, this book aims to: exclusive focus on using large range of fuzzy classification algorithms for remote sensing images; discuss ANN, CNN, RNN, and hybrid learning classifiers application on remote sensing images; describe sub-pixel multi-spectral image classifier tool (SMIC) to support discussed fuzzy and learning algorithms; explain how to assess soft classified outputs as fraction images using fuzzy error matrix (FERM) and its advance versions with FERM tool, Entropy, Correlation Coefficient, Root Mean Square Error and Receiver Operating Characteristic (ROC) methods and; combines explanation of the algorithms with case studies and practical applications.
Author: Rémi Cresson
Publisher: CRC Press
ISBN: 1000093611
Category : Technology & Engineering
Languages : en
Pages : 158
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Book Description
In today’s world, deep learning source codes and a plethora of open access geospatial images are readily available and easily accessible. However, most people are missing the educational tools to make use of this resource. Deep Learning for Remote Sensing Images with Open Source Software is the first practical book to introduce deep learning techniques using free open source tools for processing real world remote sensing images. The approaches detailed in this book are generic and can be adapted to suit many different applications for remote sensing image processing, including landcover mapping, forestry, urban studies, disaster mapping, image restoration, etc. Written with practitioners and students in mind, this book helps link together the theory and practical use of existing tools and data to apply deep learning techniques on remote sensing images and data. Specific Features of this Book: The first book that explains how to apply deep learning techniques to public, free available data (Spot-7 and Sentinel-2 images, OpenStreetMap vector data), using open source software (QGIS, Orfeo ToolBox, TensorFlow) Presents approaches suited for real world images and data targeting large scale processing and GIS applications Introduces state of the art deep learning architecture families that can be applied to remote sensing world, mainly for landcover mapping, but also for generic approaches (e.g. image restoration) Suited for deep learning beginners and readers with some GIS knowledge. No coding knowledge is required to learn practical skills. Includes deep learning techniques through many step by step remote sensing data processing exercises.
Author: Pradeep Singh
Publisher: John Wiley & Sons
ISBN: 1119821886
Category : Computers
Languages : en
Pages : 480
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Book Description
FUNDAMENTALS AND METHODS OF MACHINE AND DEEP LEARNING The book provides a practical approach by explaining the concepts of machine learning and deep learning algorithms, evaluation of methodology advances, and algorithm demonstrations with applications. Over the past two decades, the field of machine learning and its subfield deep learning have played a main role in software applications development. Also, in recent research studies, they are regarded as one of the disruptive technologies that will transform our future life, business, and the global economy. The recent explosion of digital data in a wide variety of domains, including science, engineering, Internet of Things, biomedical, healthcare, and many business sectors, has declared the era of big data, which cannot be analysed by classical statistics but by the more modern, robust machine learning and deep learning techniques. Since machine learning learns from data rather than by programming hard-coded decision rules, an attempt is being made to use machine learning to make computers that are able to solve problems like human experts in the field. The goal of this book is to present a??practical approach by explaining the concepts of machine learning and deep learning algorithms with applications. Supervised machine learning algorithms, ensemble machine learning algorithms, feature selection, deep learning techniques, and their applications are discussed. Also included in the eighteen chapters is unique information which provides a clear understanding of concepts by using algorithms and case studies illustrated with applications of machine learning and deep learning in different domains, including disease prediction, software defect prediction, online television analysis, medical image processing, etc. Each of the chapters briefly described below provides both a chosen approach and its implementation. Audience Researchers and engineers in artificial intelligence, computer scientists as well as software developers.
Author: D. Jude Hemanth
Publisher: Springer Nature
ISBN: 3030241785
Category : Computers
Languages : en
Pages : 274
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Book Description
The main objective of this book is to provide a common platform for diverse concepts in satellite image processing. In particular it presents the state-of-the-art in Artificial Intelligence (AI) methodologies and shares findings that can be translated into real-time applications to benefit humankind. Interdisciplinary in its scope, the book will be of interest to both newcomers and experienced scientists working in the fields of satellite image processing, geo-engineering, remote sensing and Artificial Intelligence. It can be also used as a supplementary textbook for graduate students in various engineering branches related to image processing.
Author: Yakoub Bazi
Publisher: MDPI
ISBN: 3036509860
Category : Science
Languages : en
Pages : 438
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Book Description
The rapid growth of the world population has resulted in an exponential expansion of both urban and agricultural areas. Identifying and managing such earthly changes in an automatic way poses a worth-addressing challenge, in which remote sensing technology can have a fundamental role to answer—at least partially—such demands. The recent advent of cutting-edge processing facilities has fostered the adoption of deep learning architectures owing to their generalization capabilities. In this respect, it seems evident that the pace of deep learning in the remote sensing domain remains somewhat lagging behind that of its computer vision counterpart. This is due to the scarce availability of ground truth information in comparison with other computer vision domains. In this book, we aim at advancing the state of the art in linking deep learning methodologies with remote sensing image processing by collecting 20 contributions from different worldwide scientists and laboratories. The book presents a wide range of methodological advancements in the deep learning field that come with different applications in the remote sensing landscape such as wildfire and postdisaster damage detection, urban forest mapping, vine disease and pavement marking detection, desert road mapping, road and building outline extraction, vehicle and vessel detection, water identification, and text-to-image matching.
Author: Qi Wang
Publisher: MDPI
ISBN: 3038976849
Category : Computers
Languages : en
Pages : 426
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Book Description
With the recent advances in remote sensing technologies for Earth observation, many different remote sensors are collecting data with distinctive properties. The obtained data are so large and complex that analyzing them manually becomes impractical or even impossible. Therefore, understanding remote sensing images effectively, in connection with physics, has been the primary concern of the remote sensing research community in recent years. For this purpose, machine learning is thought to be a promising technique because it can make the system learn to improve itself. With this distinctive characteristic, the algorithms will be more adaptive, automatic, and intelligent. This book introduces some of the most challenging issues of machine learning in the field of remote sensing, and the latest advanced technologies developed for different applications. It integrates with multi-source/multi-temporal/multi-scale data, and mainly focuses on learning to understand remote sensing images. Particularly, it presents many more effective techniques based on the popular concepts of deep learning and big data to reach new heights of data understanding. Through reporting recent advances in the machine learning approaches towards analyzing and understanding remote sensing images, this book can help readers become more familiar with knowledge frontier and foster an increased interest in this field.
Author: Aboul Ella Hassanien
Publisher: Springer
ISBN: 3030202127
Category : Technology & Engineering
Languages : en
Pages : 236
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Book Description
This book explores the main concepts, algorithms, and techniques of Machine Learning and data mining for aerospace technology. Satellites are the ‘eagle eyes’ that allow us to view massive areas of the Earth simultaneously, and can gather more data, more quickly, than tools on the ground. Consequently, the development of intelligent health monitoring systems for artificial satellites – which can determine satellites’ current status and predict their failure based on telemetry data – is one of the most important current issues in aerospace engineering. This book is divided into three parts, the first of which discusses central problems in the health monitoring of artificial satellites, including tensor-based anomaly detection for satellite telemetry data and machine learning in satellite monitoring, as well as the design, implementation, and validation of satellite simulators. The second part addresses telemetry data analytics and mining problems, while the last part focuses on security issues in telemetry data.
Author: Jong-Sen Lee
Publisher: CRC Press
ISBN: 1420054988
Category : Technology & Engineering
Languages : en
Pages : 422
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Book Description
The recent launches of three fully polarimetric synthetic aperture radar (PolSAR) satellites have shown that polarimetric radar imaging can provide abundant data on the Earth’s environment, such as biomass and forest height estimation, snow cover mapping, glacier monitoring, and damage assessment. Written by two of the most recognized leaders in this field, Polarimetric Radar Imaging: From Basics to Applications presents polarimetric radar imaging and processing techniques and shows how to develop remote sensing applications using PolSAR imaging radar. The book provides a substantial and balanced introduction to the basic theory and advanced concepts of polarimetric scattering mechanisms, speckle statistics and speckle filtering, polarimetric information analysis and extraction techniques, and applications typical to radar polarimetric remote sensing. It explains the importance of wave polarization theory and the speckle phenomenon in the information retrieval problem of microwave imaging and inverse scattering. The authors demonstrate how to devise intelligent information extraction algorithms for remote sensing applications. They also describe more advanced polarimetric analysis techniques for polarimetric target decompositions, polarization orientation effects, polarimetric scattering modeling, speckle filtering, terrain and forest classification, manmade target analysis, and PolSAR interferometry. With sample PolSAR data sets and software available for download, this self-contained, hands-on book encourages you to analyze space-borne and airborne PolSAR and polarimetric interferometric SAR (Pol-InSAR) data and then develop applications using this data.
