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  • 1
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    Series available for loan
    Deep domain adaptation for the pixel-wise classification of aerial and satellite images (2023)
    Hannover : Leibniz Universität Hannover
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    Call number: S 99.0139(386)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 386
    Type of Medium: Series available for loan
    Pages: ix, 163 Seiten , Illustrationen, Diagramme, Karten
    ISBN: 978-3-7696-5313-7 , 9783769653137
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 386
    Language: English
    Note: Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2023 , Contents 1 Introduction 1.1 Motivation 1.2 Contributions and Scientific Goals of this Thesis 1.3 Thesis Outline 2 Basics 2.1 Machine Learning for Pixel-Wise Classification 2.2 Deep Neural Networks 2.2.1 Neuron and Multilayer Perceptron 2.2.2 Supervised Training of Neural Networks 2.2.2.1 Optimisation Strategies 2.2.3 Improving Model Generalization 2.2.4 Adversarial Training 2.3 Convolutional Neural Networks 2.3.1 Convolutional Layers 2.3.2 Pooling Layer 2.3.3 Batch Normalisation Layer 2.3.4 Activation Functions in CNNs 2.3.5 Parameter Initialisation 2.3.6 CNN Architectures 2.3.6.1 Residual Networks 2.3.6.2 Xception Network 2.4 Fully Convolutional Networks 2.4.1 Upsampling Layer and Transposed Convolutional Layer 2.4.2 Skip Connections 2.5 Appearance Adaptation 2.6 Transfer Learning and Domain Adaptation 2.6.1 Adaptive Batch Normalisation 3 Related Work 3.1 Instance Transfer 3.1.1 Explicit Instance Transfer 3.1.2 Implicit Instance Transfer 3.1.3 Hybrid Instance Transfer 3.1.4 Discussion 3.2 Representation Transfer 3.2.1 Non-adversarial Representation Transfer 3.2.2 Adversarial Representation Transfer 3.2.3 Discussion 3.3 Appearance Adaptation 3.3.1 Target-to-Source Appearance Adaptation 3.3.2 Source-to-Target Appearance Adaptation 3.3.3 Discussion 3.4 Hybrid Approaches 3.4.1 Discussion 3.5 Parameter Selection in Unsupervised Domain Adaptation 3.6 Discussion 3.6.1 Research Gap 3.6.2 Comparison to Most Similar Works 4 Methodology 4.1 Prerequisites and Assumptions 4.2 Adaptation Overview 4.3 Network Architecture 4.3.1 Classification Network C 4.3.2 Appearance Adaptation Network 4.3.3 Domain Discriminator 4.4 Training 4.4.1 Supervised Source Training 4.4.2 Joint Training for Appearance Adaptation 4.4.2.1 Joint Update of A and C 4.4.2.2 Update of D 4.5 Improving Semantic Consistency 4.5.1 Method 1: Reduction of Variability 4.5.2 Method 2: Auxiliary Generator 4.5.2.1 Architecture of G 4.5.2.2 Modifications of Adversarial Loss Terms 4.6 Entropy-based Parameter Selection 4.7 Adaptive Batch Normalization 4.8 Resolution Adaptation 5 Experimental Setup 5.1 Datasets 5.1.1 Data for Land-cover Classification using Aerial Imagery 5.1.2 Data for Bi-temporal Deforestation Detection using Satellite Imagery 5.2 Evaluation and Quality Metrics 5.3 Goals and Structure of Experiments 5.3.1 Experiment Set E1: Source Training and Na¨ıve Transfer 5.3.2 Experiment Set E2: Proposed Method for UDA 5.3.3 Experiment Set E3: Evaluation of Parameter Selection 5.3.4 Experiment Set E4: Comparison to other Strategies and Methods 5.3.4.1 Experiment Set E4.1: Comparison to other Strategies 5.3.4.2 Experiment set E4.2: Comparison to other Methods 5.3.5 Experiment set E5: Evaluation of UDA for Bi-temporal Deforestation Detection 5.4 Training Details and Hyper-parameters 5.4.1 Source Training 5.4.2 Unsupervised Domain Adaptation 5.4.3 Implementation Details of Baseline Strategies 6 Results and Discussion 6.1 Results of Experiment Set E1: Source Training and Na¨ıve Transfer 6.2 Results of Experiment Set E2: Proposed Method for UDA 6.2.1 Evaluation of Appearance Adaptation 6.2.2 Evaluation of Unsupervised Domain Adaptation 6.2.3 Combination of Appearance Adaptation with Adaptive Batch Normalisation 6.2.4 Final Comparison of Variants 6.2.5 Detailed Evaluation of Selected UDA Scenarios 6.3 Results of Experiment Set E3: Evaluation of Parameter Selection 6.4 Results of Experiment Set E4: Comparison to other Strategies and Methods 6.4.1 Experiment set E4.1: Comparison to other Strategies 6.4.2 Experiment Set E4.2: Comparison to other Methods 6.5 Results of Experiment Set E5: Evaluation of UDA for Deforestation Detection 7 Conclusions and Outlook 7.1 Conclusion 7.2 Outlook Bibliography Appendix , Sprache der Kurzfassungen: Englisch, Deutsch
    Location: Lower compact magazine
    Branch Library: GFZ Library
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  • 2
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    From Silk to Digital Technologies: A Gateway to New Opportunities for Creative Industries, Traditional Crafts and Designers. The SILKNOW Case (2020)
    Molecular Diversity Preservation International
    Details
    Publication Date: 2020-10-08
    Description: Nowadays, cultural heritage is more than ever linked to the present. It links us to our cultural past through the conscious act of preserving and bequeathing to future generations, turning society into its custodian. The appreciation of cultural heritage happens not only because of its communicative power, but also because of its economic power, through sustainable development and the promotion of creative industries. This paper presents SILKNOW, an EU-H2002 funded project and its application to cultural heritage, as well as to creative industries and design innovation. To this end, it presents the use of image recognition tools applied to cultural heritage, through the interoperability of data in the open-access registers of silk museums and its presentation, analysis and creative process carried out by the design students of EASD Valencia as a case study, in the branches of jewellery and fashion project, inspired by the heritage of silk.
    Electronic ISSN: 2071-1050
    Topics: Energy, Environment Protection, Nuclear Power Engineering
    Published by Molecular Diversity Preservation International
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