Kooperativer Bibliotheksverbund

UID:

Format: 1 online resource (x, 237 p. ) , ill. ;

ISBN: 0-262-27779-4 , 0-585-43764-5

Content: "In Architectures of Time, Sanford Kwinter offers a critical guide to the modern history of time and to the interplay between the physical sciences and the arts. Tracing the transformation of twentieth-century epistemology to the rise of thermodynamics and statistical mechanics, Kwinter explains how the demise of the concept of absolute time, and of the classical notion of space as a fixed background against which things occur, led to field theory and a physics of the "event." He suggests that the closed, controlled, and mechanical world of physics gave way to the approximate, active, and qualitative world of biology as a model of both scientific and metaphysical explanation."--Jacket.

Note: Bibliographic Level Mode of Issuance: Monograph , 1. The Complex and the Singular -- 2. Modernist Space and the Fragment -- 3. Physical Theory and Modernity: Einstein, Boccioni, Sant'Elia -- 4. Real Virtuality, or "the Kafkaesque" -- 5. Kafkan Immanence -- 6. Conclusion. , English

Additional Edition: ISBN 0-262-61181-3

Additional Edition: ISBN 0-262-11260-4

Language: English

Subjects: German Studies

Keywords: Electronic books. ; Electronic books. ; Aufsatzsammlung

URL: Full text  (Click to View (Currently Only Available on Campus))

URL: Volltext  (Deutschlandweit zugänglich)

URL: Volltext  (Deutschlandweit zugänglich)

URL: Volltext

UID:

Format: 1 online resource (227 pages)

Edition: 1st ed.

ISBN: 9783031561146

Series Statement: Arts, Research, Innovation and Society Series

Note: Intro -- Foreword -- Contents -- Contributors -- Chapter 1: Introduction -- Part I: Picturing -- Chapter 2: Reimagining Extreme Event Scenarios: The Aesthetic Visualisation of Climate Uncertainty to Enhance Preparedness -- 2.1 Introduction -- 2.2 Immersive Visualisation -- 2.2.1 AI Aesthetics -- 2.3 Towards Climate Scenario Visualisation -- 2.4 Conclusion -- References -- Chapter 3: Latest Advances and Challenges in Extreme Flood 3D Simulation -- 3.1 Introduction -- 3.2 Real-Time Flood Warning Systems -- 3.3 Flood Disasters Following Infrastructure Failure -- 3.4 Compound Flood Events -- 3.5 Visualisation of Flood Extremes -- 3.6 Conclusion -- References -- Chapter 4: Intelligent Architectures for Extreme Event Visualisation -- 4.1 Introduction -- 4.2 Intelligent Visualisation of Extreme Events -- 4.2.1 Physical Modelling -- 4.2.2 Learning-Based Modelling and Simulation -- 4.2.3 Graphic Visualisation -- 4.3 Generative AI in Visualisation -- 4.3.1 Image Generation -- 4.3.2 Dynamic Simulation -- 4.4 Conclusion -- References -- Chapter 5: Simulation of Extreme Fire Event Scenarios Using Fully Physical Models and Visualisation Systems -- 5.1 Introduction -- 5.2 Extreme Event Scenarios -- 5.3 Physical Fire Models: An Overview -- 5.4 Visualisation Techniques Used in Physical Modelling -- 5.5 Case Studies -- 5.6 Integrating Simulations with a Visualisation System -- 5.7 Future Directions -- 5.8 Conclusion -- References -- Chapter 6: Immersive Visualisation Systems as Alignment Strategies for Extreme Event Scenarios -- 6.1 Introduction -- 6.2 Creating Accuracy and Verisimilitude for the Representation of Unpredictable Events -- 6.3 The Challenge of Accuracy in Climate Science -- 6.4 From Epistemic to Affective Uncertainty -- 6.5 Storylining and Other Techniques: Tales, Simulations and Scenarios -- 6.6 Storylines and Interpretability -- 6.7 Conclusion. , References -- Part II: Narrating -- Chapter 7: Moving Beyond Recovery and Reconstruction: Imagining Extreme Event Preparedness Through Performing Arts -- 7.1 Introduction -- 7.2 Performing Resilience and Supporting Post-traumatic Growth -- 7.3 Performing the Politics of Disaster Experience -- 7.4 Performing Preparedness -- 7.5 The Future Imagined -- 7.6 Preparing to Protect the Future -- 7.7 Conclusion -- References -- Chapter 8: Iconographies of Climate Catastrophe: The Representation of Climate Change in Art and Film -- 8.1 Introduction -- 8.2 Period 1 (1960-1980): Science Aesthetics-Denial and Bargaining -- 8.3 Period 2 (1980-2000): Environmental Ruin and Nuclear Decay-Anger and Grief -- 8.4 Period 3 (2000-2023): Climate Warming-Depression and Understanding -- 8.5 Conclusion -- References -- Chapter 9: Representing the Climate Crisis: Aesthetic Framings in Contemporary Performing and Visual Arts -- 9.1 Introduction -- 9.2 State of Play: Performing Climate Change and Planetary Interconnectedness -- 9.2.1 Eulogising the Present -- 9.2.2 Performative Aesthetics -- 9.2.3 Scaling Space and Time -- 9.3 Novel Experimental Trajectories -- 9.4 Conclusion -- References -- Part III: Rehearsing -- Chapter 10: Supporting Disaster Preparedness Through User-Centred Interaction Design in Immersive Environments -- 10.1 Introduction -- 10.2 Intuition and Experience -- 10.3 Vicarious Disaster Experience via VR and AR -- 10.4 Understanding Stories and Contexts -- 10.5 Creating Scenarios or Games -- 10.6 Working with Technology -- 10.7 Equity of Access -- 10.8 Conclusion -- References -- Chapter 11: Building Simulations with Generative Artificial Intelligence -- 11.1 Introduction: A Scenario -- 11.1.1 Building Simulations -- 11.2 Simulation of Extreme Event Scenarios -- 11.2.1 Use in Visual Simulation -- 11.3 Accuracy and Ethics -- 11.3.1 Data Laundering. , 11.3.2 Copyright Issues -- 11.3.3 Making AI "Safe" -- 11.4 Conclusion -- 11.4.1 Limitations: Multimodal AI -- References -- Chapter 12: Rehearsing Emergency Scenarios: Using Space Syntax and Intelligent Mobility Modelling for Scenario Visualisation and Disaster Preparedness -- 12.1 Introduction -- 12.2 Background to Spatial Analytics -- 12.3 The Arts and Spatial Analytics -- 12.4 Challenges and Opportunities -- 12.5 Conclusion -- References -- Part IV: Communicating -- Chapter 13: Culture, Creativity, and Climate: A Dangerous Gap in Policies of Preparedness -- 13.1 Introduction -- 13.2 Methodology and Research Design -- 13.3 Literature Review -- 13.3.1 Inquiries and Recommendations -- 13.3.2 Arts, Culture and Creativity -- 13.4 Findings -- 13.4.1 Preparedness -- 13.4.2 Community Preparedness -- 13.4.3 Art(s) -- 13.4.4 Culture -- 13.4.5 Creative/Creativity -- 13.5 Conclusion -- References -- Inquiries -- Chapter 14: Creatively Reimagining Place and Community in a World of Extreme Weather -- 14.1 Introduction -- 14.2 Building Place: Architecture, Theatre and Film -- 14.3 Stories of Place and Community in Crisis: Fires -- 14.4 Forging New Narratives for a New Future -- 14.5 Conclusion -- References -- Chapter 15: Communicating in Crisis: Community Practices of Online Participation During Extreme Events -- 15.1 Introduction -- 15.2 Social Media and the Changing Communication Landscape During Disasters -- 15.2.1 Social Media as an Expansion of Official Communication Channels Assisting Emergency Communication -- 15.2.2 Social Media Use by the Public During Disasters -- 15.3 The Role of Social Media Before, During and After Disasters -- 15.4 Conclusion -- References -- Part V: Conclusion -- Chapter 16: Conclusion -- 16.1 Final Words -- References.

Additional Edition: Print version: Del Favero, Dennis Climate Disaster Preparedness Cham : Springer,c2024 ISBN 9783031561139

Language: English

Keywords: Electronic books. ; Electronic books ; Aufsatzsammlung

URL: Click to View

URL: FULL  ((OIS Credentials Required))

URL: lizenzpflichtig

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

UID:

Format: 1 online resource (125 pages) : , illustrations; digital, PDF file(s).

Edition: 1st ed.

ISBN: 83-7656-005-0

Series Statement: Versita Discipline: Arts, Music, Architecture

Content: Before the Museums Came: A Social History of the Fine Arts in the Twin Cities gives an engaging portrayal of the fine arts scene of Minneapolis and St. Paul, Minnesota in the United States, spanning from the appearance of the earliest artists in 1835 to the opening of the first permanent museum, the Minneapolis Institute of Arts in 1915. Readers will learn about the institutions and organizations that were created in support of the fine arts, the early art exhibitions and events, and the collectors, dealers and artists whose efforts made all of that come to fruition. The text - enriched and supplemented by reproductions of artworks, photographs of various personages, exhibition venues, studios, art galleries, catalogues, and ephemera - presents a clear understanding of the period and breaks new ground for future scholars to research. Leo John Harris had pursued three different careers before retiring to follow yet another vocation, this time as a writer. He served in the U.S. Department of State and Foreign Service; he was an international lawyer; and he founded a niche publishing house devoted to books on the arts, history, and popular culture. In his retirement he has written articles and books on philately, the arts and regional history, and this passion has now resulted in a well-researched and richly illustrated publication.

Note: Bibliographic Level Mode of Issuance: Monograph , Front matter -- , Contents -- , Chapter 1. Introduction -- , Chapter 2. The Producers of Art -- , Chapter 3. Early Art Exhibitions and Competitions -- , Chapter 4. Art in Public Places -- , Chapter 5. The Minneapolis Industrial Exposition Art Gallery -- , Chapter 6. Patrons of the Arts -- , Chapter 7. Other Important Collectors and Donors -- , Chapter 8. Art Exhibitions - Minneapolis -- , Chapter 9. Temporary Art Exhibitions - St. Paul -- , Chapter 10. Art Education -- , Chapter 11. Other Art Institutions -- , Chapter 12. Art Dealers -- , Chapter 13. Some Conclusions -- , Acknowledgments -- , Index -- , List of Figures -- , Endnotes , Also available in print form. , English

Additional Edition: ISBN 83-7656-004-2

Language: English

Keywords: Electronic books. ; Electronic books. ; History. ; Electronic books.

DOI: 10.2478/9788376560052

URL: Click to View

URL: De Gruyter

URL: ebrary

URL: ProQuest Ebook Central

URL: http://www.degruyter.com/isbn/9788376560052

URL: E-book - Full-text from De Gruyter

URL: Click to View

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (Open Access)

URL: Open Access

URL: Cover

URL: Cover

UID:

Format: 1 online resource (333 pages)

Edition: 1st ed.

ISBN: 9783030296650

Note: Intro -- Foreword -- Preface -- Acknowledgements -- Contents -- Part I: Fundamentals and Concepts -- Chapter 1: Real-time Linked Dataspaces: A Data Platform for Intelligent Systems Within Internet of Things-Based Smart Environm... -- 1.1 Introduction -- 1.2 Foundations -- 1.2.1 Intelligent Systems -- 1.2.2 Smart Environments -- 1.2.3 Internet of Things -- 1.2.4 Data Ecosystems -- 1.2.5 Enabling Data Ecosystem for Intelligent Systems -- 1.3 Real-time Linked Dataspaces -- 1.4 Book Overview -- 1.5 Summary -- Chapter 2: Enabling Knowledge Flows in an Intelligent Systems Data Ecosystem -- 2.1 Introduction -- 2.2 Foundations -- 2.2.1 Intelligent Systems Data Ecosystem -- 2.2.2 System of Systems -- 2.2.3 From Deterministic to Probabilistic Decisions in Intelligent Systems -- 2.2.4 Digital Twins -- 2.3 Knowledge Exchange Between Open Intelligent Systems in Dynamic Environments -- 2.4 Knowledge Value Ecosystem (KVE) Framework -- 2.5 Knowledge: Transfer and Translation -- 2.5.1 Entity-Centric Data Integration -- 2.5.2 Linked Data -- 2.5.3 Knowledge Graphs -- 2.5.4 Smart Environment Example -- 2.6 Value: Continuous and Shared -- 2.6.1 Value Disciplines -- 2.6.2 Data Network Effects -- 2.7 Ecosystem: Governance and Collaboration -- 2.7.1 From Ecology and Business to Data -- 2.7.2 The Web of Data: A Global Data Ecosystem -- 2.7.3 Ecosystem Coordination -- 2.7.4 Data Ecosystem Design -- 2.8 Iterative Boundary Crossing Process: Pay-As-You-Go -- 2.8.1 Dataspace Incremental Data Management -- 2.9 Data Platforms for Intelligent Systems Within IoT-Based Smart Environment -- 2.9.1 FAIR Data Principles -- 2.9.2 Requirements Analysis -- 2.10 Summary -- Chapter 3: Dataspaces: Fundamentals, Principles, and Techniques -- 3.1 Introduction -- 3.2 Big Data and the Long Tail of Data -- 3.3 The Changing Cost of Data Management. , 3.4 Approximate, Best-Effort, and ``Good Enough ́́Information -- 3.5 Fundamentals of Dataspaces -- 3.5.1 Definition and Principles -- 3.5.2 Comparison to Existing Approaches -- 3.6 Dataspace Support Platform -- 3.6.1 Support Services -- 3.6.2 Life Cycle -- 3.6.3 Implementations -- 3.7 Dataspace Technical Challenges -- 3.7.1 Query Answering -- 3.7.2 Introspection -- 3.7.3 Reusing Human Attention -- 3.8 Dataspace Research Challenges -- 3.9 Summary -- Chapter 4: Fundamentals of Real-time Linked Dataspaces -- 4.1 Introduction -- 4.2 Event and Stream Processing for the Internet of Things -- 4.2.1 Timeliness and Real-time Processing -- 4.3 Fundamentals of Real-time Linked Dataspaces -- 4.3.1 Foundations -- 4.3.2 Definition and Principles -- 4.3.3 Comparison -- 4.3.4 Architecture -- 4.4 A Principled Approach to Pay-As-You-Go Data Management -- 4.4.1 TBLś 5 Star Data -- 4.4.2 5 Star Pay-As-You-Go Model for Dataspace Services -- 4.5 Support Platform -- 4.5.1 Data Services -- 4.5.2 Stream and Event Processing Services -- 4.6 Suitability as a Data Platform for Intelligent Systems Within IoT-Based Smart Environments -- 4.6.1 Common Data Platform Requirements -- 4.6.2 Related Work -- 4.7 Summary -- Part II: Data Support Services -- Chapter 5: Data Support Services for Real-time Linked Dataspaces -- 5.1 Introduction -- 5.2 Pay-As-You-Go Data Support Services for Real-time Linked Dataspaces -- 5.3 5 Star Pay-As-You-Go Levels for Data Services -- 5.4 Summary -- Chapter 6: Catalog and Entity Management Service for Internet of Things-Based Smart Environments -- 6.1 Introduction -- 6.2 Working with Entity Data -- 6.3 Catalog and Entity Service Requirements for Real-time Linked Dataspaces -- 6.3.1 Real-time Linked Dataspaces -- 6.3.2 Requirements -- 6.4 Analysis of Existing Data Catalogs -- 6.5 Catalog Service -- 6.5.1 Pay-As-You-Go Service Levels. , 6.6 Entity Management Service -- 6.6.1 Pay-As-You-Go Service Levels -- 6.6.2 Entity Example -- 6.7 Access Control Service -- 6.7.1 Pay-As-You-Go Service Levels -- 6.8 Joining the Real-time Linked Dataspace -- 6.9 Summary -- Chapter 7: Querying and Searching Heterogeneous Knowledge Graphs in Real-time Linked Dataspaces -- 7.1 Introduction -- 7.2 Querying and Searching in Real-time Linked Dataspaces -- 7.2.1 Real-time Linked Dataspaces -- 7.2.2 Knowledge Graphs -- 7.2.3 Searching Versus Querying -- 7.2.4 Search and Query Service Pay-As-You-Go Service Levels -- 7.3 Search and Query over Heterogeneous Data -- 7.3.1 Data Heterogeneity -- 7.3.2 Motivational Scenario -- 7.3.3 Core Requirements for Search and Query -- 7.4 State-of-the-Art Analysis -- 7.4.1 Information Retrieval Approaches -- 7.4.2 Natural Language Approaches -- 7.4.3 Discussion -- 7.5 Design Features for Schema-Agnostic Queries -- 7.6 Summary -- Chapter 8: Enhancing the Discovery of Internet of Things-Based Data Services in Real-time Linked Dataspaces -- 8.1 Introduction -- 8.2 Discovery of Data Services in Real-time Linked Dataspaces -- 8.2.1 Real-time Linked Dataspaces -- 8.2.2 Data Service Discovery -- 8.3 Semantic Approaches for Service Discovery -- 8.3.1 Inheritance Between OWL-S Services -- 8.3.2 Topic Extraction and Formal Concept Analysis -- 8.3.3 Reasoning-Based Matching -- 8.3.4 Numerical Encoding of Ontological Concepts -- 8.3.5 Discussion -- 8.4 Formal Concept Analysis for Organizing IoT Data Service Descriptions -- 8.4.1 Definition: Formal Context -- 8.4.2 Definition: Formal Concept -- 8.4.3 Definition: Sub-concept Ordering -- 8.5 IoT-Enabled Smart Environment Use Case -- 8.6 Conclusions and Future Work -- Chapter 9: Human-in-the-Loop Tasks for Data Management, Citizen Sensing, and Actuation in Smart Environments -- 9.1 Introduction -- 9.2 The Wisdom of the Crowds. , 9.2.1 Crowdsourcing Platform -- 9.3 Challenges of Enabling Crowdsourcing -- 9.4 Approaches to Human-in-the-Loop -- 9.4.1 Augmented Algorithms and Operators -- 9.4.2 Declarative Programming -- 9.4.3 Generalised Stand-alone Platforms -- 9.5 Comparison of Existing Approaches -- 9.6 Human Task Service for Real-time Linked Dataspaces -- 9.6.1 Real-time Linked Dataspaces -- 9.6.2 Human Task Service -- 9.6.3 Pay-As-You-Go Service Levels -- 9.6.4 Applications of Human Task Service -- 9.6.5 Data Processing Pipeline -- 9.6.6 Task Data Model for Micro-tasks and Users -- 9.6.7 Spatial Task Assignment in Smart Environments -- 9.7 Summary -- Part III: Stream and Event Processing Services -- Chapter 10: Stream and Event Processing Services for Real-time Linked Dataspaces -- 10.1 Introduction -- 10.2 Pay-As-You-Go Services for Event and Stream Processing in Real-time Linked Dataspaces -- 10.3 Entity-Centric Real-time Query Service -- 10.3.1 Lambda Architecture -- 10.3.2 Entity-Centric Real-time Query Service -- 10.3.3 Pay-As-You-Go Service Levels -- 10.3.4 Service Performance -- 10.4 Summary -- Chapter 11: Quality of Service-Aware Complex Event Service Composition in Real-time Linked Dataspaces -- 11.1 Introduction -- 11.2 Complex Event Processing in Real-time Linked Dataspaces -- 11.2.1 Real-time Linked Dataspaces -- 11.2.2 Complex Event Processing -- 11.2.3 CEP Service Design -- 11.2.4 Pay-As-You-Go Service Levels -- 11.2.5 Event Service Life Cycle -- 11.3 QoS Model and Aggregation Schema -- 11.3.1 QoS Properties of Event Services -- 11.3.2 QoS Aggregation and Utility Function -- 11.3.3 Event QoS Utility Function -- 11.4 Genetic Algorithm for QoS-Aware Event Service Composition Optimisation -- 11.4.1 Population Initialisation -- 11.4.2 Genetic Encodings for Concrete Composition Plans -- 11.4.3 Crossover and Mutation Operations -- 11.4.3.1 Crossover. , 11.4.3.2 Mutation and Elitism -- 11.5 Evaluation -- 11.5.1 Part 1: Performance of the Genetic Algorithm -- 11.5.1.1 Datasets -- 11.5.1.2 QoS Utility Results and Scalability -- 11.5.1.3 Fine-Tuning the Parameters -- 11.5.2 Part 2: Validation of QoS Aggregation Rules -- 11.5.2.1 Datasets and Experiment Settings -- 11.5.2.2 Simulation Results -- 11.6 Related Work -- 11.6.1 QoS-Aware Service Composition -- 11.6.2 On-Demand Event/Stream Processing -- 11.7 Summary and Future Work -- Chapter 12: Dissemination of Internet of Things Streams in a Real-time Linked Dataspace -- 12.1 Introduction -- 12.2 Internet of Things: A Dataspace Perspective -- 12.2.1 Real-time Linked Dataspaces -- 12.3 Stream Dissemination Service -- 12.3.1 Pay-As-You-Go Service Levels -- 12.4 Point-to-Point Linked Data Stream Dissemination -- 12.4.1 TP-Automata for Pattern Matching -- 12.5 Linked Data Stream Dissemination via Wireless Broadcast -- 12.5.1 The Mapping Between Triples and 3D Points -- 12.5.2 3D Hilbert Curve Index -- 12.6 Experimental Evaluation -- 12.6.1 Evaluation of Point-to-Point Linked Stream Dissemination -- 12.6.2 Evaluation on Linked Stream Dissemination via Wireless Broadcast -- 12.7 Related Work -- 12.7.1 Matching -- 12.7.2 Wireless Broadcast -- 12.8 Summary and Future Work -- Chapter 13: Approximate Semantic Event Processing in Real-time Linked Dataspaces -- 13.1 Introduction -- 13.2 Approximate Event Matching in Real-time Linked Dataspaces -- 13.2.1 Real-time Linked Dataspaces -- 13.2.2 Event Processing -- 13.3 The Approximate Semantic Matching Service -- 13.3.1 Pay-As-You-Go Service Levels -- 13.3.2 Semantic Matching Models -- 13.3.3 Model I: The Approximate Event Matching Model -- 13.3.4 Model II: The Thematic Event Matching Model -- 13.4 Elements for Approximate Semantic Matching of Events -- 13.4.1 Elm 1: Sub-symbolic Distributional Event Semantics. , 13.4.2 Elm 2: Free Event Tagging.

Additional Edition: Print version: Curry, Edward Real-Time Linked Dataspaces Cham : Springer International Publishing AG,c2019 ISBN 9783030296643

Language: English

Subjects: Computer Science

Keywords: Electronic books. ; Electronic books

URL: Click to View

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Full-text  ((OIS Credentials Required))

URL: lizenzpflichtig

URL: kostenfrei

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

UID:

Format: 1 online resource (846 pages)

Edition: 1st ed.

ISBN: 9789813299153

Note: Intro -- Preface -- Acknowledgements -- List of Editors -- Editors-in-Chief -- Managing Editors -- Contents -- About the Editors-in-Chief -- Digital Earth Technologies -- 2 Digital Earth Platforms -- 2.1 Introduction -- 2.2 Discrete Global Grid Systems -- 2.2.1 Initial Domain -- 2.2.2 Cell Type -- 2.2.3 Refinement -- 2.2.4 Projection -- 2.2.5 Indexing -- 2.3 Scientific Digital Earths -- 2.4 Public and Commercial Digital Earth Platforms -- 2.4.1 Latitude/Longitude Grids -- 2.4.2 Geodesic DGGSs -- 2.4.3 Installations: DESP -- 2.5 Discrete Global Grid System Standards -- 2.5.1 Standardization of Discrete Global Grid Systems -- 2.5.2 Core Requirements of the OGC DGGS Abstract Specification -- 2.5.3 The Future of the DGGS Standard -- 2.5.4 Linkages Between DGGS and Other Standards Activities -- References -- 3 Remote Sensing Satellites for Digital Earth -- 3.1 Development of Remote Sensing -- 3.1.1 Overview of Remote Sensing -- 3.1.2 Development of Remote Sensing Satellites -- 3.2 Land Observation Satellites -- 3.2.1 US Land Observation Satellites -- 3.2.2 European Land Observation Satellites -- 3.2.3 China's Land Observation Satellites -- 3.2.4 Other Land Observation Satellites -- 3.3 Ocean Observation Satellites -- 3.3.1 US Ocean Observation Satellites -- 3.3.2 European Ocean Observation Satellites -- 3.3.3 China's Ocean Observation Satellites -- 3.3.4 Other Ocean Observation Satellites -- 3.4 Meteorological Observation Satellites -- 3.4.1 US Meteorological Observation Satellites -- 3.4.2 European Meteorological Observation Satellites -- 3.4.3 China's Meteorological Observation Satellites -- 3.4.4 Other Meteorological Observation Satellites -- 3.5 Trends in Remote Sensing for Digital Earth -- References -- 4 Satellite Navigation for Digital Earth -- 4.1 Introduction -- 4.2 Global Navigation Satellite System -- 4.2.1 BDS -- 4.2.2 GPS -- 4.2.3 GLONASS. , 4.2.4 Galileo -- 4.3 GNSS Augmentation Systems -- 4.3.1 Wide-Area Differential Augmentation System -- 4.3.2 Global Differential Precise Positioning System -- 4.3.3 Local Area Differential Augmentation System -- 4.3.4 Local Area Precise Positioning System -- 4.4 Applications in Digital Earth Case Studies -- 4.4.1 Terrestrial Reference System -- 4.4.2 Time System -- 4.4.3 High-Precision Positioning -- 4.4.4 Location-Based Service -- References -- 5 Geospatial Information Infrastructures -- 5.1 Introduction -- 5.2 A Brief History of Geospatial Information Infrastructures -- 5.2.1 Geospatial Information Infrastructure Milestones -- 5.2.2 Architectural Evolutions in Geospatial Information Infrastructure Development -- 5.3 Geospatial Information Infrastructures Today -- 5.3.1 The Evolution of Geospatial Information on the Web -- 5.3.2 Geospatial Information Infrastructures Champion Openness -- 5.3.3 Capacity Building and Learning for Geospatial Information Infrastructures -- 5.4 Recent Challenges and Potential for Improvement -- 5.4.1 Strengthened Role of Semantics -- 5.4.2 Is Spatial Still Special? -- 5.5 Conclusion and Outlook -- References -- 6 Geospatial Information Processing Technologies -- 6.1 Introduction -- 6.2 High-Performance Computing -- 6.2.1 The Concept of High-Performance Computing: What and Why -- 6.2.2 High-Performance Computing Platforms -- 6.2.3 Spatial Database Management Systems and Spatial Data Mining -- 6.2.4 Applications Supporting Digital Earth -- 6.2.5 Research Challenges and Future Directions -- 6.3 Online Geospatial Information Processing -- 6.3.1 Web Service-Based Online Geoprocessing -- 6.3.2 Web (Coverage) Processing Services -- 6.3.3 Online Geoprocessing Applications in the Context of Digital Earth -- 6.3.4 Research Challenges and Future Directions -- 6.4 Distributed Geospatial Information Processing. , 6.4.1 The Concept of Distributed Geospatial Information Processing: What and Why -- 6.4.2 Fundamental Concepts and Techniques -- 6.4.3 Application Supporting Digital Earth -- 6.4.4 Research Challenges and Future Directions -- 6.5 Discussion and Conclusion -- References -- 7 Geospatial Information Visualization and Extended Reality Displays -- 7.1 Introduction -- 7.2 Visualizing Geospatial Information: An Overview -- 7.2.1 Representation -- 7.2.2 User Interaction and Interfaces -- 7.3 Understanding Users: Cognition, Perception, and User-Centered Design Approaches for Visualization -- 7.3.1 Making Visualizations Work for Digital Earth Users -- 7.4 Geovisual Analytics -- 7.4.1 Progress in Geovisual Analytics -- 7.4.2 Big Data, Digital Earth, and Geovisual Analytics -- 7.5 Visualizing Movement -- 7.5.1 Trajectory Maps: The Individual Journey -- 7.5.2 Flow Maps: Aggregated Flows Between Places -- 7.5.3 Origin-Destination (OD) Maps -- 7.5.4 In-Flow, Out-Flow and Density of Moving Objects -- 7.6 Immersive Technologies-From Augmented to Virtual Reality -- 7.6.1 Essential Concepts for Immersive Technologies -- 7.6.2 Augmented Reality -- 7.6.3 Mixed Reality -- 7.7 Virtual Reality -- 7.7.1 Virtual Geographic Environments -- 7.7.2 Foundational Structures of VGEs -- 7.8 Dashboards -- 7.9 Conclusions -- References -- 8 Transformation in Scale for Continuous Zooming -- 8.1 Continuous Zooming and Transformation in Scale: An Introduction -- 8.1.1 Continuous Zooming: Foundation of the Digital Earth -- 8.1.2 Transformation in Scale: Foundation of Continuous Zooming -- 8.1.3 Transformation in Scale: A Fundamental Issue in Disciplines Related to Digital Earth -- 8.2 Theories of Transformation in Scale -- 8.2.1 Transformation in Scale: Multiscale Versus Variable Scale -- 8.2.2 Transformations in Scale: Euclidean Versus Geographical Space. , 8.2.3 Theoretical Foundation for Transformation in Scale: The Natural Principle -- 8.3 Models for Transformations in Scale -- 8.3.1 Data Models for Feature Representation: Space-Primary Versus Feature-Primary -- 8.3.2 Space-Primary Hierarchical Models for Transformation in Scale -- 8.3.3 Feature-Primary Hierarchical Models for Transformation in Scale -- 8.3.4 Models of Transformation in Scale for Irregular Triangulation Networks -- 8.3.5 Models for Geometric Transformation of Map Data in Scale -- 8.3.6 Models for Transformation in Scale of 3D City Representations -- 8.4 Mathematical Solutions for Transformations in Scale -- 8.4.1 Mathematical Solutions for Upscaling Raster Data: Numerical and Categorical -- 8.4.2 Mathematical Solutions for Downscaling Raster Data -- 8.4.3 Mathematical Solutions for Transformation (in Scale) of Point Set Data -- 8.4.4 Mathematical Solution for Transformation (in Scale) of Individual Lines -- 8.4.5 Mathematical Solutions for Transformation (in Scale) of Line Networks -- 8.4.6 Mathematical Solutions for Transformation of a Class of Area Features -- 8.4.7 Mathematical Solutions for Transformation (in Scale) of Spherical and 3D Features -- 8.5 Transformation in Scale: Final Remarks -- References -- 9 Big Data and Cloud Computing -- 9.1 Introduction -- 9.2 Big Data Sources -- 9.3 Big Data Analysis Methods -- 9.3.1 Data Preprocessing -- 9.3.2 Statistical Analysis -- 9.3.3 Nonstatistical Analysis -- 9.4 Architecture for Big Data Analysis -- 9.4.1 Data Storage Layer -- 9.4.2 Data Query Layer -- 9.4.3 Data Processing Layer -- 9.5 Cloud Computing for Big Data -- 9.5.1 Cloud Computing and Other Related Computing Paradigms -- 9.5.2 Introduction to Cloud Computing -- 9.5.3 Cloud Computing to Support Big Data -- 9.6 Case Study: EarthCube/DataCube -- 9.6.1 EarthCube -- 9.6.2 Data Cube -- 9.7 Conclusion -- References. , 10 Artificial Intelligence -- 10.1 Introduction -- 10.2 Traditional and Statistical Machine Learning -- 10.2.1 Supervised Learning -- 10.2.2 Unsupervised Learning -- 10.2.3 Dimension Reduction -- 10.3 Deep Learning -- 10.3.1 Convolutional Networks -- 10.3.2 Recurrent Neural Networks -- 10.3.3 Variational Autoencoder -- 10.3.4 Generative Adversarial Networks (GANs) -- 10.3.5 Dictionary-Based Approaches -- 10.3.6 Reinforcement Learning -- 10.4 Discussion -- 10.4.1 Reproducibility -- 10.4.2 Ownership and Fairness -- 10.4.3 Accountability -- 10.5 Conclusion -- References -- 11 Internet of Things -- 11.1 Introduction -- 11.2 Definitions and status quo of the IoT -- 11.2.1 One Concept, Many Definitions -- 11.2.2 Our Definition -- 11.2.3 Early Works on the Interplay Between DE and the IoT -- 11.2.4 IoT Standards Initiatives from DE -- 11.3 Interplay Between the IoT and DE -- 11.3.1 Discoverability, Acquisition and Communication of Spatial Information -- 11.3.2 Spatial Understanding of Objects and Their Relationships -- 11.3.3 Taking Informed Actions and Acting Over the Environment (ACT) -- 11.4 Case Studies on Smart Scenarios -- 11.5 Frictions and Synergies Between the IoT and DE -- 11.5.1 Discoverability, Acquisition and Communication of Spatial Information -- 11.5.2 Spatial Understanding of Objects and Their Relationships -- 11.5.3 Taking Informed Actions and Acting Over the Environment -- 11.6 Conclusion and Outlook for the Future of the IoT in Support of DE -- References -- 12 Social Media and Social Awareness -- 12.1 Introduction: Electronic Footprints on Digital Earth -- 12.2 Multifaceted Implications of Social Media -- 12.3 Opportunities: Human Dynamics Prediction -- 12.3.1 Public Health -- 12.3.2 Emergency Response -- 12.3.3 Decision Making -- 12.3.4 Social Equity Promotion -- 12.4 Challenges: Fake Electronic Footprints -- 12.4.1 Rumors. , 12.4.2 Location Spoofing.

Additional Edition: Print version: Guo, Huadong Manual of Digital Earth Singapore : Springer Singapore Pte. Limited,c2019 ISBN 9789813299146

Language: English

Subjects: Geography

Keywords: Electronic books. ; Handbook ; Handbooks and manuals. ; Handbooks and manuals. ; Guides et manuels.

URL: Click to View

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: ProQuest Ebook Central

URL: SpringerLink

URL: EBSCOhost

URL: lizenzpflichtig

URL: kostenfrei

URL: https://www.springer.com/gp/book/9789813299146

URL: kostenfrei

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

UID:

Format: 495 S. : , Ill., graph. Darst., Kt.

Edition: 1. Ed.

ISBN: 978-3-7643-8414-2 , 3-7643-8414-X

Content: "The richly illustrated texts in "Space Time Play" cover a wide range of games paces: from milestone video and computer games to virtual metropolises to digitally-overlaid physical spaces. As a comprehensive and interdisciplinary compendium, "Space Time Play" explores the architectural history of computer games and the future of lucid space. More than 140 experts from game studies and the game industry, from architecture and urban planning, have contributed essays, game reviews and interviews. The games examined range from commercial products to artistic projects and from scientific experiments to spatial design and planning tools. "Space Time Play" is not just meant for architects, designers and gamers, but for all those who take an interest in the culture of digital games and the spaces within and modeled after them. Let's play!"--Website.

Language: English

Subjects: Computer Science

Keywords: Architektur ; Computerspiel ; Stadt ; Computerspiel ; Computerspiel ; Rezeption ; Stadtplanung ; Aufsatzsammlung

URL: http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016150693&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Cover

URL: https://birkhauser.com/de/books/9783764384142

Author information: Borries, Friedrich von 1974-

UID:

Format: 1 online resource (x, 493 pages) : , illustrations

ISBN: 0-262-27945-2 , 0-585-48272-1

Content: "Vitruvius's De architectura is the only major work on architecture to survive from classical antiquity, and until the eighteenth century it was the text to which all other architectural treatises referred. While European classicists have focused on the factual accuracy of the text itself, English-speaking architects and architectural theorists have viewed it as a timeless source of valuable metaphors. Departing from both perspectives, Indra Kagis McEwen examines the work's meaning and significance in its own time. Vitruvius dedicated De architectura to his patron Augustus Caesar, the first Roman emperor, whose rise to power inspired its composition near the end of the first century B.C. McEwen argues that the imperial project of world dominion shaped Vitruvius's purpose in writing what he called "the whole body of architecture." Devoting each chapter to a different Vitruvian "body," McEwen addresses such topics as the relation of the book and its author to Augustus, the role of beauty in forging the new world order, and the nature and unprecedented extent of Augustan building programs."--Jacket.

Note: Bibliographic Level Mode of Issuance: Monograph , English

Additional Edition: ISBN 0-262-13415-2

Language: English

Subjects: Ancient Studies

Keywords: Electronic books.

URL: Full text  (Click to View (Currently Only Available on Campus))

URL: Volltext

UID:

Format: 1 online resource (289 pages)

ISBN: 9783662634035 , 3662634031

Content: This book explores the future of automotive propulsion systems, focusing on the integration of electrification and CO2-neutral fuels. It discusses the role of renewable electricity in powering vehicles directly through electric drives or indirectly via synthetic fuels. The book aims to extend discussions beyond traditional boundaries, emphasizing the importance of sustainable product markets. It brings together insights from the 'Grid Integration + Electrified Mobility' congress, highlighting advancements in battery electric vehicles, fuel cell systems, and hybrid powertrains. The content is targeted towards professionals and researchers in the automotive and energy sectors, aiming to foster collaboration and innovation in low-emission vehicle technologies.

Note: Intro -- Vorwort -- Inhaltsverzeichnis -- Autorenverzeichnis -- 1 LCA of a battery electric vehicle using renewable electricity in the entire supply chain -- 1 Introduction -- 2 Life cycle assessment (LCA) for BEV -- 2.1 Goal and scope definition -- 2.2 System boundaries -- 2.3 Considered processes for foreground systems -- 2.4 Considered background databases -- 3 GHG emissions and electricity demand for BEV -- 3.1 Results with background database ecoinvent 3.7 -- 3.2 Results with modified background databases -- 4 Conclusions -- References -- 2 Life cycle assessment of battery versus fuel cell in e-vehicle -- 1 Introduction -- 2 Drivers for environmentally friendly powertrains -- 3 Complexity of life cycle assessments -- 4 Statistics of the new registrations of BEV / FCEV in Germany -- 5 Comparison of batteries and fuel cells in e-vehicles -- 6 Summary -- References -- 3 Both effective and efficient: Potential of variable Valve Train Systems for Heavy Duty Diesel engines to meet future Ultra Low NOx emission requirements -- 1 Introduction and Motivation -- 2 Fundamentals of Exhaust Gas Thermal Management (EGTM) -- 2.1 Conventional EGTM measures -- 2.2 Advanced EGTM measures -- 3 Methodology -- 3.1 Test engine and vehicle -- 3.2 1D Gas Exchange Simulation -- 3.3 Valve lift curve setup for EGTM -- 3.4 Analysis of representative specific load points / operating points (OP) -- 4 Hardware design and layout of Schaeffler's electro-mechanical switchable rocker arm valve train system for HD applications -- 5 Simulation results -- 5.1 Potential of conventional measures for EATS -- 5.2 Potential of advanced measures for EATS -- 5.3 Summary of stationary results -- 5.4 Estimation of driving cycle BSFC impact -- 6 Concluding remarks and outlook -- References -- abbreviation list. , 4 Holistic Engine and EAT Emission Concept Development for future low-emission CV engines -- 1 Introduction -- 1.1 Overview of future legislations regarding heavy duty, on-road engines -- 1.2 Motivation of holistic model-based development -- 2 Validation of the baseline engine and EAT models -- 2.1 Engine model -- 2.2 Baseline exhaust aftertreatment model -- 3 Investigations on cold-start HD FTP cycle -- 3.1 Variation of engine calibration using the baseline and the dual-stage SCR EAT layout -- 3.2 Definition and potentials of a high efficiency engine concept -- 4 Investigations on warm-start HD FTP cycle -- 5 Summary and outlook -- References -- 5 Holistic approach for the development towards a CO2- neutral powertrain for HD applications -- 1 Introduction -- 2 CO2 emission reduction -- 3 CO2 emission reduction by fleet optimization -- 4 CO2 emission reduction by non-fossil energy carriers -- 4.1 Hydrogen -- 4.2 Methanol -- 4.3 Drop-in diesel fuels -- 5 Summary and Conclusion -- References -- 6 Potential of the methanol-powered SI engine in the hybrid powertrain: A simulative investigation -- 1 Introduction and Motivation -- 2 Methodology -- 3 Simulation model approaches and optimization methodology -- 3.1 Full vehicle model -- 3.2 Engine model -- 3.3 Optimization methodology -- 4 Internal Combustion Engine Models -- 4.1 High Efficiency Engine -- 4.2 Methanol Engine -- 4.3 Lean Methanol Engine -- 5 Engine assessment and vehicle efficiency results -- 6 Summary -- References -- 7 Model-based development of alternative propulsions for HD off-highway applications -- 1 Introduction -- 2 Heavy-duty off highway applications: Medium size excavator and wheel loader -- 2.1 Comparison between diesel and multiple hybrid architectures -- 2.2 Off-highway working cycles -- 3 Simulation methodology -- 3.1 Engine model -- 3.2 Battery and e-component models. , 3.3 Powertrain model -- 4 Evaluation and Discussion -- 4.1 Functionality -- 4.2 Analysis -- 4.3 Discussion -- 5 Outlook -- References -- 8 Innovative fuel cell system for medium-size segment -- 1 Introduction -- 2 Technical approach -- 2.1 General -- 2.2 Powertrain topology and stack optimization -- 3 Methodical approach -- 3.1 Fuel Cell Electric Vehicle Simulation Framework -- 3.2 Boundary conditions for vehicle assessment -- 4 Concept LEAN FC Powertrain -- 4.1 Concept description -- 4.2 Performance, range and consumption -- 4.3 Long-range capability - comparison to a battery electric vehicle -- 4.4 Cost analysis powertrain - comparison BEV vs. LEAN-FC -- 5 Conclusion -- References -- 9 Fuel Cell Propulsion System Layout -- 1 Introduction -- 2 Fuel Cell Propulsion System Development Process -- 2.1 Fuel Cell System Specification -- 2.2 Fuel Cell Component Specification Submodel -- 2.3 Thermal Management Submodel -- 3 Exemplary modeling of different fuel cell vehicles and operating strategies -- 3.1 Light commercial vehicle (LCV) -- 3.2 Heavy duty truck tractor -- 4 Summary & -- Outlook -- Acknowledgement -- References -- 10 Cost-oriented optimization of fuel cell peripherals for use in heavy commercial vehicles -- 1 Introduction -- 2 Heavy duty powertrain requirements 2030+ -- 3 System simulation -- 4 Optimization of validation requirements -- 5 Fuel Cell specific MAHLE Portfolio -- 5.1 Thermal Management -- 5.2 Air Management -- 5.3 Hydrogen Pressure Vessel -- 5.4 Electronics -- 6 Summary -- References -- 11 A Systems Engineering Approach to Electromagnetic Compatibility -- 1 Introduction -- 2 State of the Art and Motivation -- 2.1 Development of Electromagnetic Compatible Systems -- 2.2 Systems Engineering -- 2.3 Electromagnetic Compatibility in Systems Engineering -- 3 Electromagnetic Compatibility in Systems Engineering. , 3.1 Business or Mission Analysis -- 3.2 Stakeholder Needs and Requirements Definition -- 3.3 System Requirements Definition -- 3.4 Architecture Definition -- 3.5 Design Definition -- 3.6 System Analysis -- 3.7 Implementation -- 3.8 Integration -- 3.9 Verification -- 3.10 Validation -- 3.11 Transition -- 3.12 Operation and Maintenance -- 3.13 Disposal -- 3.14 Electromagnetic Compatibility Case -- 4 Conclusion and future work -- References -- 12 Challenges in battery development - FEV's design and validation concept -- 1 Methodology -- 2 Legislative Situation / Requirements -- 3 Base Design -- 4 Simulation -- 4.1 Model Setup -- 4.2 Results and Discussion -- 5 Validation -- 5.1 Model parametrization and validation -- 5.2 Thermal runaway trigger methods in general -- 5.3 Battery testing at eDLP -- 5.4 Execution of thermal propagation tests -- 6 Summary -- References -- 13 Challenges and new methodologies for battery develop-ment starting at cell level -- 1 Introduction -- 1.1 Significance of battery systems for electric vehicles -- 1.2 Components of a battery system for electric vehicles -- 2 Challenges for battery system development -- 3 Battery development process and methods -- 3.1 Swelling analysis -- 3.2 Thermal analysis -- 3.3 Aging analysis -- 4 Conclusion -- References -- 14 Grid Integration in the Context of Public Transport Electrification -- 1 Introduction -- 2 Electrification strategies -- 3 Grid integration - public transport -- 3.1 Depot charging -- 3.2 Opportunity charging -- 4 Grid integration - other sectors -- 5 Summary -- References -- 15 Learnings from international charging test drives and es-tablishing of an unified charging performance index -- 1 Introduction -- 2 Worldwide test drives by P3 -- 3 Discussion of the definition of charging power -- 3.1 Measurement of charging power -- 3.2 Charging power as time needed for recharging. , 3.3 The current discussion is based on charging power -- 3.4 Charging power as recharged range -- 4 The development of the P3 Charging Index -- 4.1 Evaluation and outlook -- 5 Conclusion -- References -- 16 An analysis of the legal framework in the EU for placing charging systems on the market. -- I. The EU and E-Mobility - The Low - emission mobility strategy -- II. Legal Framework -- III. European Safety Concept -- IV. Relevant economic operators -- V. Responsibilities of the economic operators -- VI. Guidelines for the implementation of product safety -- VII. Decisive point in time for product conformity. -- VIII. Regulatory consequences of non-compliance -- IX. Possibilities to reduce product safety liability risks -- X. Product Liablity -- XI. Reduction of civil liability risks -- XII. Summary -- 17 Vehicle-to-Grid: Quo vadis? Readiness check of thetechnology landscape for integrating electric vehicles intothe smart grid -- 1 Introduction -- 2 Target charging use cases and scenario description for Vehicle-to-Grid applications -- 3 Status quo of charging infrastructure ecosystem and technical requirements for implementation of V2G scenarios -- 3.1 "Vehicle-to-Home" -- 3.2 "Vehicle-to-Business" -- 3.3 Status Quo "Vehicle-to-Grid" Scenario -- 3.4 Main technical requirements for V2G implementation -- 4 Technical readiness check of system interfaces for technical implementation of V2G scenarios -- 4.1 Technical readiness check of "scenario-generic system interface" -- 4.2 Technical readiness check of "scenario-specific system interfaces" -- 5 Summary and outlook -- 18 Energy and Automotive -- 1 Introduction -- 1.1 Motivation -- 1.2 Energy production -- 1.3 Energy transition - electric vehicle -- 2 Expansion of power grids -- 2.1 Need of energy for charging electric vehicles -- 2.2 Grid expansion - investments. , 3 Implementation of intelligent load management.

Additional Edition: ISBN 9783662634028

Additional Edition: ISBN 3662634023

Language: German

Subjects: Engineering

URL: Volltext  (URL des Erstveröffentlichers)

URL: Volltext  (URL des Erstveröffentlichers)

UID:

Format: 1 online resource (141 pages)

ISBN: 9783030422745

Note: Intro -- Preface -- Contents -- Acronyms -- Towards System-Level Validation -- 1 Higher Complexity in Future Power Systems -- 2 Needs for System-Level Validation -- 2.1 Engineering and Validation Process -- 2.2 Towards a System Validation Approach -- 2.3 Illustrative Example -- 3 Existing Approaches and Research Directions -- 3.1 Suitable Methods and Tools -- 3.2 Future Research Directions -- 4 Overview of the ERIGrid Validation Approach -- References -- Test Procedure and Description for System Testing -- 1 Introduction -- 1.1 Testing Procedure and Test Description -- 1.2 Holistic Testing for System Validation -- 2 Toward Procedures for System Validation -- 2.1 Purpose of Testing in the Development Process -- 2.2 The Need for System Testing and Its Support -- 2.3 A Generic Procedure for System Validation -- 2.4 Testing Chain -- 3 ERIGrid Holistic Test Description Methodology -- 3.1 The Requirements and Semantics of Test Description -- 3.2 The ERIGrid Test Description for System Validation -- 3.3 Holistic Test Description: Key Concepts -- 3.4 Remarks on Quantitative Assessment -- 4 Application Examples -- 4.1 Example 1: Testing Chain -- 4.2 Example 2: Coordinated Voltage Control -- 5 Conclusion -- References -- Simulation-Based Assessment Methods -- 1 Introduction to Smart Grid Modelling and Simulation -- 2 Co-simulation Based Assessment -- 2.1 Introduction to Co-simulation, Goals, and Challenges -- 2.2 Current Co-simulation Standards and Their Functionality -- 3 Co-simulation Framework for Smart-Grid Assessment -- 3.1 Co-simulation Interfaces Based on FMI -- 3.2 Mosaik for Scenario Development and Simulation Orchestration -- 4 Scaling Considerations -- 5 Fault Ride-Through of a Wind Park Example -- 5.1 Experiment Setup and Objectives -- 5.2 Results -- 6 Conclusion -- References -- Hardware-in-the-Loop Assessment Methods -- 1 Introduction. , 2 HIL Techniques for Validation of Smart Grid Solutions -- 2.1 Stability of HIL Experiments -- 2.2 Stability Assessment -- 2.3 Approaches for the Compensation of Time Delay -- 3 Integration of HIL Techniques into a Holistic Framework -- 3.1 Simulation Message-Bus Based Solutions: Lab-Link and OPSIM -- 3.2 Online Integration with SCADA as a Service Approach -- 3.3 Quasi-static PHIL/PSIL -- 4 Coordinated Voltage Control of a Microgrid Example -- 4.1 CHIL Implementation via Lab-Link -- 4.2 Multi-platform CHIL Implementation via OpSim Architecture -- 4.3 PHIL and PSIL Implementation in PRISMES Platform -- 5 Summary -- References -- Laboratory Coupling Approach -- 1 Introduction -- 1.1 State-of-the-Art for Smart Grid Testing -- 1.2 Multi-infrastructure Integration -- 2 JaNDER Communication Platform for Lab-Coupling -- 2.1 Features of the Cloud-Based Communication Platform -- 2.2 Basic Data Sharing via JaNDER-L0 -- 2.3 IEC 61850-Based Communication Platform via JaNDER-L1 -- 2.4 CIM-based Communication Platform via JaNDER-L2 -- 3 Integrated Research Infrastructure -- 3.1 Hardware/Software Integration Between Different Laboratories -- 3.2 Virtual Research Infrastructure -- 4 Examples of Laboratory Couplings -- 4.1 Integration of a Remote OLTC Controller via IEC 61850 -- 4.2 State Estimator Web Service -- 4.3 Geographically Distributed Real-Time Simulation -- 4.4 Real-Time Geographically Distributed CHIL -- 4.5 Real-Time Geographically Distributed PHIL -- 5 Conclusion -- References -- From Scenarios to Use Cases, Test Cases and Validation Examples -- 1 Test Scenario Descriptions -- 2 ERIGrid Generic System Configurations -- 3 Focal Use Cases -- 4 Test Cases -- 5 System Validation Examples -- 5.1 Analysis of the Centralized Voltage Control for Rhodes Island -- 5.2 Converter Controller Development -- 6 Conclusions -- References. , Experiences with System-Level Validation Approach -- 1 Introduction to Users and Experiences -- 2 Application of System-Level Validation Approach in Projects -- 3 Evaluation of Representative Test Cases -- 4 Evaluation of the Holistic Test Description Methodology -- 4.1 Results of Work with ERIGrid Services Questionnaire -- 4.2 Results of Data Specification Questionnaire -- 5 Advantages and Shortcomings of Holistic Validation Methodology -- 5.1 Advantages of the Holistic Validation Methodology -- 5.2 Shortcomings of the Holistic Validation Methodology -- 6 Conclusion -- References -- Education and Training Needs, Methods, and Tools -- 1 Introduction -- 2 Learning Needs for Modern Power and Energy Education -- 3 Laboratory Education -- 3.1 Real-Time Simulation for Laboratory Education -- 3.2 Remote Laboratories -- 4 Simulation-Based Tools -- 4.1 Co-simulation Tools -- 4.2 Interactive (Jupyter) Notebooks -- 5 Outreach Activities -- 5.1 Webinars -- 5.2 Training Schools and Workshops -- 6 Conclusions -- References -- Summary and Outlook -- 1 Conclusions -- 2 Future Work -- References.

Additional Edition: Print version: Strasser, Thomas I. European Guide to Power System Testing Cham : Springer International Publishing AG,c2020 ISBN 9783030422738

Language: English

Keywords: Electronic books. ; Electronic books. ; Electronic books. ; Electronic books.

URL: Click to View

URL: lizenzpflichtig

URL: ProQuest Ebook Central

URL: ProQuest Ebook Central

URL: SpringerLink

URL: http://imp-primo.hosted.exlibrisgroup.com/openurl/44IMP/44IMP_services_page?u.ignore_date_coverage=true&rft.mms_id=991000341346601591

URL: http://www.vlebooks.com/vleweb/product/openreader?id=none&isbn=9783030422745

URL: Click here to view book

URL: FULL  ((Currently Only Available on Campus))

URL: kostenfrei

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

UID:

Format: 1 online resource (280 pages)

Edition: 1st ed.

ISBN: 9783031623325

Series Statement: Sustainable Development Goals Series

Note: Intro -- Contents -- Digitalization of Healthcare in Low-and Middle-Income Countries (LMICs): An Overview -- 1 What Is Digital Health -- 2 Why Is It a Good Time to Talk About Healthcare Digitalization in LMICs-Coalescence of Forces -- 3 Focusing on LMICs vs Resource Restricted Settings -- 4 The Nature and Aim of this Book -- References -- Digital Health: Needs, Trends, Applications -- 1 Introduction -- 2 Differences and Commonalities Between Needs in HICs and LMICs -- 3 Trends in Digital Health, Trends in Digital Innovations -- 4 Applications in Healthcare: Adoption Versus Diffusion -- 5 Opportunities -- 6 Conclusion -- References -- The Emergence and Growth of Digital Health in Saudi Arabia: A Success Story -- 1 Introduction -- 1.1 Brief Explanation of Digital Health and Its Significance -- 1.2 Historical Context of Digital Health Adoption in Saudi Arabia -- 1.3 Overview of the Population Structure in Saudi Arabia -- 1.4 Overview of Saudi Arabia's Healthcare System -- 1.5 Overview of the Digital Health Transformation Landscape -- 2 Current State of Digital Health in Saudi Arabia -- 2.1 Digital Health Solutions and Technologies in Saudi Arabia -- 2.2 Assessment of the Level of Digital Health Adoption and Awareness -- 2.3 Measuring the Digital Health Implementation in Saudi Arabia -- 3 Digital Health Ecosystem in Saudi Arabia -- 3.1 Overview of the Digital Health Ecosystem in Saudi Arabia -- 3.2 Overview of the Key Stakeholders in Saudi Arabia -- 3.3 Analysis of the Key Players in the Ecosystem -- 4 Future Outlook and Opportunities -- 4.1 Discussion of the Challenges of Digital Health Solutions in Saudi Arabia -- 4.2 Discussion of the Future Opportunities for Growth of Digital Health in Saudi Arabia -- 5 Conclusion -- References -- The Digital Divide Based on Development and Availability: The Polish Perspective. , 1 Introduction: An Overview on the Use of Artificial Intelligence in Healthcare -- 2 Real Examples of AI Implementations in Medical Area in Poland -- 3 Regulations and Data Poverty Trap -- 4 Basic Challenges in Data Generation -- 5 Barriers in the Field of AI-Based Medical Images Analysis -- 6 Limitations Resulting from Educational Reasons -- 7 Limitations Resulting from Lack of Awareness -- 8 Challenges Related to Biobanking in the Era of Big Data and Digitalization -- 8.1 Types of Data Stored in Biobanks -- 8.2 Data Collection, Storage and their Usage. Trust in Biobanking in Terms of National Solutions to Overcome Digital Divide Based on Development and Availability-Regulations and Standards -- 9 Digitization of Genomics Data in Poland -- 10 Summary -- Potential of Digital Health Solutions in Facing Shifting Disease Burden and Double Burden in Low- and Middle-Income Countries -- 1 Shifting Disease Burden in Low- and Middle-Income Countries -- 1.1 Double Burden -- 2 What Digital Health Can Bring to the Table -- 3 The Case of Vietnam -- 3.1 Toward a More High-Income Patient Profile -- 3.2 Local Digital Health Solutions: Indicative Examples -- 3.2.1 VieVie Healthcare Co., Ltd: Telemedicine for Diagnosis and Patient Care Management -- 3.2.2 Hanoi Medical University Hospital (HMUH): Telehealth in Action -- 3.2.3 Finizz: Outpatient Clinics and Health Tech -- 3.2.4 BuyMed & -- Thuocsi: Pharmaceutical Supply Chain -- 3.2.5 mHealth for Increasing Immunization Rates at Low Cost in Vietnam -- 3.2.6 Ominext Joint Stock Company: Promoting Primary Care -- 3.2.7 Institute of Gastroenterology and Hepatology -- 3.2.8 Vinmec -- 4 Conclusion -- Health Inequalities and Availability: Needs and Applications -- 1 Introduction -- 2 The Concepts of Health Inequality and Inequity: Their Role and Impact. , 3 International and National Responses to Health Inequalities -- 4 Digitalization Levels and Initiatives -- 5 Human Rights as a Supportive Mechanism to the Digitalization of Medicine in LMICs -- 6 Conclusion -- References -- Needs of Healthcare and Medical Research Digitization in Developing Countries: Digital Health Infrastructure -- 1 Introduction -- 2 Persistent Infrastructure Challenges -- 3 Identifying the Key Structural Needs -- 4 Conclusions -- References -- Digitization of Healthcare in LMICs: Challenges and Opportunities in Data Governance and Data Infrastructure -- 1 Introduction -- 2 Healthcare Data Infrastructure -- 3 Healthcare Data Policy and Governance -- 4 Observed Regulatory Challenges -- 5 Local Context -- 6 Opportunities -- 7 Way Forward -- 8 Conclusion -- References -- Long-Term Digital Storage and Usage of Research Data: Data Pooling -- 1 Introduction -- 2 Data Management Plan (DMP) -- 3 Data Standards and Documentation -- 4 Clinical Document Architecture (CDA) -- 5 Digital Imaging and Communications in Medicine (DICOM) -- 6 Documentation in Healthcare. Electronic Health Records (EHR) Documentation -- References -- Possible Process Optimization: Innovative Digital Health Implementation Models -- 1 Introduction -- 2 Electronic Health Record-Based Tools -- 2.1 Smile Train Express (STX) -- 2.2 OpenMRS -- 2.3 DHIS2 -- 3 Healthcare Scheduling Optimization -- 3.1 Patient Admission Scheduling Problem -- 3.2 Nurse Scheduling Problem -- 3.3 Operating Room Scheduling/Surgical Scheduling -- 4 Supply Chain Management for Medicines -- 5 Patient Registries -- 6 Biometric Systems -- 7 Counterfeit Drug Testing -- 8 Automated Completion or Analysis of Medical Records -- 9 Patient Feedback Collection and Analysis -- 10 Quality/Performance Improvement Analytics -- 11 Conclusion -- References. , Digitalization in Preclinical Research: Advancements and Implications -- 1 Introduction -- 2 Digital Tools and Technologies in Preclinical Research -- 2.1 Overview of Key Digital Tools and Technologies Utilized in Preclinical Research -- 2.2 Electronic Data Capture (EDC) Systems for Efficient Data Collection and Management -- 2.3 Laboratory Information Management Systems (LIMS) for Streamlined Data Organization and Integration (Cucoranu 2016 -- Brusniak et al. 2019 -- Kumuthini et al. 2020) -- 2.4 Cloud-Based Storage and Computing Solutions for Secure and Scalable Data Management (Willard et al. 2016 -- Berman 2012 -- Ngiam and Khor 2015) -- 2.5 Data Analysis and Visualization Tools for Deriving Meaningful Insights from Preclinical Data (Park et al. 2019 -- Tian and Greenberg 2019 -- Tomczak and Czerwińska 2018 -- Sutherland and Rahman 2017 -- Campillos and Kuhn 2019 -- Cheng et al. 2019 -- 3 Enhancing Data Management in Preclinical Research Through Digitization -- 3.1 Importance of Robust Data Management in Preclinical Research -- 3.2 Role of Digitization in Improving Data Accuracy, Integrity, and Accessibility -- 3.3 Integration of Diverse Data Sources and Data Standardization for Enhanced Collaboration -- 3.4 Real-Time Data Availability and Monitoring for Timely Decision-Making -- 4 Digitization and Experimental Design in Preclinical Research -- 4.1 Utilizing Digital Tools for Experimental Design and Protocol Optimization (Gao et al. 2020 -- Morrissey et al. 2016 -- Rodgers and Levin 2017 -- Tung and O'Brien 2017 -- Williamson et al. 2009) -- 4.2 Digital Platforms for Sample Tracking, Experimental Workflows, and Protocol Management (Danziger et al. 2018 -- Li et al. 2019 -- Ratner 2010 -- Tarca et al. 2016 -- Zhang et al. 2019). , 4.3 Use of Virtual Screening and in Silico Methods for Target Identification and Compound Selection (Ertl et al. 2000 -- Friesner et al. 2004 -- Schneider et al. 1999 -- Shoichet 2004 -- Wang et al. 2005 -- Willett et al. 1998) -- 4.4 Application of Machine Learning Algorithms for Predictive Modeling and Simulation Studies (Cherkasov et al. 2014 -- Cramer et al. 2020 -- Ekins et al. 2007 -- Sliwoski et al. 2014 -- Wallach et al. 2015) -- 5 Implications of Digitization on Preclinical Research Outcomes -- 6 Conclusion -- References -- Digitization of Clinical Pathways in Low- and Middle-Income Countries -- 1 Introduction -- 2 Gaps in the Clinical Pathways also Affect the Digitization Process -- 3 Conclusion -- References -- Digitalization in Pediatrics in Low- and Middle-Income Countries: Rationale and Directions -- 1 Introduction -- 2 Respiratory Diseases -- 3 Neonatal Care -- 4 Child Development -- 5 Health Care Organization and Delivery -- 6 School Health -- 7 Health Education -- 8 Continuous Medical Education -- 9 Conclusions -- References -- Digitization in Genetics and Diagnostics Laboratories in Armenia -- 1 Introduction -- 2 Current Efforts in Armenia -- 2.1 Familial Mediterranean Fever -- 2.2 Cancer -- 3 Digitization of Genetic Services -- 4 Conclusions -- References -- Digitization in Dentistry and Dental Implantology in Low- and Middle-Income Countries -- 1 Introduction -- 1.1 Overview of Dentistry and Dental Implantology in Low and Middle-Income Countries -- 1.2 Digital Imaging and Radiology -- 1.3 Benefits of Digitalization in LMICs -- 1.4 Strategies for Successful Implementation of Digital Technologies in LMICs -- 1.5 Overcoming Infrastructure Challenges -- 2 Conclusion -- References -- Patient Facing Applications -- 1 Introduction -- 2 Specific Applications -- 3 Conclusion -- References. , Digital Healthcare: Population-Level Applications.

Additional Edition: Print version: Kozlakidis, Zisis Digitalization of Medicine in Low- and Middle-Income Countries Cham : Springer International Publishing AG,c2024 ISBN 9783031623318

Language: English

Keywords: Electronic books. ; Electronic books.

URL: Click to View

URL: SpringerLink

URL: Springer Nature

URL: Click here to view book

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)

URL: lizenzpflichtig

URL: Volltext  (kostenfrei)

URL: Volltext  (kostenfrei)