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  • 1
    Online Resource
    Online Resource
    From Physics to Daily Life : Applications in Biology, Medicine, and Healthcare (2014)
    Hoboken : Wiley
    Details
    ISBN: 9783527332618
    Language: English
    Pages: Online-Ressource (389 p)
    Edition: 2nd ed
    Parallel Title: Print version From Physics to Daily Life : Applications in Biology, Medicine, and Healthcare
    DDC: 303.48/30112
    Keywords: Science -- Social aspects -- Forecasting ; Science -- History -- 21st century ; Science ; History ; 21st century.. ; Science ; Social aspects ; Forecasting ; Electronic books ; Electronic books
    Abstract: Beatrice Bressan brings together a number of outstanding examples of successful cross-disciplinary technology transfer originating in fundamental physics research, which dramatically impacted progress in biomedical research and clinical applications. Many of these examples were developed at CERN, a hotbed of fundamental inventions in particle physics. Additional sections of the book deal with knowledge management and technology transfer including its economic aspects. While each chapter has been drafted by an expert in the field, the editor has carefully edited the whole book, ensuring a coh
    Description / Table of Contents: From Physics to Daily Life: Applications in Biology, Medicine, and Healthcare; Contents; Contributors' CVs; Foreword; List of Acronyms; List of Units; 1 Introduction; Part I: Knowledge Management and Technology Transfer in an Organization; 2 Knowledge Management: From Theory to Practice; 2.1 Knowledge-Based and Innovative Organization; 2.2 The Theory of Knowledge; 2.2.1 Tacit and Explicit Knowledge; 2.2.2 The SECI Model and the Knowledge Creation Spiral; 2.2.3 The Two Dimensions and the Two Spirals of Knowledge Creation; 2.2.4 The Five Conditions and the Five Phases in Two Dimensions
    Description / Table of Contents: 2.3 The Core Processes of Managing Knowledge2.3.1 Knowledge Outputs and Outcomes; 2.4 The Knowledge Worker; 2.4.1 The Individual Learning Process; 2.4.2 Scientific, Technological and Social Processes; 2.4.3 Concept Formation and the Hierarchical Levels of Conceptualization; 2.5 The Knowledge Creation, Acquisition, and Transfer Model; 2.6 Knowledge Management: A Case Study of CERN; 2.6.1 The LHC Case Study Survey; Part II: Examples of Knowledge and Technology Transfer; Section 1: Medical Applications; 3 Particle Beams for Cancer; 3.1 Radiations in the Therapy of Solid Tumours
    Description / Table of Contents: 3.2 Conventional Radiation Therapy3.3 Neutrontherapy and Protontherapy; 3.4 Ion Therapy; 3.5 Proton Single-Room Facilities; 3.6 Conclusion; 4 Detection and Imaging; 4.1 Invention of the Multiwire Proportional Chamber; 4.2 Modalities for Medical Imaging; 4.3 Development of the HIDAC Detector; 4.4 The Dual-HIDAC PET Camera; 4.5 Early Developments in Positron Tomography; 4.6 Fully Three-Dimensional PET Acquisition; 4.7 The Partial Ring Tomograph; 4.8 The Birth of Multimodality Instrumentation; 4.9 Conclusion; 5 Micro-Fabricated Sensors; 5.1 3D Silicon Sensors; 5.1.1 3D Sensor Fabrication
    Description / Table of Contents: 5.1.2 3D Silicon Sensors, State of the Art5.2 3D Sensor Applications; 5.2.1 Micro-Dosimetry for Cancer Therapy; 5.2.2 Structural Molecular Biology; 5.2.3 Scattering from Crystals; Section 2: Impact on Life Sciences; 6 Omics: Technologies and Translations; 6.1 Biology from Different Perspectives; 6.1.1 Biology from a Descriptive Discipline to a Holistic, Molecular, and Quantitative Science; 6.1.2 Biology from a Chain-of-Events Perspective to Network Thinking; 6.2 Quantum Leaps in Omics Development; 6.2.1 From Gene and DNA Analysis to Deep Sequencing
    Description / Table of Contents: 6.2.1.1 Single Gene Expression Analysis: Real-Time PCR6.2.1.2 Microarrays-Based Transcriptomics; 6.2.1.3 Deep Sequencing; 6.2.2 Classical Biochemistry Goes -Omics; 6.2.2.1 Proteomics; 6.2.2.2 Metabolites; 6.2.2.3 Metabolomics; 6.3 Omics Output (I): Knowledge Bases; 6.3.1 Human Genome Projects; 6.3.2 Human Proteome Projects; 6.3.3 Human Metabolome Projects; 6.4 Omics Output (II): Translations and Challenges; 6.4.1 Genetics to Diagnostics; 6.4.2 Proteomics to Diagnostics; 6.5 From Omics to 'Know-mics': Translation into Personal and Actionable (gen)omics; 7 Technology Fallout in Bioinformatics
    Description / Table of Contents: 7.1 Fundamental Research and the Development of New Technology
    Note: Description based upon print version of record
    URL: Volltext  (lizenzpflichtig)
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  • 2
    Online Resource
    Online Resource
    From physics to daily life : applications in informatics, energy, and environment (2014)
    Weinheim : Wiley Blackwell | Hoboken : John Wiley & Sons Inc.
    Details
    ISBN: 9783527687015
    Language: English
    Pages: 1 Online-Ressource
    DDC: 303.48/30112
    RVK:
    UB 4010
    Keywords: Physik ; Grundlagenforschung ; Wissens- und Technologietransfer ; Biowissenschaften ; Medizin ; Gesundheitswesen ; Aufsatzsammlung ; Aufsatzsammlung
    DOI: 10.1002/9783527687039
    URL: http://dx.doi.org/10.1002/9783527687039
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527687039
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  • 3
    Online Resource
    Online Resource
    From Physics to Daily Life : Applications in Informatics, Energy, and Environment (2014)
    Hoboken : Wiley
    Details
    ISBN: 9783527332861
    Language: English
    Pages: Online-Ressource (367 p)
    Edition: 2nd ed
    Edition: Online-Ausg.
    Parallel Title: Print version From Physics to Daily Life : Applications in Informatics, Energy, and Environment
    DDC: 303.48/30112
    Keywords: Physics ; Physics ; Electronic books ; Electronic books
    Abstract: Beatrice Bressan brings together a number of outstanding examples of successful cross-disciplinary technology transfer originating in fundamental physics research, which dramatically impacted scientific progress in areas which changed modern society. Many of them were developed at CERN, a hotbed of fundamental inventions in particle physics. This book deals with breakthrough developments being applied in the world of IT, consumer electronics, aviation, and material sciences. Additional sections of the book deal with knowledge management and technology transfer including their economic aspect
    Description / Table of Contents: From Physics to Daily Life: Applications in Informatics, Energy, and Environment; Contents; Contributors'' CVs; Foreword; List of Acronyms; List of Units; 1 Introduction; Part I: Knowledge Management and Technology Transfer in an Organization; 2 Knowledge Management: From Theory to Practice; 2.1 Knowledge-Based and Innovative Organization; 2.2 The Theory of Knowledge; 2.2.1 Tacit and Explicit Knowledge; 2.2.2 The SECI Model and the Knowledge Creation Spiral; 2.2.3 The Two Dimensions and the Two Spirals of Knowledge Creation; 2.2.4 The Five Conditions and the Five Phases in Two Dimensions
    Description / Table of Contents: 2.3 The Core Processes of Managing Knowledge2.3.1 Knowledge Outputs and Outcomes; 2.4 The Knowledge Worker; 2.4.1 The Individual Learning Process; 2.4.2 Scientific, Technological and Social Processes; 2.4.3 Concept Formation and the Hierarchical Levels of Conceptualization; 2.5 The Knowledge Creation, Acquisition, and Transfer Model; 2.6 Knowledge Management: A Case Study of CERN; 2.6.1 The LHC Case Study Survey; Part II: Examples of Knowledge and Technology Transfer; Section 1: Linking Information; 3 WWW and More; 3.1 The First Page; 3.2 Influences on the History of the Web
    Description / Table of Contents: 3.2.1 A Matter of Age3.2.2 The Approach; 3.3 CERN's Role; 3.3.1 A Possible Definition; 3.3.2 Making it Work; 3.3.3 On Documents; 3.3.4 The Director General; 3.3.5 Al Gore, the LHC, and the Rest is History; 3.4 What-if Musings; 3.4.1 Money, Money, Money . . .; 3.4.2 And if Not?; 3.5 The Dark Sides of the Force; 3.5.1 Techies; 3.5.2 Global Heating; 3.5.3 Sin by Omission; 3.6 Good Stuff; 3.6.1 Public Domain; 3.6.2 The Conferences; 3.6.3 The Consortium; 3.7 On the Nature of Computing; 3.7.1 Copy; 3.7.2 See; 3.7.3 Understand; 3.7.4 Remember; 3.7.5 Interact; 3.7.6 Share; 3.7.7 Think
    Description / Table of Contents: 3.8 Science 'Un-human'3.9 Lessons to be Learned; 3.10 Conclusions; 4 Grid and Cloud; 4.1 Why a Grid?; 4.2 A Production Infrastructure; 4.3 Transferring Technology: Grids in Other Science Domains; 4.4 How CERN Openlab has Contributed to the WLCG Grid; 4.5 Four Basic Principles; 4.6 Three-Year Phases; 4.7 EGEE to EGI Transition; 4.8 Lessons Learned and Anticipated Evolution; 4.9 Transferring Technology: Grids in Business; 4.10 Sharing Resources Through Grids; 4.11 What are the Hurdles?; 4.12 Philips Research: Scientific Simulation, Modelling and Data Mining Supports Healthcare
    Description / Table of Contents: 4.13 Finance: Stock Analysis Application4.14 Multimedia: GridVideo; 4.15 Imense: From Laboratory to Market; 4.16 Total, UK; 4.17 Seismic Imaging and Reservoir Simulation: CGG Veritas Reaping Benefits from the Grid; 4.18 Societal Impact; 5 The 'Touch Screen' Revolution; 5.1 The Birth of a Touch Screen; 5.2 The Novelty for the Control Room of the CERN SPS Accelerator; 5.3 A Touch Screen as Replacement for Mechanical Buttons; 5.4 Attempts at Early Knowledge Transfer; 5.5 Evolution Turned Into Revolution; 5.6 Touch Screen and Human Behaviour; Section 2: Developing Future
    Description / Table of Contents: 6 Solar Thermal Electricity Plants
    Note: Description based upon print version of record
    URL: Volltext  (lizenzpflichtig)
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    BSZ
    GBV
  • 4
    Online Resource
    Online Resource
    From Physics to Daily Life (2014)
    [Erscheinungsort nicht ermittelbar] : Wiley-Blackwell | Boston, MA : Safari
    Details
    Language: English
    Pages: 1 online resource (364 pages)
    Edition: 1st edition
    Keywords: Electronic books ; local
    Abstract: Beatrice Bressan brings together a number of outstanding examples of successful cross-disciplinary technology transfer originating in fundamental physics research, which dramatically impacted scientific progress in areas which changed modern society. Many of them were developed at CERN, a hotbed of fundamental inventions in particle physics. This book deals with breakthrough developments being applied in the world of IT, consumer electronics, aviation, and material sciences. Additional sections of the book deal with knowledge management and technology transfer including their economic aspects. While each chapter has been drafted by an expert in the field, the editor has carefully edited the whole to ensure a coherent overall structure. A must-have for policy makers, technology companies, investors, strategic planners in research and technology, as well as attractive reading for the research community.
    Note: Online resource; Title from title page (viewed November 3, 2014)
    URL: https://learning.oreilly.com/library/view/-/9783527332861/?ar
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    MPI Ethno. Forsch.
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