03752nam 2200649 450 991045345350332120200903223051.01-61499-347-5(CKB)2550000001179592(EBL)1589015(SSID)ssj0001129558(PQKBManifestationID)11618133(PQKBTitleCode)TC0001129558(PQKBWorkID)11086373(PQKB)11515921(MiAaPQ)EBC1589015(Au-PeEL)EBL1589015(CaPaEBR)ebr10827971(CaONFJC)MIL559731(OCoLC)868227415(EXLCZ)99255000000117959220140122h20122012 uy 0engur|n|---|||||txtccrAdvances in semantic authoring and publishing /Tudor GrozaGermany :Akademische Verlagsgesellschaft AKA GmbH,2012.©20121 online resource (262 p.)Studies on the Semantic Web,1868-1158 ;Volume 013Description based upon print version of record.1-61499-099-9 1-306-28480-5 Includes bibliographical references and index.Title Page; Abstract; Acknowledgements; Contents; Part I. Prelude; Chapter 1. Introduction; Problem statement; Research questions; Hypothesis; Contributions; Metadata Lifecycle; Thesis structure; Part II. Foundations; Chapter 2. Research background; Documents as interlinked knowledge elements; Rhetorical Structure Theory; The Evolution of the Web; The Social Semantic Desktop; Part III. Core; Chapter 3. Layered ontological framework; The SALT Layers; The KonneX Vocabulary; Related work; Conclusion; Chapter 4. Manual Semantic Authoring and Publishing; The manual creation process; EvaluationRelated workConclusion; Chapter 5. Towards (semi)-automatic Semantic Authoring and Publishing; Automatic extraction of shallow metadata; Automatic extraction of discourse knowledge items; Using Semantic Publishing for information expansion and visualisation; Evaluation; Related work; Conclusion; Chapter 6. KonneXSALT - A Semantic Publishing Platform; KonneXSALT as a semantic claim federation infrastructure; KonneXSALT as an integrated component of CORAAL; Related work; Conclusion; Part IV. Conclusions; Chapter 7. Conclusion and Future Work; Objectives and contributions; InsightsOpen challenges and future researchSummary; BibliographyDissemination can be seen as a communication process between scientists. Over the course of several publications, they expose and support their findings, while discussing stated claims. Such discourse structures are trapped within the content of the publications, thus making the semantics discoverable only by humans. In addition, the lack of advances in scientific publishing, where electronic publications are still used as simple projections of paper documents, combined with the current growth in the amount of scientific research being published, transforms the process of finding relevant liteStudies on the Semantic Web ;v. 13.Semantic WebScience publishingScientific literatureElectronic publishingElectronic books.Semantic Web.Science publishing.Scientific literatureElectronic publishing.025.04Groza Tudor901037MiAaPQMiAaPQMiAaPQBOOK9910453453503321Advances in semantic authoring and publishing2014016UNINA05476nam 2200769Ia 450 991102015350332120200520144314.097812838698361283869837978352763703435276370369783527637058352763705297835274111913527411194(CKB)2670000000139937(EBL)832638(OCoLC)769928302(SSID)ssj0000614461(PQKBManifestationID)11360073(PQKBTitleCode)TC0000614461(PQKBWorkID)10605365(PQKB)10490392(MiAaPQ)EBC832638(Perlego)1011461(EXLCZ)99267000000013993720120412d2012 uy 0engur|n|---|||||txtccrOrganic matter in the universe /Sun KwokWeinheim Wiley-VCHc20121 online resource (279 p.)Description based upon print version of record.9783527409860 3527409866 Includes bibliographical references (p. 211-243) and index.Organic Matter in the Universe; Contents; Preface; Abbreviations; Color Plates; 1 History and Introduction; 1.1 Origin of Chemical Elements; 1.2 Extraterrestrial Organics; 2 The Chemistry of Organic Matter; 2.1 Families of Organic Molecules; 2.2 Different Forms of Carbon; 2.2.1 Graphite; 2.2.2 Diamond; 2.2.3 Fullerenes; 2.2.4 Nanotubes and Fullerene Onions; 2.2.5 Carbynes; 2.2.6 Amorphous Forms of Carbon; 2.3 Molecules of Biological Significance; 2.3.1 Carbohydrates; 2.3.2 Lipids; 2.3.3 Proteins; 2.3.4 Nucleic Acids; 2.4 Summary; 3 Interstellar Molecules3.1 Electronic, Vibrational, and Rotational Structures of Molecules3.1.1 Electronic Transitions; 3.1.2 Vibrational Transitions; 3.1.3 Rotational Transitions; 3.1.4 Effects of Electron and Nuclear Spins; 3.2 Hydrocarbons; 3.3 Alcohols; 3.3.1 Methanol; 3.3.2 Vinyl Alcohol; 3.4 Carboxylic Acids; 3.5 Aldehydes and Ketones; 3.5.1 Formaldehyde; 3.5.2 Cyanoformaldehyde; 3.5.3 Acetaldehyde; 3.5.4 Propynal, Propenal and Propanal; 3.5.5 Ketene; 3.5.6 Acetone; 3.6 Ethers and Esters; 3.7 Amines, Nitriles, and Nitrogen-Containing Molecules; 3.7.1 Ammonia; 3.7.2 Hydrogen Cyanide; 3.7.3 Methylenimine3.7.4 Methylamine3.7.5 Cyanamide; 3.7.6 Formamide; 3.7.7 Acetamide; 3.7.8 Ketenimine; 3.7.9 Amino Acetonitrile; 3.8 Radicals; 3.8.1 CH; 3.8.2 CH+; 3.8.3 The Methylene Radical; 3.8.4 Methyl Radical; 3.9 Carbon Chains; 3.9.1 Carbynes; 3.9.2 Carbon Chain Ions; 3.9.3 Pure Carbon Chains; 3.10 Acetylene Derivatives; 3.11 Rings; 3.11.1 Propynl; 3.11.2 Cyclopropenylidene; 3.11.3 Cyclopropenone; 3.11.4 Ethylene Oxide and Propylene Oxide; 3.12 Phosphorus Containing Molecules; 3.12.1 PH; 3.13 Polycyclic Aromatic Hydrocarbons; 3.14 Molecules Containing Trace Elements; 3.14.1 Metal Hydrides3.14.2 Halides and Cyanides3.14.3 Calcium Carbide; 3.15 Biomolecules; 3.15.1 Amino Acids; 3.15.2 Sugars; 3.15.3 Nucleic Acids; 3.16 Diamonds; 3.17 Fullerenes; 3.18 Spectroscopic Scans; 3.18.1 Unidentified Lines; 3.18.2 All-Sky Spectral Scans; 3.19 Search for Large, Complex Molecules; 3.20 Summary; 4 Organic Molecules in the Interstellar Medium; 4.1 Dark Clouds; 4.2 High-Mass Star Formation Regions; 4.2.1 Sagittarius B2; 4.2.2 Orion Nebula; 4.3 Reflection Nebulae; 4.4 Diffuse Interstellar Medium; 4.5 Cirrus Clouds; 4.6 Summary; 5 Organic Compounds in Galaxies5.1 Aromatic Compounds in Galaxies5.2 The Aliphatic Component; 5.3 Other Organics; 5.4 Summary; 6 Synthesis of Organic Compounds in the Late Stages of Stellar Evolution; 6.1 Molecular Synthesis in the Stellar Wind; 6.2 Beyond the Asymptotic Giant Branch; 6.3 Chemical Evolution; 6.4 Enrichment of the Interstellar Medium; 7 Organic Compounds in the Solar System; 7.1 Techniques; 7.2 The Sun; 7.3 The Earth; 7.4 Planets and Planetary Satellites; 7.4.1 Planetary Atmospheres; 7.4.2 Ices; 7.4.3 Organic Solids; 7.5 Meteorites; 7.6 Meteoroids and Interplanetary Dust Particles; 7.7 Comets; 7.8 Asteroids7.9 Trans-Neptunian ObjectsAuthored by an experienced writer and a well-known researcher of stellar evolution, interstellar matter and spectroscopy, this unique treatise on the formation and observation of organic compounds in space includes a spectroscopy refresher, as well as links to geological findings and finishes with the outlook for future astronomical facilities and solar system exploration missions. A whole section on laboratory simulations includes the Miller-Urey experiment and the ultraviolet photolysis of ices.CosmochemistryOrganic compoundsInterstellar matterAstronomical spectroscopyOrganic compoundsSynthesisSpectrum analysisCosmochemistry.Organic compounds.Interstellar matter.Astronomical spectroscopy.Organic compoundsSynthesis.Spectrum analysis.523/.02Kwok S(Sun)823594MiAaPQMiAaPQMiAaPQBOOK9911020153503321Organic matter in the universe4422845UNINA