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200 10$aMelt chemistry, relaxation, and solidification kinetics of glasses$b[electronic resource] $eproceedings of the 106th Annual Meeting of the American Ceramic Society : Indianapolis, Indiana, USA (2004) /$feditors, Hong Li ... [et al.]
210   $aWesterville, Ohio $cAmerican Ceramic Society$dc2005
215   $a1 online resource (260 p.)
225 1 $aCeramic transactions ;$vv. 170
300   $aDescription based upon print version of record.
311   $a1-57498-191-9 
320   $aIncludes bibliographical references and indexes.
327   $aMelt Chemistry, Relaxation, and Solidification Kinetics of Glasses; Contents; Preface; Melt chemistry, Structure, and Properties; High-Temperataure Raman Spectroscopy of Alkali Silicate Glass Melts*; Control of Liquid Properties and Structure via Melt Chemistry*; Calorimetric Studies of the Structural Heterogeneity of Silicate Liquids*; Anisotropic Alkali Silicate Glasses by Frozen-In Strain*; Amorphous Materials Engineering: Designing Structure in Liquid and Glassy Metal-Halide Networks*; Structure of Glass-Forming Melts-Lanthanide in Borosilicates
327   $aModified Associate Species Approach to Phase Equilibria Prediction for Oxide Glass SystemsRelaxation Phenomena; Structural Influences on the Dynamic Light Scattering from Glassforming Liquids; Harmonization of Viscosimetric and Thermodynamic Data for Industrial Multi-Component Glasses and Glass Melts*; Mechanical Spectroscopy of Natural and Synthetic Silicate Glasses and Melts; Improved Composition-Property Relations in Silicate Glasses, Part I: Viscosity; Nuoleation and Crystallization; Coupled Processes in Nucleation*; Sintering Kinetics of Crystallizing Glass Particles. A Review*
327   $aDesign of Energy and Environmentally Friendly Fiberglass Compositions Derived from the Quaternary SiO2-Al2O3-CaO-MgO Phase Diagram - Part I: Structures, Properties, and Crystallization Potential of Eutectic and Selected Multi-Oxide E-Glass Compositions*Some Aspects of Glass and Glass Ceramics Formation of Stoichiometric Compositions in the RO-Al2O3-B2O3 Systems; Crystallization of a Li2O-2SiO2 Glass Under High Hydrostatic Pressures; Effect of Isomorphic Substitutions on Crystallization of Mica and Amphibole Phases in Glasses of the System SiO2-Al2O3-B2O3-CaO-MgO-Li2O-(K,Na)2O-F
327   $aProperties of Glass-Ceramics Synthesized from Hydrometallurgical Zinc WasteAuthor Index; Keyword Index
330   $aThis volume will summarize the most recent development in experimentation, computation, and theory on chemistry of glass forming melt, including melt structure modeling and melt structure and characterizations. This volume provides a timely update on the advances in glass basic science research and development.
410  0$aCeramic transactions ;$vv. 170.
606   $aGlass$vCongresses
606   $aGlass manufacture$vCongresses
606   $aHigh temperature chemistry$vCongresses
606   $aSolidification$vCongresses
606   $aRelaxation phenomena$vCongresses
615  0$aGlass
615  0$aGlass manufacture
615  0$aHigh temperature chemistry
615  0$aSolidification
615  0$aRelaxation phenomena
676   $a666.1042
676   $a666/.1042
701   $aLi$b Hong$0871407
712 02$aAmerican Ceramic Society.$bMeeting$d(106th :$f2004 :$eIndianapolis, Ind.)
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200 00$aDesign of multimodal mobile interfaces /$fedited by Nava Shaked, Ute Winter
210  1$aBoston, [Massachusetts] ;$aBerlin, [Germany] :$cDe Gruyter,$d2016.
210  4$dİ2016
215   $a1 online resource (xviii, 221 pages) $cillustrations
311   $a1-5015-1084-3 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $tFrontmatter --$tPreface --$tContents --$tList of contributing authors --$t1. Introduction to the evolution of Mobile Multimodality --$t2. Integrating natural language resources in mobile applications --$t3. Omnichannel Natural Language --$t4. Wearable computing --$t5. Spoken dialog systems adaptation for domains and for users --$t6. The use of multimodality in Avatars and Virtual Agents --$t7. Managing interaction with an in-car infotainment system --$t8. Towards objective method in display design --$t9. Classification and organization of information --$tIndex
330   $aThe ?smart mobile? has become an essential and inseparable part of our lives. This powerful tool enables us to perform multi-tasks in different modalities of voice, text, gesture, etc. The user plays an important role in the mode of operation, so multimodal interaction provides the user with new complex multiple modalities of interfacing with a system, such as speech, touch, type and more. The book will discuss the new world of mobile multimodality, focusing on innovative technologies and design which create a state-of-the-art user interface. It will examine the practical challenges entailed in meeting commercial deployment goals, and offer new approaches to the designing such interfaces. A multimodal interface for mobile devices requires the integration of several recognition technologies together with sophisticated user interface and distinct tools for input and output of data. The book will address the challenge of designing devices in a synergetic fashion which does not burden the user or to create a technological overload.
606   $aMultimodal user interfaces (Computer systems)
606   $aMobile computing
610   $amobile speech.
610   $amultimodal computing.
610   $amultimodal mobile devices.
610   $aspeech processing.
615  0$aMultimodal user interfaces (Computer systems)
615  0$aMobile computing.
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702   $aWinter$b Ute
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