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200 10$aData visualization with D3 and AngularJS $ebuild dynamic and interactive visualizations from real-world data with D3 on AngularJS /$fChristoph Ko?rner
205   $a1st edition
210  1$aBirmingham, England :$cPackt Publishing,$d2015.
210  4$dİ2015
215   $a1 online resource (278 p.)
225 1 $aCommunity Experience Distilled
300   $aIncludes index.
311   $a1-78439-848-9 
311   $a1-78439-578-1 
327   $aCover; Copyright; Credits; About the Author; About the Reviewers; www.PacktPub.com; Table of Contents; Preface; Chapter 1: The Magic of SVG, D3.js, and AngularJS; Building a real-time dashboard to visualize server logs; Terminology and definitions; Document Object Model; Vector graphics and Scalable Vector Graphics; Pixel graphics; Understanding Data-Driven Documents; Why do we use D3.js?; The killer feature - data joins; Finding resources; D3.js meets AngularJS; Testable and maintainable components; Custom directives; Custom filters; Custom loading and parsing service
327   $aA brief overview of visualization tools for the WebJava and Flash; Raphae?l (JavaScript - SVG/VML); Protovis (JavaScript - SVG); D3.js (JavaScript - HTML/SVG); Canvas API (JavaScript - Canvas); Three.js (JavaScript - WebGL); Summary; Chapter 2: Getting Started with D3.js; Building a simple scatter plot application; Creating an HTML template for D3.js; Selecting and modifying DOM elements; A closer look at Selections; selection.attr(name[, value]); selection.style(name[, value[, priority]]); selection.property(name[, value]); selection.text([value]); selection.append(name)
327   $aarray.reduce(callback [, initialValue])More array manipulation with D3.js; d3.min(array[, accessor]); d3.max(array[, accessor]); d3.sum(array[, accessor]); d3.mean(array[, accessor]); d3.median(array[, accessor]); d3.shuffle(array); d3.permute(array, indexes); d3.merge(array); d3.range([start, ]stop[, step); d3.zip(array, array, ...); d3.pairs(array); d3.keys(object); d3.values(object); d3.entries(object); Grouping elements with d3.nest; Formatting numbers and dates; Specifying a number format; Types of formatting; Precision; Thousands separator; Width; Zero padding; Currency symbol; Signs
327   $aThe align propertyThe fill option; Customizing date and time formats; Working with scales; Quantitative scales for continuous data (numbers); scale.domain([numbers]); scale.range([numbers]); scale.clamp([boolean]); scale.nice([count]); scale.ticks([count]); scale.tickFormat(count [,specifier]); Ordinal scales for discrete data (strings); scale.rangePoints(interval [, padding]); scale.rangeBands(interval [, padding [, outerPadding ]]); scale.rangeBand(); scale.rangeExtent(); Predefined ordinal color scales; Time scales for time data (date and time); All about axes; Drawing the axis
327   $aAdding axes to the scatter chart
330   $aIf you are a web developer with experience in AngularJS and want to implement interactive visualizations using D3.js, this book is for you. Knowledge of SVG or D3.js will give you an edge to get the most out of this book.
410  0$aCommunity experience distilled.
606   $aInformation visualization
606   $aAngularJS (Software framework)
615  0$aInformation visualization.
615  0$aAngularJS (Software framework)
676   $a01.4226
700   $aKo?rner$b Christoph$01549162
801  0$bMiAaPQ
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801  2$bMiAaPQ
906   $aBOOK
912   $a9910788110803321
996   $aData visualization with D3 and AngularJS$93806897
997   $aUNINA

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181   $2rdacontent
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200 00$aClimate benefits of material recycling $einventory of average greenhouse gas emissions for Denmark, Norway and Sweden /$fKarl Hillman [and four others]
210  1$aCopenhagen, [Denmark] :$cNordic Council of Ministers,$d2015.
210  4$dİ2015
215   $a1 online resource (87 p.)
225 1 $aTemaNord,$x0908-6692 ;$v2015:547
300   $aDescription based upon print version of record.
311   $a92-893-4217-X 
320   $aIncludes bibliographical references.
327   $aContents; Preface; Summary; Review Statement; Introduction; General Comments; Conclusions; 1. Introduction; 2. Methodology; 2.1 Collaborative stakeholder cooperation; 2.2 Literature review; 2.3 Life Cycle Assessment (LCA); 2.4 System boundaries; 2.4.1 Included materials; 2.4.2 Definition of amounts; 2.4.3 System expansion; 2.4.4 Impact assessment; 3. Investigation context; 3.1 General assumptions; 3.2 Other impact categories; 3.3 Selected studies; 3.3.1 Studies from Norway, Denmark and Sweden; 3.3.2 Studies from other European countries; 3.3.3 Studies from the United States of America
327   $a4. Investigated materials4.1 Paper and cardboard; 4.2 Glass; 4.3 Plastics; 4.4 Steel; 4.5 Aluminium; 4.6 Organic waste; 4.7 Other metals; 5. Results; 5.1 Paper and cardboard; 5.2 Glass; 5.3 Plastics; 5.4 Steel; 5.5 Aluminium; 5.6 Organic waste; 5.7 Collected results; 6. Discussion; 6.1 Comparison with previous recommendations; 6.2 Impact of energy use and energy mix; Which primary and secondary processes have high energy demand for processing the materials?; How is the relationship between renewable and fossil energy use for different materials?
327   $aHow is the relationship between the use of electricity and fuels for different materials?How to account for the use of waste energy from the processes in, for example, district heating?; 6.3 Geographical differences; 6.4 Quality of materials for secondary production; 6.5 Data availability and uncertainty; 7. Conclusions; 8. Further work; References; Svensk sammanfattning; Appendices; A. Rejected studies; B. Provisional list of materials; C. Reference group; University of Ga?vle; Technical University of Denmark (DTU); A?tervinningsindustrierna (Sweden) and member erpresentatives
327   $aNorsk Industri & Norsk ReturmetallforeningNordic Council of Ministers; Stiftelsen Ga?strikeregionens miljo?
410  0$aTemaNord ;$v2015:547.
606   $aClimatic changes$xEconomic aspects
606   $aGlobal warming$xEconomic aspects
615  0$aClimatic changes$xEconomic aspects.
615  0$aGlobal warming$xEconomic aspects.
676   $a363.73874
702   $aHillman$b Karl
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906   $aBOOK
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996   $aClimate benefits of material recycling$93727739
997   $aUNINA