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The Origins of the Underline As Visual Representation of the Hyperlink on the Web: a Case Study in Skeuomorphism
The Origins of the Underline as Visual Representation of the Hyperlink on the Web: A Case Study in Skeuomorphism The Harvard community has made this article openly available. Please share how this access benefits you. Your story matters Citation Romano, John J. 2016. The Origins of the Underline as Visual Representation of the Hyperlink on the Web: A Case Study in Skeuomorphism. Master's thesis, Harvard Extension School. Citable link http://nrs.harvard.edu/urn-3:HUL.InstRepos:33797379 Terms of Use This article was downloaded from Harvard University’s DASH repository, and is made available under the terms and conditions applicable to Other Posted Material, as set forth at http:// nrs.harvard.edu/urn-3:HUL.InstRepos:dash.current.terms-of- use#LAA The Origins of the Underline as Visual Representation of the Hyperlink on the Web: A Case Study in Skeuomorphism John J Romano A Thesis in the Field of Visual Arts for the Degree of Master of Liberal Arts in Extension Studies Harvard University November 2016 Abstract This thesis investigates the process by which the underline came to be used as the default signifier of hyperlinks on the World Wide Web. Created in 1990 by Tim Berners- Lee, the web quickly became the most used hypertext system in the world, and most browsers default to indicating hyperlinks with an underline. To answer the question of why the underline was chosen over competing demarcation techniques, the thesis applies the methods of history of technology and sociology of technology. Before the invention of the web, the underline–also known as the vinculum–was used in many contexts in writing systems; collecting entities together to form a whole and ascribing additional meaning to the content. -
Glyphs! Data Communication for Primary Mathematicians. REPORT NO ISBN-1-56417-663-0 PUB DATE 97 NOTE 68P
DOCUMENT RESUME ED 401 134 SE 059 203 AUTHOR O'Connell, Susan R. TITLE Glyphs! Data Communication for Primary Mathematicians. REPORT NO ISBN-1-56417-663-0 PUB DATE 97 NOTE 68p. AVAILABLE FROM Good Apple, 299 Jefferson Road, P.O. Box 480, Parsippany, NJ 07054-0480 (GA 1573). PUB TYPE Guides Classroom Use Teaching Guides (For Teacher) (052) EDRS PRICE MF01/PC03 Plus Postage. DESCRIPTORS *Communication Skills; *Data Analysis; *Data Interpretation; Elementary Education; Learning Activities; *Mathematics Instruction; Teaching Methods; Thinking Skills ABSTRACT Glyphs, a way of representing data pictorially, are a new way for elementary students to collect, display, and interpret data. This book contains a number of glyph activities that can be used as creative educational tools -for grades 1=-3. Each glyph_has three essential construction elements: the glyph survey (the questions that are asked), the glyph directions (tell what to draw based on the answers given), and the glyph pattern (a reproducible provided in this book or a shape that is hand drawn on a sheet of paper). Glyph activities begin with the collection of data followed by displaying the data by following a series of directions. Once glyphs are created they can be analyzed and interpreted' in many ways. In the process of exploring their glyphs students are provided' with opportunities to communicate their mathematical thinking both orally and in writing. Along with building data analysis and communication skills, glyphs also stimulate students' mathematical reasoning as they compare, contrast, and draw conclusions. (JRH). *********************************************************************** Reproductions supplied by EDRS are the best that can be made from the original document. -
Kahk' Uti' Chan Yopat
Glyph Dwellers Report 57 September 2017 A New Teotiwa Lord of the South: K’ahk’ Uti’ Chan Yopat (578-628 C.E.) and the Renaissance of Copan Péter Bíró Independent Scholar Classic Maya inscriptions recorded political discourse commissioned by title-holding elite, typically rulers of a given city. The subject of the inscriptions was manifold, but most of them described various period- ending ceremonies connected to the passage of time. Within this general framework, statements contained information about the most culturally significant life-events of their commissioners. This information was organized according to discursive norms involving the application of literary devices such as parallel structures, difrasismos, ellipsis, etc. Each center had its own variations and preferences in applying such norms, which changed during the six centuries of Classic Maya civilization. Epigraphers have thus far rarely investigated Classic Maya political discourse in general and its regional-, site-, and period-specific features in particular. It is possible to posit very general variations, for example the presence or absence of secondary elite inscriptions, which makes the Western Maya region different from other areas of the Maya Lowlands (Bíró 2011). There are many other discursive differences not yet thoroughly investigated. It is still debated whether these regional (and according to some) temporal discursive differences related to social phenomena or whether they strictly express literary variation (see Zender 2004). The resolution of this question has several implications for historical solutions such as the collapse of Classic Maya civilization or the hypothesis of status rivalry, war, and the role of the secondary elite. There are indications of ruler-specific textual strategies when inscriptions are relatively uniform; that is, they contain the same information, and their organization is similar. -
Supplementary Guide to UEB Reference Materials V.8.31.16
Supplementary Guide to UEB Reference Materials v.8.31.16 Unless otherwise indicated, page numbers refer to The Rules of Unified English Braille, 2013 For referenced BANA Guidances visit: www.brailleauthority.org * indicates definition of entry word A @ sign, 25 Caret, 24, 42 Abbreviations, 106, 152 Cent Sign ¢, 26 Accented letters, 42, 190 Chemistry, 89, 178, see BANA Guidance capitals, 80 Code switching, 199-210 in fully capped words, 89 how to use, 202-203 Acronyms, 106, 152 indicators Addition foreign language, 191-192, 195 non-technical materials, 31 IPA, 199, 207-208 technical materials, 169 music, 199, 208-209 Alphabetic wordsign, *7, 9, 15, 103-106, Nemeth code, 199, 209-210 164 non-UEB, 199, 203-208 Ampersand &, 21 Coinage, 26, 64 Anglicized words, 45, 158, 186, 189 Colored type, 11, 97 Apostrophe, 18, 69, 105, 107 Comma, 69 Arrows, 21, 174 numeric mode, 59 line mode, 219 Comparison, signs of, 169,31 Asterisk, 21 Compound words, bridging, 146 At sign @, 25 Computer material contractions in, 155 B email addresses, 155 Blank to be filled in, 73, 160 grade 1 indicators, 52 Boldface indicators, 91 Computer notation, 178 Brackets, opening and closing, 69, 78 Contracted (grade 2) braille, *7, 14 Braille grouping indicators, 23, 45, 172 usage cross-referenced, 14 Braille order, list of symbols, 275 Contractions summary, 9 Bullet, 24, 34, 37 Contractions, *7, 9, 103-168 abbreviations, 152 C acronyms, 152 Capitalization, 79-90 alphabetic wordsigns, *7, 9, 15, 103-106, grade 1, 55 164 indicators bridging, 146-152 choice of, 87 aspirated -
Assessment of Options for Handling Full Unicode Character Encodings in MARC21 a Study for the Library of Congress
1 Assessment of Options for Handling Full Unicode Character Encodings in MARC21 A Study for the Library of Congress Part 1: New Scripts Jack Cain Senior Consultant Trylus Computing, Toronto 1 Purpose This assessment intends to study the issues and make recommendations on the possible expansion of the character set repertoire for bibliographic records in MARC21 format. 1.1 “Encoding Scheme” vs. “Repertoire” An encoding scheme contains codes by which characters are represented in computer memory. These codes are organized according to a certain methodology called an encoding scheme. The list of all characters so encoded is referred to as the “repertoire” of characters in the given encoding schemes. For example, ASCII is one encoding scheme, perhaps the one best known to the average non-technical person in North America. “A”, “B”, & “C” are three characters in the repertoire of this encoding scheme. These three characters are assigned encodings 41, 42 & 43 in ASCII (expressed here in hexadecimal). 1.2 MARC8 "MARC8" is the term commonly used to refer both to the encoding scheme and its repertoire as used in MARC records up to 1998. The ‘8’ refers to the fact that, unlike Unicode which is a multi-byte per character code set, the MARC8 encoding scheme is principally made up of multiple one byte tables in which each character is encoded using a single 8 bit byte. (It also includes the EACC set which actually uses fixed length 3 bytes per character.) (For details on MARC8 and its specifications see: http://www.loc.gov/marc/.) MARC8 was introduced around 1968 and was initially limited to essentially Latin script only. -
JAF Herb Specimen © Just Another Foundry, 2010 Page 1 of 9
JAF Herb specimen © Just Another Foundry, 2010 Page 1 of 9 Designer: Tim Ahrens Format: Cross platform OpenType Styles & weights: Regular, Bold, Condensed & Bold Condensed Purchase options : OpenType complete family €79 Single font €29 JAF Herb Webfont subscription €19 per year Tradition ist die Weitergabe des Feuers und nicht die Anbetung der Asche. Gustav Mahler www.justanotherfoundry.com JAF Herb specimen © Just Another Foundry, 2010 Page 2 of 9 Making of Herb Herb is based on 16th century cursive broken Introducing qualities of blackletter into scripts and printing types. Originally designed roman typefaces has become popular in by Tim Ahrens in the MA Typeface Design recent years. The sources of inspiration range course at the University of Reading, it was from rotunda to textura and fraktur. In order further refined and extended in 2010. to achieve a unique style, other kinds of The idea for Herb was to develop a typeface blackletter were used as a source for Herb. that has the positive properties of blackletter One class of broken script that has never but does not evoke the same negative been implemented as printing fonts is the connotations – a type that has the complex, gothic cursive. Since fraktur type hardly ever humane character of fraktur without looking has an ‘italic’ companion like roman types few conservative, aggressive or intolerant. people even know that cursive blackletter As Rudolf Koch illustrated, roman type exists. The only type of cursive broken script appears as timeless, noble and sophisticated. that has gained a certain awareness level is Fraktur, on the other hand, has different civilité, which was a popular printing type in qualities: it is displayed as unpretentious, the 16th century, especially in the Netherlands. -
The Sectionbreak Package∗
The sectionbreak package∗ Michal Hoftich 2019-03-11 Contents 1 The sectionbreak package 1 1.1 Package options . 1 1.2 Commands . 1 1.3 The tex4ht support . 2 2 Example 2 3 License 2 4 Changelog 3 1 The sectionbreak package This package provides LaTeX support for section breaks, used mainly in fiction books to signal changes in a story, like changes in time, location, etc. (Source: Wikipedia1). 1.1 Package options There are several package options: disable disable section break printing. mark characters printed in the center of the section break. It is space by default, common value might be *** for example. asterism request asterism2 as a section mark. preskip Amount of space printed before the section mark. It should be a dimension unit supported by TeX. postskip Similar to preskip, but it is a space printed after the section mark. skip Set both preskip and postskip to the same value. style LaTeX commands for font style change, like \bfseries, for example. ∗Version v0.1d 1<https://en.wikipedia.org/wiki/Section_(typography)> 2<https://en.wikipedia.org/wiki/Asterism_(typography)> 1 1.2 Commands \sectionbreak[<mark>] print the section break. Optional argument can contain content which should be printed in the break center. \sectionbreakmark{<mark>} set the content printed in the following \sectionbreak commands. \asterism print the asterism (***) symbol. 1.3 The tex4ht support The sectionbreak package has support for tex4ht, so it is possible to use this package in conversion to HTML or other formats supported by this conversion system. It provides the following configurations: \Configure{sectionbreak}{before section break }{after section} this configuration can be used for insertion of a box around the section break mark, which can be styled using CSS to print the blank space around the content. -
Supplemental Punctuation Range: 2E00–2E7F
Supplemental Punctuation Range: 2E00–2E7F This file contains an excerpt from the character code tables and list of character names for The Unicode Standard, Version 14.0 This file may be changed at any time without notice to reflect errata or other updates to the Unicode Standard. See https://www.unicode.org/errata/ for an up-to-date list of errata. See https://www.unicode.org/charts/ for access to a complete list of the latest character code charts. See https://www.unicode.org/charts/PDF/Unicode-14.0/ for charts showing only the characters added in Unicode 14.0. See https://www.unicode.org/Public/14.0.0/charts/ for a complete archived file of character code charts for Unicode 14.0. Disclaimer These charts are provided as the online reference to the character contents of the Unicode Standard, Version 14.0 but do not provide all the information needed to fully support individual scripts using the Unicode Standard. For a complete understanding of the use of the characters contained in this file, please consult the appropriate sections of The Unicode Standard, Version 14.0, online at https://www.unicode.org/versions/Unicode14.0.0/, as well as Unicode Standard Annexes #9, #11, #14, #15, #24, #29, #31, #34, #38, #41, #42, #44, #45, and #50, the other Unicode Technical Reports and Standards, and the Unicode Character Database, which are available online. See https://www.unicode.org/ucd/ and https://www.unicode.org/reports/ A thorough understanding of the information contained in these additional sources is required for a successful implementation. -
Special Characters in Aletheia
Special Characters in Aletheia Last Change: 28 May 2014 The following table comprises all special characters which are currently available through the virtual keyboard integrated in Aletheia. The virtual keyboard aids re-keying of historical documents containing characters that are mostly unsupported in other text editing tools (see Figure 1). Figure 1: Text input dialogue with virtual keyboard in Aletheia 1.2 Due to technical reasons, like font definition, Aletheia uses only precomposed characters. If required for other applications the mapping between a precomposed character and the corresponding decomposed character sequence is given in the table as well. When writing to files Aletheia encodes all characters in UTF-8 (variable-length multi-byte representation). Key: Glyph – the icon displayed in the virtual keyboard. Unicode – the actual Unicode character; can be copied and pasted into other applications. Please note that special characters might not be displayed properly if there is no corresponding font installed for the target application. Hex – the hexadecimal code point for the Unicode character Decimal – the decimal code point for the Unicode character Description – a short description of the special character Origin – where this character has been defined Base – the base character of the special character (if applicable), used for sorting Combining Character – combining character(s) to modify the base character (if applicable) Pre-composed Character Decomposed Character (used in Aletheia) (only for reference) Combining Glyph -
The Unicode Standard 5.2 Code Charts
C0 Controls and Basic Latin Range: 0000–007F This file contains an excerpt from the character code tables and list of character names for The Unicode Standard, Version 5.2. This file may be changed at any time without notice to reflect errata or other updates to the Unicode Standard. See http://www.unicode.org/errata/ for an up-to-date list of errata. See http://www.unicode.org/charts/ for access to a complete list of the latest character code charts. See http://www.unicode.org/charts/PDF/Unicode-5.2/ for charts showing only the characters added in Unicode 5.2. See http://www.unicode.org/Public/5.2.0/charts/ for a complete archived file of character code charts for Unicode 5.2. Disclaimer These charts are provided as the online reference to the character contents of the Unicode Standard, Version 5.2 but do not provide all the information needed to fully support individual scripts using the Unicode Standard. For a complete understanding of the use of the characters contained in this file, please consult the appropriate sections of The Unicode Standard, Version 5.2, online at http://www.unicode.org/versions/Unicode5.2.0/, as well as Unicode Standard Annexes #9, #11, #14, #15, #24, #29, #31, #34, #38, #41, #42, and #44, the other Unicode Technical Reports and Standards, and the Unicode Character Database, which are available online. See http://www.unicode.org/ucd/ and http://www.unicode.org/reports/ A thorough understanding of the information contained in these additional sources is required for a successful implementation. -
1 Symbols (2286)
1 Symbols (2286) USV Symbol Macro(s) Description 0009 \textHT <control> 000A \textLF <control> 000D \textCR <control> 0022 ” \textquotedbl QUOTATION MARK 0023 # \texthash NUMBER SIGN \textnumbersign 0024 $ \textdollar DOLLAR SIGN 0025 % \textpercent PERCENT SIGN 0026 & \textampersand AMPERSAND 0027 ’ \textquotesingle APOSTROPHE 0028 ( \textparenleft LEFT PARENTHESIS 0029 ) \textparenright RIGHT PARENTHESIS 002A * \textasteriskcentered ASTERISK 002B + \textMVPlus PLUS SIGN 002C , \textMVComma COMMA 002D - \textMVMinus HYPHEN-MINUS 002E . \textMVPeriod FULL STOP 002F / \textMVDivision SOLIDUS 0030 0 \textMVZero DIGIT ZERO 0031 1 \textMVOne DIGIT ONE 0032 2 \textMVTwo DIGIT TWO 0033 3 \textMVThree DIGIT THREE 0034 4 \textMVFour DIGIT FOUR 0035 5 \textMVFive DIGIT FIVE 0036 6 \textMVSix DIGIT SIX 0037 7 \textMVSeven DIGIT SEVEN 0038 8 \textMVEight DIGIT EIGHT 0039 9 \textMVNine DIGIT NINE 003C < \textless LESS-THAN SIGN 003D = \textequals EQUALS SIGN 003E > \textgreater GREATER-THAN SIGN 0040 @ \textMVAt COMMERCIAL AT 005C \ \textbackslash REVERSE SOLIDUS 005E ^ \textasciicircum CIRCUMFLEX ACCENT 005F _ \textunderscore LOW LINE 0060 ‘ \textasciigrave GRAVE ACCENT 0067 g \textg LATIN SMALL LETTER G 007B { \textbraceleft LEFT CURLY BRACKET 007C | \textbar VERTICAL LINE 007D } \textbraceright RIGHT CURLY BRACKET 007E ~ \textasciitilde TILDE 00A0 \nobreakspace NO-BREAK SPACE 00A1 ¡ \textexclamdown INVERTED EXCLAMATION MARK 00A2 ¢ \textcent CENT SIGN 00A3 £ \textsterling POUND SIGN 00A4 ¤ \textcurrency CURRENCY SIGN 00A5 ¥ \textyen YEN SIGN 00A6 -
CJK Symbols and Punctuation Range: 3000–303F
CJK Symbols and Punctuation Range: 3000–303F This file contains an excerpt from the character code tables and list of character names for The Unicode Standard, Version 14.0 This file may be changed at any time without notice to reflect errata or other updates to the Unicode Standard. See https://www.unicode.org/errata/ for an up-to-date list of errata. See https://www.unicode.org/charts/ for access to a complete list of the latest character code charts. See https://www.unicode.org/charts/PDF/Unicode-14.0/ for charts showing only the characters added in Unicode 14.0. See https://www.unicode.org/Public/14.0.0/charts/ for a complete archived file of character code charts for Unicode 14.0. Disclaimer These charts are provided as the online reference to the character contents of the Unicode Standard, Version 14.0 but do not provide all the information needed to fully support individual scripts using the Unicode Standard. For a complete understanding of the use of the characters contained in this file, please consult the appropriate sections of The Unicode Standard, Version 14.0, online at https://www.unicode.org/versions/Unicode14.0.0/, as well as Unicode Standard Annexes #9, #11, #14, #15, #24, #29, #31, #34, #38, #41, #42, #44, #45, and #50, the other Unicode Technical Reports and Standards, and the Unicode Character Database, which are available online. See https://www.unicode.org/ucd/ and https://www.unicode.org/reports/ A thorough understanding of the information contained in these additional sources is required for a successful implementation.