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Registro Completo |
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Biblioteca(s): |
Embrapa Agricultura Digital. |
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Data corrente: |
02/12/1998 |
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Data da última atualização: |
02/04/2019 |
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Autoria: |
KHARE, R.; RIFKIN, A. |
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Afiliação: |
ROHIT KHARE, MCI Internet Architecture; ADAM RIFKIN, California Institute of Technology. |
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Título: |
XML: a door to automated web applications. |
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Ano de publicação: |
1997 |
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Fonte/Imprenta: |
IEEE Internet Computing, v. 1, n. 4, p. 78-87, July/Aug. 1997. |
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DOI: |
10.1109/4236.612222 |
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Idioma: |
Inglês |
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Conteúdo: |
In Japanese culture, your meishi conveys your place in the company, even in society, as well as your name, phone number, and e-mail address. That is to say, in Japan, business cards matter. They convey complex metadata about the people who carry them. Like people, Web pages come in an abundance of shapes and sizes (and sounds). What makes them machine interpretable?and therefore a new medium for communicating information globally?is Hypertext Markup Language. HTML allows the structural markup of Web documents, distinguishing the elements of a page with tags and declaring the physical relationships among the various document elements (for example, ?this is a new paragraph? or ?this is emphasized from its surrounding text?). This organizes the display of information and allows humans to read and use it. To give machines this capability, however, requires semantic markup, identifying what each particular element means on its own (for example, ?this is a home street address? or ?this is an e-mail address?). Semantic markup would change what is now simply displayed content to machine-readable, structured content. The eXtensible Markup Language (XML) specification, first released as two working drafts in Spring 1997 by the World Wide Web Consortium (see the sidebar, XML Timeline), makes it dramatically easier to develop and deploy domain- and mission-specific Web pages. In this article, we describe the evolution of the Web?s data representation from display formats to structural markup to semantic markup. MenosIn Japanese culture, your meishi conveys your place in the company, even in society, as well as your name, phone number, and e-mail address. That is to say, in Japan, business cards matter. They convey complex metadata about the people who carry them. Like people, Web pages come in an abundance of shapes and sizes (and sounds). What makes them machine interpretable?and therefore a new medium for communicating information globally?is Hypertext Markup Language. HTML allows the structural markup of Web documents, distinguishing the elements of a page with tags and declaring the physical relationships among the various document elements (for example, ?this is a new paragraph? or ?this is emphasized from its surrounding text?). This organizes the display of information and allows humans to read and use it. To give machines this capability, however, requires semantic markup, identifying what each particular element means on its own (for example, ?this is a home street address? or ?this is an e-mail address?). Semantic markup would change what is now simply displayed content to machine-readable, structured content. The eXtensible Markup Language (XML) specification, first released as two working drafts in Spring 1997 by the World Wide Web Consortium (see the sidebar, XML Timeline), makes it dramatically easier to develop and deploy domain- and mission-specific Web pages. In this article, we describe the evolution of the Web?s data representation from display formats to structural m... Mostrar Tudo |
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Palavras-Chave: |
Aplicações web; Handheld Device Markup language (HDML); Linguagem de programação; XML. |
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Thesagro: |
Automação. |
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Categoria do assunto: |
-- |
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Marc: |
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024 7 $a10.1109/4236.612222$2DOI
100 1 $aKHARE, R.
245 $aXML$ba door to automated web applications.$h[electronic resource]
260 $c1997
520 $aIn Japanese culture, your meishi conveys your place in the company, even in society, as well as your name, phone number, and e-mail address. That is to say, in Japan, business cards matter. They convey complex metadata about the people who carry them. Like people, Web pages come in an abundance of shapes and sizes (and sounds). What makes them machine interpretable?and therefore a new medium for communicating information globally?is Hypertext Markup Language. HTML allows the structural markup of Web documents, distinguishing the elements of a page with tags and declaring the physical relationships among the various document elements (for example, ?this is a new paragraph? or ?this is emphasized from its surrounding text?). This organizes the display of information and allows humans to read and use it. To give machines this capability, however, requires semantic markup, identifying what each particular element means on its own (for example, ?this is a home street address? or ?this is an e-mail address?). Semantic markup would change what is now simply displayed content to machine-readable, structured content. The eXtensible Markup Language (XML) specification, first released as two working drafts in Spring 1997 by the World Wide Web Consortium (see the sidebar, XML Timeline), makes it dramatically easier to develop and deploy domain- and mission-specific Web pages. In this article, we describe the evolution of the Web?s data representation from display formats to structural markup to semantic markup.
650 $aAutomação
653 $aAplicações web
653 $aHandheld Device Markup language (HDML)
653 $aLinguagem de programação
653 $aXML
700 1 $aRIFKIN, A.
773 $tIEEE Internet Computing$gv. 1, n. 4, p. 78-87, July/Aug. 1997.
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Embrapa Agricultura Digital (CNPTIA) |
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| 1. |  | WIJAYAWARDENE, N. N.; HYDE, K. D.; AL-ANI, L. K. T.; TEDERSOO, L.; HAELEWATERS, D.; RAJESHKUMAR, K. C.; ZHAO, R. L; APTROOT, A.; LEONTYEV, D. V.; SAXENA, R. K.; TOKAREV, Y. S.; DAI, D. Q.; LETCHER, P. M.; STEPHENSON, S. L.; ERTZ, D.; LUMBSCH, H. T.; KUKWA, M.; ISSI, I. V.; MADRID, H.; PHILLIPS, A. J. L.; SELBMANN, L.; PFLIEGLER, W. P.; HORVÁTH, E.; BENSCH, K.; KIRK, P. M.; KOLARÍKOVÁ, K.; RAJA, H. A.; RADEK, R.; PAPP, V.; DIMA, V.; MA, J.; MALOSSO, E.; TAKAMATSU, S.; RAMBOLD, G.; GANNIBAL, P. B.; TRIEBEL, D.; GAUTAM, A. K.; AVASTHI, S.; SUETRONG, S.; TIMDAL, E.; FRYAR, S. C.; DELGADO, G.; RÉBLOVÁ, M.; DOILOM, M.; DOLATABADI, S.; PAWLOWSKA, J. Z.; HUMBER, R. A.; KODSUEB, R.; SÁNCHEZ-CASTRO, I.; GOTO, B. T.; SILVA, D. K. A.; SOUZA, F. A. de; OEHL, F.; SILVA, G. A. da; BLASZKOWSKI, J.; JOBIM, K.; MAIA, L. C.; BARBOSA, F. R.; FIUZA, P. O.; DIVAKAR, P. K.; SHENOY, B. D.; CASTAÑEDA-RUIZ, R. F.; SOMRITHIPOL, S.; LATEEF, A. A.; KARUNARATHNA, S. C.; TIBPROMMA, S.; MORTIMER, P. E.; WANASINGHE, D. N.; PHOOKAMSAK, R.; XU, J.; WANG, Y.; TIAN, F.; ALVARADO, P.; LI, D. W.; KUSAN, I.; MATOCEC, N.; MESIC, A.; TKALCEC, Z.; MAHARACHCHIKUMBURA, S. S. N.; PAPIZADEH, M.; HEREDIA, G.; WARTCHOW, F.; BAKHSHI, M.; BOEHM, E.; YOUSSEF, N.; HUSTAD, V. P.; LAWREY, J. D.; SANTIAGO, A. L. C. M. A.; BEZERRA, J. D. P.; SOUZA-MOTTA, C. M.; FIRMINO, A. L.; TIAN, Q.; HOUBRAKEN, J.; HONGSANAN, S.; TANAKA, K.; DISSANAYAKE, A. J.; MONTEIRO, J. S.; GROSSART, H. P.; SUIJA, A.; WEERAKOON, G.; ETAYO, J.; TSURYKAU, A.; VÁZQUEZ, V.; MUNGAI, P.; DAMM, U.; LI, Q. R.; ZHANG, H.; BOONMEE, S.; LU, Y. Z.; BECERRA, A. G.; KENDRICK, B.; BREARLEY, F. Q.; MOTIEJUNAITE, J.; SHARMA, B.; KHARE, R.; GAIKWAD, S.; WIJESUNDARA, D. S. A.; TANG, L. Z.; HE, M. Q.; FLAKUS, A.; RODRIGUEZ-FLAKUS, P.; ZHURBENKO, M. P.; MCKENZIE, E. H. C.; STADLER, M.; BHAT, D. J.; LIU, J. K.; RAZA, M.; JEEWON, R.; NASSONOVA, E. S.; PRIETO, M.; JAYALAL, R. G. U.; ERDOGDU, M.; YURKOV, A.; SCHNITTLER, M.; SHCHEPIN, O. N.; NOVOZHILOV, Y. K.; SILVA-FILHO, A. G. S.; GENTEKAKI, E.; LIU, P.; CAVENDER, J. C.; KANG, Y.; MOHAMMAD, S.; ZHANG, L. F.; XU, R. F.; LI, Y. M.; DAYARATHNE, M. C.; EKANAYAKA, A. H.; WEN, T. C.; DENG, C. Y.; PEREIRA, O. L.; NAVATHE, S.; HAWKSWORTH, D. L.; FAN, X. L.; DISSANAYAKE, L. S.; KUHNERT, E.; GROSSART, H. P.; THINES, M. Outline of Fungi and fungus-like taxa. Mycosphere, v. 11, n. 1, p. 1060-1456, 2020.| Tipo: Artigo em Periódico Indexado | Circulação/Nível: B - 1 |
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