Search (43 results, page 1 of 3)

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Abstract

"Wir ertrinken in Informationen, aber uns dürstet nach Wissen." Trendforscher John Naisbitt drückt hiermit aus, dass es dem Menschen heute nicht mehr möglich ist die Informationsflut, die sich über ihn ergießt, effizient zu verwerten. Er lebt in einer globalisierten Welt mit einem vielfältigen Angebot an Medien, wie Presse, Radio, Fernsehen und dem Internet. Die Problematik der mangelnden Auswertbarkeit von großen Informationsmengen ist dabei vor allem im Internet akut. Die Quantität, Verbreitung, Aktualität und Verfügbarkeit sind die großen Vorteile des World Wide Web (WWW). Die Probleme liegen in der Qualität und Dichte der Informationen. Das Information Retrieval muss effizienter gestaltet werden, um den wirtschaftlichen und kulturellen Nutzen einer vernetzten Welt zu erhalten.Matthias Erbarth beleuchtet zunächst genau diesen Themenkomplex, um im Anschluss ein Format für elektronische Dokumente, insbesondere kommerzielle Publikationen, zu entwickeln. Dieses Anwendungsbeispiel stellt eine semantische Inhaltsbeschreibung mit Metadaten mittels XML vor, wobei durch Nutzung von Verweisen und Auswertung von Zusammenhängen insbesondere eine netzförmige Darstellung berücksichtigt wird.

RSWK

Elektronisches Publizieren / XML / Metadaten / Semantisches Netz

Subject

Elektronisches Publizieren / XML / Metadaten / Semantisches Netz

Theme

Elektronisches Publizieren

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Abstract

Increasingly, XML applications are appearing on the World Wide Web, from e-commerce to information management. In the case of libraries and archives, XML enables more flexible information management and retrieval than using MARC or a relational database management system. Describes a project to explore the use of XML and the EAD, and the development of a prototype electronic finding aid. It focuses on the technical aspects, and reviews the options available and the choices made. This is done within the setting of a small- to medium-sized archive with minimal tools and resources.

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Abstract

In diesem Buch sollen die grundlegenden Techniken zur Erstellung, Anwendung und nicht zuletzt Darstellung von XML-Dokumenten erklärt und demonstriert werden. Die wichtigste und vornehmste Aufgabe dieses Buches ist es jedoch, die Grundlagen von XML, wie sie vom World Wide Web Consortium (W3C) festgelegt sind, darzustellen. Das W3C hat nicht nur die Entwicklung von XML initiiert und ist die zuständige Organisation für alle XML-Standards, es werden auch weiterhin XML-Spezifikationen vom W3C entwickelt. Auch wenn immer mehr Vorschläge für neue XML-basierte Techniken aus dem weiteren Umfeld der an XML Interessierten kommen, so spielt doch weiterhin das W3C die zentrale und wichtigste Rolle für die Entwicklung von XML. Der Schwerpunkt dieses Buches liegt darin, zu lernen, wie man XML als tragende Technologie in echten Alltags-Anwendungen verwendet. Wir wollen Ihnen gute Design-Techniken vorstellen und demonstrieren, wie man XML-fähige Anwendungen mit Applikationen für das WWW oder mit Datenbanksystemen verknüpft. Wir wollen die Grenzen und Möglichkeiten von XML ausloten und eine Vorausschau auf einige "nascent"-Technologien werfen. Egal ob Ihre Anforderungen sich mehr an dem Austausch von Daten orientieren oder bei der visuellen Gestaltung liegen, dieses Buch behandelt alle relevanten Techniken. jedes Kapitel enthält ein Anwendungsbeispiel. Da XML eine Plattform-neutrale Technologie ist, werden in den Beispielen eine breite Palette von Sprachen, Parsern und Servern behandelt. Jede der vorgestellten Techniken und Methoden ist auf allen Plattformen und Betriebssystemen relevant. Auf diese Weise erhalten Sie wichtige Einsichten durch diese Beispiele, auch wenn die konkrete Implementierung nicht auf dem von Ihnen bevorzugten System durchgeführt wurde.
Dieses Buch wendet sich an alle, die Anwendungen auf der Basis von XML entwickeln wollen. Designer von Websites können neue Techniken erlernen, wie sie ihre Sites auf ein neues technisches Niveau heben können. Entwickler komplexerer Software-Systeme und Programmierer können lernen, wie XML in ihr System passt und wie es helfen kann, Anwendungen zu integrieren. XML-Anwendungen sind von ihrer Natur her verteilt und im Allgemeinen Web-orientiert. Dieses Buch behandelt nicht verteilte Systeme oder die Entwicklung von Web-Anwendungen, sie brauchen also keine tieferen Kenntnisse auf diesen Gebieten. Ein allgemeines Verständnis für verteilte Architekturen und Funktionsweisen des Web wird vollauf genügen. Die Beispiele in diesem Buch verwenden eine Reihe von Programmiersprachen und Technologien. Ein wichtiger Bestandteil der Attraktivität von XML ist seine Plattformunabhängigkeit und Neutralität gegenüber Programmiersprachen. Sollten Sie schon Web-Anwendungen entwickelt haben, stehen die Chancen gut, dass Sie einige Beispiele in Ihrer bevorzugten Sprache finden werden. Lassen Sie sich nicht entmutigen, wenn Sie kein Beispiel speziell für Ihr System finden sollten. Tools für die Arbeit mit XML gibt es für Perl, C++, Java, JavaScript und jede COM-fähige Sprache. Der Internet Explorer (ab Version 5.0) hat bereits einige Möglichkeiten zur Verarbeitung von XML-Dokumenten eingebaut. Auch der Mozilla-Browser (der Open-Source-Nachfolger des Netscape Navigators) bekommt ähnliche Fähigkeiten. XML-Tools tauchen auch zunehmend in großen relationalen Datenbanksystemen auf, genau wie auf Web- und Applikations-Servern. Sollte Ihr System nicht in diesem Buch behandelt werden, lernen Sie die Grundlagen und machen Sie sich mit den vorgestellten Techniken aus den Beispielen vertraut.

Date

22. 6.2005 15:12:11

Theme

Elektronisches Publizieren

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Content

"Die Extensible Markup Language (XML) ist eine Metaauszeichnungssprache, die 1998 vom World Wide Web Consortium (W3C), einer Organisation, die sich mit der Erstellung von Web Standards und neuen Technologien für das Internet beschäftigt, als neue Empfehlung für Web-Anwendungen festgesetzt wurde. Seitdem ist viel über XML und die sich durch diese Sprache ergebenden neuen Möglichkeiten des Datenaustausches über das Internet publiziert worden. In XML-Dokumenten werden die hierarchische Struktur und der Inhalt der Dokumente festgelegt, aber keinerlei Angaben zum Layout gemacht. Dieses wird in so genannten Stylesheets definiert. Mit Hilfe mehrerer Stylesheets, die sich alle auf ein XML-Dokument beziehen, ist es möglich, aus einem Datenbestand verschiedene Ausgabeprodukte, z.B. eine Online-Version und eine druckbare Ausgabe eines Dokuments, zu erzeugen. Diese Möglichkeit der Herstellung verschiedener medialer Varianten eines Produkts ist auch für die Herstellung von Informationsmitteln interessant. Im Bereich der Produktion von Informationsmitteln, vor allem von Lexika und Enzyklopädien, ist in den letzten Jahren zu beobachten gewesen, dass neben der traditionellen, gedruckten Ausgabe des Nachschlagewerks zunehmend auch elektronische Varianten, die durch multimediale Elemente angereichert sind, angeboten werden. Diese elektronischen Nachschlagewerke werden sowohl offline, d.h. auf CD-ROM bzw. DVD, als auch online im Internet veröffentlicht. Im Gegensatz zu den gedruckten Versionen werden die neuen Produkte fast jährlich aktualisiert. Diese neue Situation erforderte Veränderungen im Herstellungsprozess. Ein Verfahren, das die Erzeugung verschiedener medialer Varianten eines Produkts möglichst einfach und problemlos ermöglicht, wurde benötigt. XML und ihr Vorgänger, die Standard Generalized Markup Language (SGML), schienen die perfekte Lösung für dieses Problem zu sein. Die Erwartungen an den Nutzen, den SGML und XML bringen könnten, waren hoch: "Allein dieses Spitzklammerformat, eingespeist in einen Datenpool, soll auf Knopfdruck die Generierung der verschiedensten Medienprodukte ermöglichen". Ziel dieser Arbeit ist es, darzustellen, wie der neue Standard XML bei der Publikation von Informationsmitteln eingesetzt werden kann, um aus einem einmal erfassten Datenbestand mit möglichst geringem Aufwand mehrere Ausgabeprodukte zu generieren. Es wird darauf eingegangen, welche Ausgabeformen sich in diesem Bereich für XML-Dokumente anbieten und mit welchen Verfahren und Hilfsmitteln die jeweiligen Ausgabeformate erstellt werden können. In diesem Zusammenhang sollen auch die Aspekte behandelt werden, die sich bei der Umwandlung von XML-Dokumenten in andere For mate unter Umständen als problematisch erweisen könnten.
Ausgehend von dieser Sachlage ergibt sich die Struktur der vorliegenden Arbeit: Einleitend werden die Metaauszeichnungssprache XML sowie einige ausgewählte Spezifikationen, die im Zusammenhang mit XML entwickelt wurden und eine sinnvolle Anwendung dieser Sprache erst ermöglichen, vorgestellt (Kapitel 2). Dieses Kapitel soll einen knappen, theoretischen Überblick darüber geben, was XML und zugehörige Ergänzungen leisten können, welche Ziele sie jeweils verfolgen und mit welchen Methoden sie versuchen, diese Ziele zu erreichen. Damit soll dieser erste Teil dazu beitragen, das Vorgehen bei der Entwicklung der späteren Beispiel-DTD und den zugehörigen Stylesheets nachvollziehbar zu machen. Daher wird hier nur auf solche Spezifikationen eingegangen, die im Zusammenhang mit der Produktion von Informationsmitteln auf XML-Basis unbedingt benötigt werden bzw. in diesem Bereich von Nutzen sind. Neben der sogenannten Dokumenttypdefinition (DTD), die die Struktur der XML-Dokumente bestimmt, sollen daher die Spezifikationen zu den Themen Linking, Transformation und Formatierung behandelt werden. Sicherlich spielen auch Techniken zur Gestaltung des Retrieval bei elektronischen Ausgaben von Informationsmitteln eine Rolle. Dieser Bereich soll hier jedoch ausgeklammert werden, um den Rahmen dieser Arbeit nicht zu sprengen. Der Schwerpunkt liegt vielmehr auf den Bereichen der Transformation und Formatierung, da diese zur Erstellung von Stylesheets und damit zur Generierung der späteren Ausgabeprodukte von zentraler Bedeutung sind.

Theme

Elektronisches Publizieren

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Abstract

Using new communication technologies libraries must face continuously new questions, possibilities and expectations. This study discusses library-related aspects of our electronic era and how computer-related data formats affect bibliographic dataprocessing to give a summary of the most important results. First bibliographic formats for the exchange of bibliographic and related information in the machine-readable form between different types of computer systems were created more than 30 years ago. The evolution of information technologies leads to the improvement of computer systems. In addition to the development of computers and media types Internet has a great influence on data structure as well. Since the introduction of MARC bibliographic format, technology of data exchange between computers and between different computer systems has reached a very sophisticated stage and has contributed to the creation of new standards in this field. Today libraries work with this new infrastructure that induces many challenges. One of the most significant challenges is moving from a relatively homogenous bibliographic environment to a diverse one. Despite these challenges such changes are achievable and necessary to exploit possibilities of new metadata and technologies like the Internet and XML (Extensible Markup Language). XML is an open standard, a universal language for data on the Web. XML is nearly six-years-old standard designed for the description and computer-based management of (semi)-structured data and structured texts. XML gives developers the power to deliver structured data from a wide variety of applications and it is also an ideal format from server-to-server transfer of structured data. XML also isn't limited for Internet use and is an especially valuable tool in the field of library. In fact, XML's main strength - organizing information - makes it perfect for exchanging data between different systems. Tools that work with the XML can be used to process XML records without incurring additional costs associated with one's own software development. In addition, XML is also a suitable format for library web services. The Department of Computer-related Graphic Design and Library and Information Sciences of Debrecen University launched the BDML (Bibliographic Description Markup Language) development project in order to standardize bibliogrphic description with the help of XML.

Source

Librarianship in the information age: Proceedings of the 13th BOBCATSSS Symposium, 31 January - 2 February 2005 in Budapest, Hungary. Eds.: Marte Langeland u.a

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Abstract

The flexibility and extensibility of XML have largely contributed to its wide acceptance beyond the traditional realm of SGML. Yet, there is still one more obstacle to be overcome before XML is able to become the evangelized universal data/document format. The obstacle is posed by the limitations of the legacy standard for constraining the contents of an XML document. The traditionally used DTD (document type definition) format does not lend itself to be used in the wide variety of applications XML is capable of handling. The World Wide Web Consortium (W3C) has charged the XML schema working group with the task of developing a schema language to replace DTD. This XML schema language is evolving based on early drafts of XML schema languages. Each one of these early efforts adopted a slightly different approach, but all of them were moving in the same direction.

Date

28. 1.2006 19:01:22

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Abstract

XML (eXtensible Markup Language) is fast gaining favor as the universal format for data and document exchange -- in effect becoming the lingua franca of the Information Age. Currently, "library information" is at a particular disadvantage on the rapidly evolving World Wide Web. Why? Despite libraries'explorations of web catalogs, scanning projects, digital data repositories, and creation of web pages galore, there remains a digital divide. The core of libraries' data troves are stored in proprietary formats of integrated library systems (ILS) and in the complex and arcane MARC formats -- both restricted chiefly to the province of technical services and systems librarians. Even they are hard-pressed to extract and integrate this wealth of data with resources from outside this rarefied environment. Segregation of library information underlies many difficulties: producing standard bibliographic citations from MARC data, automatically creating new materials lists (including new web resources) on a particular topic, exchanging data with our vendors, and even migrating from one ILS to another. Why do we continue to hobble our potential by embracing these self-imposed limitations? Most ILSs began in libraries, which soon recognized the pitfalls of do-it-yourself solutions. Thus, we wisely anticipated the necessity for standards. However, with the advent of the web, we soon found "our" collections and a flood of new resources appearing in digital format on opposite sides of the divide. If we do not act quickly to integrate library resources with mainstream web resources, we are in grave danger of becoming marginalized

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Abstract

Mit wohl einem der faszinierendsten und innovativsten Themen der Gegenwart und allernächsten Zukunft des Internet befasst sich dieses Buch: XML. Nie als HTML-Ersatz gedacht, erweitert es das Spektrum möglicher Anwendungen im Internet einerseits und schließt andererseits klaffende Lücken und technische Unzulänglichkeiten. Keine Frage: Wer sich als Web-Administrator, Autor eines privaten oder geschäftlichen Internet-Auftritts, Intranet-Verantwortlicher oder -Anwender mit HTML auseinandergesetzt hat, wird in Zukunft auch um XML nicht umhinkommen. Auch außerhalb der Online-Szene hat sich XML bereits heute als richtungsweisender Standard des Dokumentenmanagements etabliert. Dieses Buch bietet das komplette XML- und XSL-Wissen auf praxisnahem und hohem Niveau. Neben einer fundierten Einführung finden Sie das komplette Know-how, stets belegt und beschrieben durch Praxisanwendungen, das Sie für die Arbeit mit XML benötigen. Mit viel Engagement und Zeitaufwand haben uns Firmen, Freunde, Mitarbeiter und der Markt & Technik-Verlag unterstützt. Unser Dank gilt daher all jenen, die ihren Anteil am Gelingen dieses Buches hatten und noch haben werden. In der zweiten völlig aktualisierten und stark erweiterten Ausgabe dieses Buches konnten wir zahlreiche positive Rückmeldungen von Leserinnen und Lesern berücksichtigen. So greift dieses Buch jetzt auch neueste Entwicklungen aus der XML-Entwicklung auf. Dazu gehören beispielsweise SMIL und WML (WAP) oder die erst im Dezember 1999 veröffentlichte X-HTML Empfehlung.

RSWK

World wide web / Seite / Gestaltung (213)

Subject

World wide web / Seite / Gestaltung (213)

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Abstract

Die Extensible Markup Language (XML) ist eine Metaauszeichnungssprache, die 1998 vom World Wide Web Consortium (W3C) als neue Empfehlung für Web-Anwendungen festgesetzt wurde. In XML-Dokumenten werden die hierarchische Struktur und der Inhalt der Dokumente festgelegt, aber keinerlei Angaben zum Layout gemacht. Dieses wird in so genannten Stylesheets definiert. Auf dieser strikten Trennung von Struktur und Layout beruht das große Potenzial von XML im Hinblick auf das Cross-Media-Publishing: Mit Hilfe mehrerer Stylesheets, die sich alle auf ein XML-Dokument beziehen, ist es mit relativ geringem Aufwand möglich, aus einem Datenbestand verschiedene Ausgabeprodukte zu erzeugen.Einleitend gibt die Autorin einen kurzen Überblick über die Grundzüge, den Leistungsumfang und die Funktionalitäten von XML und einigen zugehörigen Spezifikationen, die im Zusammenhang mit XML entwickelt wurden. Nachfolgend wird der Themenkomplex der Informationsmittel, wie z.B. Lexika und Enzyklopädien behandelt. Schwerpunktmäßig wird hier dargestellt, wie XML heutzutage in Verlagen zur Publikation von Informationsmitteln eingesetzt wird und welche Vor- und Nachteile eine derartige Auszeichnung der Daten mit sich bringt. Aufbauend auf diesem theoretischen Teil wird am Beispiel eines geografischen Lexikonartikels praktisch demonstriert, wie sich aus einem einmal erfassten Datenbestand verschiedene Ausgabeprodukte generieren lassen. Ein lesenswertes Werk für alle Informatiker, Programmierer und Webdesigner und andere am Thema interessierte Leser, die mehr über diese Sprache erfahren wollen.

Theme

Elektronisches Publizieren

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Abstract

This specification provides a model and grammar for representing the structure of information resources used to define topics, and the associations (relationships) between topics. Names, resources, and relationships are said to be characteristics of abstract subjects, which are called topics. Topics have their characteristics within scopes: i.e. the limited contexts within which the names and resources are regarded as their name, resource, and relationship characteristics. One or more interrelated documents employing this grammar is called a topic map.TopicMaps.Org is an independent consortium of parties developing the applicability of the topic map paradigm [ISO13250] to the World Wide Web by leveraging the XML family of specifications. This specification describes version 1.0 of XML Topic Maps (XTM) 1.0 [XTM], an abstract model and XML grammar for interchanging Web-based topic maps, written by the members of the TopicMaps.Org Authoring Group. More information on XTM and TopicMaps.Org is available at http://www.topicmaps.org/about.html. All versions of the XTM Specification are permanently licensed to the public, as provided by the Charter of TopicMaps.Org.

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Abstract

XML, the Extensible Markup Language is a syntax for tagging, or marking-up, textual information. It is a standard, established by the World Wide Web Consortium (W3C) that many use when sharing or working with structured information. XML isn't used by itself, but as a tool to create other data-specific markup languages. One benefit to using XML is that it enables these languages to distinguish the content that is being marked up from its presentation, allowing for greater flexibility and data reuse. The library community has embraced XML and uses it as the foundation for many of their own data-specific markup languages. Perhaps the greatest strength of XML is that it is very easy to start working with and yet, in conjunction with many other XML-related standards and technologies, can also be used to develop complex applications.

Source

Encyclopedia of library and information sciences. 3rd ed. Ed.: M.J. Bates

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Abstract

Structured document interchange formats such as XML and SGML are ubiquitous, however, information retrieval systems supporting structured searching are not. Structured searching can result in increased precision. A search for the author "Smith" in an unstructured corpus of documents specializing in iron-working could have a lower precision than a structured search for "Smith as author" in the same corpus. Analysis of XML retrieval languages identifies additional functionality that must be supported including searching at, and broken across multiple nodes in the document tree. A data structure is developed to support structured document searching. Application of this structure to information retrieval is then demonstrated. Document ranking is examined and adapted specifically for structured searching.

Date

14. 8.2004 10:39:22

Source

Information processing and management. 40(2004) no.4, S.619-632

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Abstract

RDF - the Resource Description Framework - is a foundation for processing metadata; it provides interoperability between applications that exchange machine-understandable information on the Web. RDF emphasizes facilities to enable automated processing of Web resources. RDF metadata can be used in a variety of application areas; for example: in resource discovery to provide better search engine capabilities; in cataloging for describing the content and content relationships available at a particular Web site, page, or digital library; by intelligent software agents to facilitate knowledge sharing and exchange; in content rating; in describing collections of pages that represent a single logical "document"; for describing intellectual property rights of Web pages, and in many others. RDF with digital signatures will be key to building the "Web of Trust" for electronic commerce, collaboration, and other applications. Metadata is "data about data" or specifically in the context of RDF "data describing web resources." The distinction between "data" and "metadata" is not an absolute one; it is a distinction created primarily by a particular application. Many times the same resource will be interpreted in both ways simultaneously. RDF encourages this view by using XML as the encoding syntax for the metadata. The resources being described by RDF are, in general, anything that can be named via a URI. The broad goal of RDF is to define a mechanism for describing resources that makes no assumptions about a particular application domain, nor defines the semantics of any application domain. The definition of the mechanism should be domain neutral, yet the mechanism should be suitable for describing information about any domain. This document introduces a model for representing RDF metadata and one syntax for expressing and transporting this metadata in a manner that maximizes the interoperability of independently developed web servers and clients. The syntax described in this document is best considered as a "serialization syntax" for the underlying RDF representation model. The serialization syntax is XML, XML being the W3C's work-in-progress to define a richer Web syntax for a variety of applications. RDF and XML are complementary; there will be alternate ways to represent the same RDF data model, some more suitable for direct human authoring. Future work may lead to including such alternatives in this document.

Theme

Semantic Web

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Footnote

Rez. in: JASIST 55(2004) no.14, S.1304-1305 (Z. Holbrooks):"The eXtensible Markup Language (XML) and its family of enabling technologies (XPath, XPointer, XLink, XSLT, et al.) were the new "new thing" only a couple of years ago. Happily, XML is now a W3C standard, and its enabling technologies are rapidly proliferating and maturing. Together, they are changing the way data is handled an the Web, how legacy data is accessed and leveraged in corporate archives, and offering the Semantic Web community a powerful toolset. Library and information professionals need a basic understanding of what XML is, and what its impacts will be an the library community as content vendors and publishers convert to the new standards. Norman Desmarais aims to provide librarians with an overview of XML and some potential library applications. The ABCs of XML contains the useful basic information that most general XML works cover. It is addressed to librarians, as evidenced by the occasional reference to periodical vendors, MARC, and OPACs. However, librarians without SGML, HTML, database, or programming experience may find the work daunting. The snippets of code-most incomplete and unattended by screenshots to illustrate the result of the code's execution-obscure more often than they enlighten. A single code sample (p. 91, a book purchase order) is immediately recognizable and sensible. There are no figures, illustrations, or screenshots. Subsection headings are used conservatively. Readers are confronted with page after page of unbroken technical text, and occasionally oddly formatted text (in some of the code samples). The author concentrates an commercial products and projects. Library and agency initiatives-for example, the National Institutes of Health HL-7 and U.S. Department of Education's GEM project-are notable for their absence. The Library of Congress USMARC to SGML effort is discussed in chapter 1, which covers the relationship of XML to its parent SGML, the XML processor, and data type definitions, using MARC as its illustrative example. Chapter 3 addresses the stylesheet options for XML, including DSSSL, CSS, and XSL. The Document Style Semantics and Specification Language (DSSSL) was created for use with SGML, and pruned into DSSSL-Lite and further (DSSSL-online). Cascading Style Sheets (CSS) were created for use with HTML. Extensible Style Language (XSL) is a further revision (and extension) of DSSSL-o specifically for use with XML. Discussion of aural stylesheets and Synchronized Multimedia Integration Language (SMIL) round out the chapter.
Chapter 4 introduces XML internal and external pointing and linking technologies. XML Link Language (XLL, now XLink) provides unidirectional, multi-ended, and typed linking. XPointer, used with XLink, provides addressing into the interior of XML documents. XPath operates an the logical structure of an XML document, creating a tree of nodes. Used with both XPointer and XSLT, it permits operations an strings, numbers, and Boolean expressions in the document. The final chapter, "Getting Started" argues for the adoption of a tool for XML production. The features and functionality of various tools for content development, application development, databases, and schema development provide an introduction to some of the available options. Roy Tennant is weIl known in the library community as an author (bis column "Digital Libraries" has appeared in Library Journal since 1997 and he has published Current Cites each month for more than a decade), an electronic discussion list manager (Web4Lib and XML4Lib), and as the creator and manager of UC/Berkeley's Digital Library SunSITE. Librarians have wondered what use they might make of XML since its beginnings. Tennant suggests one answer: "The Extensible Markup Language (XML) has the potential to exceed the impact of MARC an librarianship. While MARC is limited to bibliographic descriptionand arguably a subset at that, as any archivist will tell you-XML provides a highly-effective framework for encoding anything from a bibliographic record for a book to the book itself." (Tennant, p. vii) This slim paperback volume offers librarians and library managers concerned with automation projects "show and teIl" examples of XML technologies used as solutions to everyday tasks and challenges. What distinguishes this work is the editor and contributors' commitment to providing messy details. This book's target audience is technically savvy. While not a "cookbook" per se, the information provided an each project serves as a draft blueprint complete with acronyms and jargon. The inclusion of "lessons learned" (including failures as well as successes) is refreshing and commendable. Experienced IT and automation project veterans will appreciate the technical specifics more fully than the general reader.
Tennant's collection covers a variety of well- and lesser-known XML-based pilot and prototype projects undertaken by libraries around the world. Some of the projects included are: Stanford's XMLMARC conversion, Oregon State's use of XML in interlibrary loaning, e-books (California Digital Library) and electronic scholarly publishing (University of Michigan), the Washington Research Library Consortium's XML-based Web Services, and using TEI Lite to support indexing (Halton Hills Public Library). Of the 13 projects presented, nine are sited in academe, three are state library endeavors, and one is an American public library initiative. The projects are gathered into sections grouped by seven library applications: the use of XML in library catalog records, interlibrary loan, cataloging and indexing, collection building, databases, data migration, and systems interoperability. Each project is introduced with a few paragraphs of background information. The project reports-averaging about 13 pages each-include project goals and justification, project description, challenges and lessons learned (successes and failures), future plans, implications of the work, contact information for individual(s) responsible for the project, and relevant Web links and resources. The clear strengths of this collection are in the details and the consistency of presentation. The concise project write-ups flow well and encourage interested readers to follow-up via personal contacts and URLs. The sole weakness is the price. XML in Libraries will excite and inspire institutions and organizations with technically adept staff resources and visionary leaders. Erik Ray has written a how-to book. Unlike most, Learning XML is not aimed at the professional programming community. The intended audience is readers familiar with a structured markup (HTML, TEX, etc.) and Web concepts (hypertext links, data representation). In the first six chapters, Ray introduces XMUs main concepts and tools for writing, viewing, testing, and transforming XML (chapter 1), describes basic syntax (chapter 2), discusses linking with XLink and XPointer (chapter 3), introduces Cascading Style Sheets for use with XML (chapter 4), explains document type definitions (DTDs) and schemas (chapter 5), and covers XSLT stylesheets and XPath (chapter 6). Chapter 7 introduces Unicode, internationalization and language support, including CSS and XSLT encoding. Chapter 8 is an overview of writing software for processing XML, and includes the Perl code for an XML syntax checker. This work is written very accessibly for nonprogrammers. Writers, designers, and students just starting to acquire Web technology skills will find Ray's style approachable. Concepts are introduced in a logical flow, and explained clearly. Code samples (130+), illustrations and screen shots (50+), and numerous tables are distributed throughout the text. Ray uses a modified DocBook DTD and a checkbook example throughout, introducing concepts in early chapters and adding new concepts to them. Readers become familiar with the code and its evolution through repeated exposure. The code for converting the "barebones DocBook" DTD (10 pages of code) to HTML via XSLT stylesheet occupies 19 pages. Both code examples allow the learner to sec an accumulation of snippets incorporated into a sensible whole. While experienced programmers might not need this type of support, nonprogrammers certainly do. Using the checkbook example is an inspired choice: Most of us are familiar with personal checking, even if few of us world build an XML application for it. Learning XML is an excellent textbook. I've used it for several years as a recommended text for adult continuing education courses and workshops."

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Footnote

Rez. in: JASIST 55(2004) no.14, S.1304-1305 (Z. Holbrooks):"The eXtensible Markup Language (XML) and its family of enabling technologies (XPath, XPointer, XLink, XSLT, et al.) were the new "new thing" only a couple of years ago. Happily, XML is now a W3C standard, and its enabling technologies are rapidly proliferating and maturing. Together, they are changing the way data is handled an the Web, how legacy data is accessed and leveraged in corporate archives, and offering the Semantic Web community a powerful toolset. Library and information professionals need a basic understanding of what XML is, and what its impacts will be an the library community as content vendors and publishers convert to the new standards. Norman Desmarais aims to provide librarians with an overview of XML and some potential library applications. The ABCs of XML contains the useful basic information that most general XML works cover. It is addressed to librarians, as evidenced by the occasional reference to periodical vendors, MARC, and OPACs. However, librarians without SGML, HTML, database, or programming experience may find the work daunting. The snippets of code-most incomplete and unattended by screenshots to illustrate the result of the code's execution-obscure more often than they enlighten. A single code sample (p. 91, a book purchase order) is immediately recognizable and sensible. There are no figures, illustrations, or screenshots. Subsection headings are used conservatively. Readers are confronted with page after page of unbroken technical text, and occasionally oddly formatted text (in some of the code samples). The author concentrates an commercial products and projects. Library and agency initiatives-for example, the National Institutes of Health HL-7 and U.S. Department of Education's GEM project-are notable for their absence. The Library of Congress USMARC to SGML effort is discussed in chapter 1, which covers the relationship of XML to its parent SGML, the XML processor, and data type definitions, using MARC as its illustrative example. Chapter 3 addresses the stylesheet options for XML, including DSSSL, CSS, and XSL. The Document Style Semantics and Specification Language (DSSSL) was created for use with SGML, and pruned into DSSSL-Lite and further (DSSSL-online). Cascading Style Sheets (CSS) were created for use with HTML. Extensible Style Language (XSL) is a further revision (and extension) of DSSSL-o specifically for use with XML. Discussion of aural stylesheets and Synchronized Multimedia Integration Language (SMIL) round out the chapter.
Chapter 4 introduces XML internal and external pointing and linking technologies. XML Link Language (XLL, now XLink) provides unidirectional, multi-ended, and typed linking. XPointer, used with XLink, provides addressing into the interior of XML documents. XPath operates an the logical structure of an XML document, creating a tree of nodes. Used with both XPointer and XSLT, it permits operations an strings, numbers, and Boolean expressions in the document. The final chapter, "Getting Started" argues for the adoption of a tool for XML production. The features and functionality of various tools for content development, application development, databases, and schema development provide an introduction to some of the available options. Roy Tennant is weIl known in the library community as an author (bis column "Digital Libraries" has appeared in Library Journal since 1997 and he has published Current Cites each month for more than a decade), an electronic discussion list manager (Web4Lib and XML4Lib), and as the creator and manager of UC/Berkeley's Digital Library SunSITE. Librarians have wondered what use they might make of XML since its beginnings. Tennant suggests one answer: "The Extensible Markup Language (XML) has the potential to exceed the impact of MARC an librarianship. While MARC is limited to bibliographic descriptionand arguably a subset at that, as any archivist will tell you-XML provides a highly-effective framework for encoding anything from a bibliographic record for a book to the book itself." (Tennant, p. vii) This slim paperback volume offers librarians and library managers concerned with automation projects "show and teIl" examples of XML technologies used as solutions to everyday tasks and challenges. What distinguishes this work is the editor and contributors' commitment to providing messy details. This book's target audience is technically savvy. While not a "cookbook" per se, the information provided an each project serves as a draft blueprint complete with acronyms and jargon. The inclusion of "lessons learned" (including failures as well as successes) is refreshing and commendable. Experienced IT and automation project veterans will appreciate the technical specifics more fully than the general reader.
Tennant's collection covers a variety of well- and lesser-known XML-based pilot and prototype projects undertaken by libraries around the world. Some of the projects included are: Stanford's XMLMARC conversion, Oregon State's use of XML in interlibrary loaning, e-books (California Digital Library) and electronic scholarly publishing (University of Michigan), the Washington Research Library Consortium's XML-based Web Services, and using TEI Lite to support indexing (Halton Hills Public Library). Of the 13 projects presented, nine are sited in academe, three are state library endeavors, and one is an American public library initiative. The projects are gathered into sections grouped by seven library applications: the use of XML in library catalog records, interlibrary loan, cataloging and indexing, collection building, databases, data migration, and systems interoperability. Each project is introduced with a few paragraphs of background information. The project reports-averaging about 13 pages each-include project goals and justification, project description, challenges and lessons learned (successes and failures), future plans, implications of the work, contact information for individual(s) responsible for the project, and relevant Web links and resources. The clear strengths of this collection are in the details and the consistency of presentation. The concise project write-ups flow well and encourage interested readers to follow-up via personal contacts and URLs. The sole weakness is the price. XML in Libraries will excite and inspire institutions and organizations with technically adept staff resources and visionary leaders. Erik Ray has written a how-to book. Unlike most, Learning XML is not aimed at the professional programming community. The intended audience is readers familiar with a structured markup (HTML, TEX, etc.) and Web concepts (hypertext links, data representation). In the first six chapters, Ray introduces XMUs main concepts and tools for writing, viewing, testing, and transforming XML (chapter 1), describes basic syntax (chapter 2), discusses linking with XLink and XPointer (chapter 3), introduces Cascading Style Sheets for use with XML (chapter 4), explains document type definitions (DTDs) and schemas (chapter 5), and covers XSLT stylesheets and XPath (chapter 6). Chapter 7 introduces Unicode, internationalization and language support, including CSS and XSLT encoding. Chapter 8 is an overview of writing software for processing XML, and includes the Perl code for an XML syntax checker. This work is written very accessibly for nonprogrammers. Writers, designers, and students just starting to acquire Web technology skills will find Ray's style approachable. Concepts are introduced in a logical flow, and explained clearly. Code samples (130+), illustrations and screen shots (50+), and numerous tables are distributed throughout the text. Ray uses a modified DocBook DTD and a checkbook example throughout, introducing concepts in early chapters and adding new concepts to them. Readers become familiar with the code and its evolution through repeated exposure. The code for converting the "barebones DocBook" DTD (10 pages of code) to HTML via XSLT stylesheet occupies 19 pages. Both code examples allow the learner to sec an accumulation of snippets incorporated into a sensible whole. While experienced programmers might not need this type of support, nonprogrammers certainly do. Using the checkbook example is an inspired choice: Most of us are familiar with personal checking, even if few of us world build an XML application for it. Learning XML is an excellent textbook. I've used it for several years as a recommended text for adult continuing education courses and workshops."

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Footnote

Rez. in: JASIST 55(2004) no.14, S.1304-1305 (Z. Holbrooks):"The eXtensible Markup Language (XML) and its family of enabling technologies (XPath, XPointer, XLink, XSLT, et al.) were the new "new thing" only a couple of years ago. Happily, XML is now a W3C standard, and its enabling technologies are rapidly proliferating and maturing. Together, they are changing the way data is handled an the Web, how legacy data is accessed and leveraged in corporate archives, and offering the Semantic Web community a powerful toolset. Library and information professionals need a basic understanding of what XML is, and what its impacts will be an the library community as content vendors and publishers convert to the new standards. Norman Desmarais aims to provide librarians with an overview of XML and some potential library applications. The ABCs of XML contains the useful basic information that most general XML works cover. It is addressed to librarians, as evidenced by the occasional reference to periodical vendors, MARC, and OPACs. However, librarians without SGML, HTML, database, or programming experience may find the work daunting. The snippets of code-most incomplete and unattended by screenshots to illustrate the result of the code's execution-obscure more often than they enlighten. A single code sample (p. 91, a book purchase order) is immediately recognizable and sensible. There are no figures, illustrations, or screenshots. Subsection headings are used conservatively. Readers are confronted with page after page of unbroken technical text, and occasionally oddly formatted text (in some of the code samples). The author concentrates an commercial products and projects. Library and agency initiatives-for example, the National Institutes of Health HL-7 and U.S. Department of Education's GEM project-are notable for their absence. The Library of Congress USMARC to SGML effort is discussed in chapter 1, which covers the relationship of XML to its parent SGML, the XML processor, and data type definitions, using MARC as its illustrative example. Chapter 3 addresses the stylesheet options for XML, including DSSSL, CSS, and XSL. The Document Style Semantics and Specification Language (DSSSL) was created for use with SGML, and pruned into DSSSL-Lite and further (DSSSL-online). Cascading Style Sheets (CSS) were created for use with HTML. Extensible Style Language (XSL) is a further revision (and extension) of DSSSL-o specifically for use with XML. Discussion of aural stylesheets and Synchronized Multimedia Integration Language (SMIL) round out the chapter.
Chapter 4 introduces XML internal and external pointing and linking technologies. XML Link Language (XLL, now XLink) provides unidirectional, multi-ended, and typed linking. XPointer, used with XLink, provides addressing into the interior of XML documents. XPath operates an the logical structure of an XML document, creating a tree of nodes. Used with both XPointer and XSLT, it permits operations an strings, numbers, and Boolean expressions in the document. The final chapter, "Getting Started" argues for the adoption of a tool for XML production. The features and functionality of various tools for content development, application development, databases, and schema development provide an introduction to some of the available options. Roy Tennant is weIl known in the library community as an author (bis column "Digital Libraries" has appeared in Library Journal since 1997 and he has published Current Cites each month for more than a decade), an electronic discussion list manager (Web4Lib and XML4Lib), and as the creator and manager of UC/Berkeley's Digital Library SunSITE. Librarians have wondered what use they might make of XML since its beginnings. Tennant suggests one answer: "The Extensible Markup Language (XML) has the potential to exceed the impact of MARC an librarianship. While MARC is limited to bibliographic descriptionand arguably a subset at that, as any archivist will tell you-XML provides a highly-effective framework for encoding anything from a bibliographic record for a book to the book itself." (Tennant, p. vii) This slim paperback volume offers librarians and library managers concerned with automation projects "show and teIl" examples of XML technologies used as solutions to everyday tasks and challenges. What distinguishes this work is the editor and contributors' commitment to providing messy details. This book's target audience is technically savvy. While not a "cookbook" per se, the information provided an each project serves as a draft blueprint complete with acronyms and jargon. The inclusion of "lessons learned" (including failures as well as successes) is refreshing and commendable. Experienced IT and automation project veterans will appreciate the technical specifics more fully than the general reader.
Tennant's collection covers a variety of well- and lesser-known XML-based pilot and prototype projects undertaken by libraries around the world. Some of the projects included are: Stanford's XMLMARC conversion, Oregon State's use of XML in interlibrary loaning, e-books (California Digital Library) and electronic scholarly publishing (University of Michigan), the Washington Research Library Consortium's XML-based Web Services, and using TEI Lite to support indexing (Halton Hills Public Library). Of the 13 projects presented, nine are sited in academe, three are state library endeavors, and one is an American public library initiative. The projects are gathered into sections grouped by seven library applications: the use of XML in library catalog records, interlibrary loan, cataloging and indexing, collection building, databases, data migration, and systems interoperability. Each project is introduced with a few paragraphs of background information. The project reports-averaging about 13 pages each-include project goals and justification, project description, challenges and lessons learned (successes and failures), future plans, implications of the work, contact information for individual(s) responsible for the project, and relevant Web links and resources. The clear strengths of this collection are in the details and the consistency of presentation. The concise project write-ups flow well and encourage interested readers to follow-up via personal contacts and URLs. The sole weakness is the price. XML in Libraries will excite and inspire institutions and organizations with technically adept staff resources and visionary leaders. Erik Ray has written a how-to book. Unlike most, Learning XML is not aimed at the professional programming community. The intended audience is readers familiar with a structured markup (HTML, TEX, etc.) and Web concepts (hypertext links, data representation). In the first six chapters, Ray introduces XMUs main concepts and tools for writing, viewing, testing, and transforming XML (chapter 1), describes basic syntax (chapter 2), discusses linking with XLink and XPointer (chapter 3), introduces Cascading Style Sheets for use with XML (chapter 4), explains document type definitions (DTDs) and schemas (chapter 5), and covers XSLT stylesheets and XPath (chapter 6). Chapter 7 introduces Unicode, internationalization and language support, including CSS and XSLT encoding. Chapter 8 is an overview of writing software for processing XML, and includes the Perl code for an XML syntax checker. This work is written very accessibly for nonprogrammers. Writers, designers, and students just starting to acquire Web technology skills will find Ray's style approachable. Concepts are introduced in a logical flow, and explained clearly. Code samples (130+), illustrations and screen shots (50+), and numerous tables are distributed throughout the text. Ray uses a modified DocBook DTD and a checkbook example throughout, introducing concepts in early chapters and adding new concepts to them. Readers become familiar with the code and its evolution through repeated exposure. The code for converting the "barebones DocBook" DTD (10 pages of code) to HTML via XSLT stylesheet occupies 19 pages. Both code examples allow the learner to sec an accumulation of snippets incorporated into a sensible whole. While experienced programmers might not need this type of support, nonprogrammers certainly do. Using the checkbook example is an inspired choice: Most of us are familiar with personal checking, even if few of us world build an XML application for it. Learning XML is an excellent textbook. I've used it for several years as a recommended text for adult continuing education courses and workshops."

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Abstract

Seit dem 22. Februar 1999 ist das Resource Description Framework (RDF) als W3C-Empfehlung verfügbar. Doch was steckt hinter diesem Standard, der das Zeitalter des Semantischen Webs einläuten soll? Was RDF bedeutet, wozu man es einsetzt, welche Vorteile es gegenüber XML hat und wie man RDF anwendet, soll in diesem Artikel erläutert werden.

Source

XML Magazin und Web Services. 2003, H.1, S.40-43

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Abstract

XML verändert das Web wie nichts zuvor. Das Buch erklärt Ihnen sowohl die Idee von XML als auch deren Anwendungsmöglichkeiten. Neben der vollständigen Spezifikation enthält es vor allem auch praktische Tipps für den Einsatz von XML im WWW. Jeder Web-Publisher, der die Beschränkungen von HTML ablegen möchte, findet in diesem Buch eine unentbehrliche Grundlage und Referenz. Erläuterungen und Tipps zu wichtigen Aspekten wie XSL, RDF und Linking Runden

Content

XML in der Praxis war das erste deutsche Buch zur damals noch neuen Metamarkierungssprache XML. Mit der zweiten, überarbeiteten Auflage knüpfen die Autoren Behme und Mintert nahtlos an die Professionalität der ersten Ausgabe an. Auf dem neusten Stand der vom W3C verabschiedeten Spezifikationen rund um XML und mit den schon aus der ersten Auflage gewohnten einführenden und dennoch tief gehenden Erklärungen und Beispielen ist XML in der Praxis eine größtenteils neu überarbeitete Wunschkiste für XML-Einsteiger und Profis, die den Namen "2., erweiterte Auflage" mehr als verdient. Inhaltlich wurden die schon vorhandenen Kapitel aktualisiert, der Einstieg zum Thema Dokumente, XML im Web und ein XML Quickstart und die erste DTD -- noch immer brillant. Neu sind Kapitel zu Namensräumen, XPath, ein erweiterter Abschnitt zum XML-Linking, ein Überblick über Stylesheet-Sprachen und XSL-Transformation. Beispiele en masse -- detailliert und ausführlich. Spannend ist ein Kapitel über XML und Apache samt Cocconing und auch XHTML und WML werden hinreichend angesprochen. Außerdem enthält das Buch wie schon zuvor die deutsche Übersetzung der XML 1.0 Spezifikation. Wer dann noch nicht genug hat und in die in die tiefsten Tiefen der Metamarkierungssprache abtauchen will, dem sein Professional XML empfohlen -- zuvor ist das XML in der Praxis -Buch jedoch verpflichtende Einstiegslektüre. XML ist der Nachbrenner, den das Web für seinen weiteren Flug in die Zukunft braucht und Behme und Mintert eröffnen den Blick in die Maschinerie, um die Technik verwenden zu können. Buch lesen und abheben -- Mark-Up war noch nie so grenzenlos!

Theme

Elektronisches Publizieren

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Abstract

Current global communication of people and software applications over the Internet is facilitated by the use of markup languages. This entry introduces the principles and different types of markup, and the history behind the current markup languages. The basis of the modern markup languages is the Standard Generalized Markup Language (SGML) or its restricted form Extensible Markup Language (XML). This entry describes the markup techniques used in SGML and XML, gives examples of their use, and briefly describes some representative SGML and XML applications from different domains. An important factor in the success of XML has been the possibility to reuse markup vocabularies and combine vocabularies originating from different sources. This entry describes the concepts and methods facilitating the reuse of names from earlier defined vocabularies.

Source

Encyclopedia of library and information sciences. 3rd ed. Ed.: M.J. Bates