Refine
Year of publication
- 2005 (8) (remove)
Document Type
- Conference Proceeding (6)
- Article (1)
- Part of a Book (1)
Has Fulltext
- yes (8)
Is part of the Bibliography
- no (8)
Keywords
- Annotation (2)
- Auszeichnungssprache (2)
- Computerlinguistik (2)
- Concurrent Markup/Overlap (2)
- Digitale Sprachressourcen (1)
- E-Learning (1)
- Hamlet (1)
- Higher Education (1)
- Hypertext (1)
- Information Retrieval (1)
Publicationstate
- Veröffentlichungsversion (7)
- Postprint (1)
Reviewstate
- (Verlags)-Lektorat (7)
- Peer-Review (1)
Publisher
Gegenstand des Workshop-Beitrags ist die Verknüpfung heterogener linguistischer Ressourcen. Eine bedeutende Teilmenge von Ressourcen in der gegenwärtigen linguistischen Forschung und Anwendung besteht zum einen aus XML-annotierten Textdokumenten und zum anderen aus externen Ressourcen wie Grammatiken, Lexika oder Ontologien. Es wird eine Architektur vorgestellt, die eine Integration heterogener Ressourcen erlaubt, wobei die Methoden zur Integration unabhängig von der jeweiligen Anwendung sind und somit verschiedene Verknüpfungen ermöglichen. Eine exemplarische Anwendung der Methodologie ist die Analyse anaphorischer Beziehungen.
Many XML-related activities (e.g. the creation of a new schema) already address issues with different languages, scripts, and cultures. Nevertheless, a need exists for additional mechanisms and guidelines for more effective internationalization (i18n) and localization (l10n) in XML-related contents and processes. The W3C Internationalization Tag Set Working Group (W3C ITS WG) addresses this need and works on data categories, representation mechanisms and guidelines related to i18n and l10n support in the XML realm. This paper describes initial findings from the (W3C ITS WG). Furthermore, the paper discusses how these findings relate to specific schema languages, and complementary technologies like namespace sectioning, schema annotation and the description of processing chains. The paper exemplifies why certain requirements only can be met by a combination of technologies, and discusses these technologies.
An approach to the unification of XML (Extensible Markup Language) documents with identical textual content and concurrent markup in the framework of XML-based multi-layer annotation is introduced. A Prolog program allows the possible relationships between element instances on two annotation layers that share PCDATA to be explored and also the computing of a target node hierarchy for a well-formed, merged XML document. Special attention is paid to identity conflicts between element instances, for which a default solution that takes into account metarelations that hold between element types on the different annotation layers is provided. In addition, rules can be specified by a user to prescribe how identity conflicts should be solved for certain element types.
In this paper, we present the Multiple Annotation approach, which solves two problems: the problem of annotating overlapping structures, and the problem that occurs when documents should be annotated according to different, possibly heterogeneous tag sets. This approach has many advantages: it is based on XML, the modeling of alternative annotations is possible, each level can be viewed separately, and new levels can be added at any time. The files can be regarded as an interrelated unit, with the text serving as the implicit link. Two representations of the information contained in the multiple files (one in Prolog and one in XML) are described. These representations serve as a base for several applications.
XML-based technologies offer powerful resources for open source applications in the field of e-learning. The paper describes a model of hypertext as interlinked structures that can be intertwined by cross-annotation linking. This infrastructure integrates multiple perspectives and allows creating a personal learning environment. We exemplify the approach in a case study: the Hamlet project. In the course of this project, several German translations of William Shakespeare’s Hamlet have been collected and annotated. Two different annotation layers are used to achieve a cross-linking reference between the various German translations. We will describe the theoretical background of cross-annotation linking and the actual technological implementation of the system. Additionally, we will use the personas method to gain insights into the potential benefit of the system as a personal learning environment.
Making CONCUR work
(2005)
The SGML feature CONCUR allowed for a document to be simultaneously marked up in multiple conflicting hierarchical tagsets but validated and interpreted in one tagset at a time. Alas, CONCUR was rarely implemented, and XML does not address the problem of conflicting hierarchies at all. The MuLaX document syntax is a non-XML syntax that enables multiply-encoded hierarchies by distinguishing different “layers” in the hierarchy by adding a layer ID as a prefix to the element names. The IDs tie all the elements in a single hierarchy together in an “annotation layer”. Extraction of a single annotation layer results in a well-formed XML document, and each annotation layer may be associated with an XML schema. The MuLaX processing model works on the nodes of one annotation layer at a time through Xpath-like navigation. CONCUR lives!