Auflistung nach Autor:in "Stein, Benno"
1 - 8 von 8
Treffer pro Seite
Sortieroptionen
- ZeitschriftenartikelArgumentation technology(it - Information Technology: Vol. 63, No. 1, 2021) Cimiano, Philipp; Hagen, Matthias; Stein, BennoArticle Argumentation technology was published on February 1, 2021 in the journal it - Information Technology (volume 63, issue 1).
- ZeitschriftenartikelEditorial(Datenbank-Spektrum: Vol. 10, No. 1, 2010) Schenkel, Ralf; Stein, Benno
- ZeitschriftenartikelEditorial(Datenbank-Spektrum: Vol. 16, No. 1, 2016) Hagen, Matthias; Stein, Benno; Härder, Theo
- ZeitschriftenartikelEditorial(Datenbank-Spektrum: Vol. 20, No. 2, 2020) Cimiano, Philipp; Heyer, Gerhard; Kohlhase, Michael; Stein, Benno; Ziegler, Jürgen; Härder, Theo
- ZeitschriftenartikelErratum zu: Editorial(Datenbank-Spektrum: Vol. 21, No. 2, 2021) Cimiano, Philipp; Heyer, Gerhard; Kohlhase, Michael; Stein, Benno; Ziegler, Jürgen; Härder, Theo
- KonferenzbeitragModeling design knowledge on structure(Modellierung 2001, 2001) Stein, Benno; Schulz, AndréThis paper is on the modeling of design knowledge. It introduces the concept of design graph grammars, which is an advancement of classical graph grammar approaches. Design graph grammars, as proposed here, provide an efficient concept to create and to manipulate structure models of technical systems. This is interesting from two points of view. Firstly, within many existing tools for design support structural dependencies are represented and processed in a proprietary way. Here, design graph grammars possess the flexibility to model even very specific kinds of domain knowledge while still providing a broadly understood semantics. Secondly, structure models are close to the mental model level of human designers. Design graph grammars concentrate on this level, excluding involved underlying behavioral aspects. This may entail the risk of an oversimplification, but gives design graph grammars the potential to be used within the creative parts of the human design process.
- ZeitschriftenartikelOn divergence-based author obfuscation: An attack on the state of the art in statistical authorship verification(it - Information Technology: Vol. 62, No. 2, 2020) Bevendorff, Janek; Wenzel, Tobias; Potthast, Martin; Hagen, Matthias; Stein, BennoAuthorship verification is the task of determining whether two texts were written by the same author based on a writing style analysis. Author obfuscation is the adversarial task of preventing a successful verification by altering a text’s style so that it does not resemble that of its original author anymore. This paper introduces new algorithms for both tasks and reports on a comprehensive evaluation to ascertain the merits of the state of the art in authorship verification to withstand obfuscation. After introducing a new generalization of the well-known unmasking algorithm for short texts, thus completing our collection of state-of-the-art algorithms for verification, we introduce an approach that (1) models writing style difference as the Jensen-Shannon distance between the character n-gram distributions of texts, and (2) manipulates an author’s writing style in a sophisticated manner using heuristic search. For obfuscation, we explore the huge space of textual variants in order to find a paraphrased version of the to-be-obfuscated text that has a sufficiently high Jensen-Shannon distance at minimal costs in terms of text quality loss. We analyze, quantify, and illustrate the rationale of this approach, define paraphrasing operators, derive text length-invariant thresholds for termination, and develop an effective obfuscation framework. Our authorship obfuscation approach defeats the presented state-of-the-art verification approaches, while keeping text changes at a minimum. As a final contribution, we discuss and experimentally evaluate a reverse obfuscation attack against our obfuscation approach as well as possible remedies.
- TextdokumentWeb Archive Analytics(INFORMATIK 2020, 2021) Völske, Michael; Bevendorff, Janek; Kiesel, Johannes; Stein, Benno; Fröbe, Maik; Hagen, Matthias; Potthast, MartinWeb archive analytics is the exploitation of publicly accessible web pages and their evolution for research purposes—to the extent organizationally possible for researchers. In order to better understand the complexity of this task, the first part of this paper puts the entirety of the world's captured, created, and replicated data (the “Global Datasphere”) in relation to other important data sets such as the public internet and its web pages, or what is preserved thereof by the Internet Archive. Recently, the Webis research group, a network of university chairs to which the authors belong, concluded an agreement with the Internet Archive to download a substantial part of its web archive for research purposes. The second part of the paper in hand describes our infrastructure for processing this data treasure: We will eventually host around 8 PB of web archive data from the Internet Archive and Common Crawl, with the goal of supplementing existing large scale web corpora and forming a non-biased subset of the 30 PB web archive at the Internet Archive.