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Project

ARVIDA

Angewandte Referenzarchitektur für virtuelle Dienste und Anwendungen

Angewandte Referenzarchitektur für virtuelle Dienste und Anwendungen

  • Duration:

ARVIDA is a project funded by the German Federal Ministry for Education and Research (BMBF) with actually 23 partners from research and industry. The main goal of the project is the creation of a service oriented reference architecture for virtual technologies (VT). The service orientation and the usage or rather adaption of available internet and VT-standards ensure interoperability between different modules and VT applications. A broad cross-company evaluation of the reference architecture in selected industrial scenarios guarantees that the results can be used as a future standard. The department Augmented Vision at DFKI deals in this project with a target-actual comparison for virtual product verification. Thereby a real object is captured in real-time and compared to a CAD model of the object. Though algorithms for high precision reconstruction of objects with small or medium size using low-cost depth cameras are investigated and developed.

Sponsors

BMBF - Federal Ministry of Education and Research

01IM13001J

BMBF - Federal Ministry of Education and Research

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Contact Person
Dr. Hilko Hoffmann

Keyfacts

Images

© Wasenmüller et al. IEEE ISMAR 2016

Der neue AR-Diskrepanzcheck, der in der Lage ist, die Szenengeometrie in Echtzeit mit einer RGB-D-Kamera zu erfassen.

Videos

Publications about the project

Virtuelle Techniken und Semantic-Web

André Antakli; Pablo Alvarado Moya; Beat Brüderlin; Ulrich Canzler; Holger Dammertz; Volker Enderlein; Jürgen Grüninger; Andreas Harth; Hilko Hoffmann; Eduard Jundt; Peter Keitler; Felix Leif Keppmann; Roland Krzikalla; Sebastian Lampe; Alexander Löffler; Julian Meder; Michael Otto; Frieder Pankratz; Sebastian Pfützner; Matthias Roth; Richard Sauerbier; Werner Schreiber; Roland Stechow; Johannes Tümler; Christian Vogelgesang; Oliver Wasenmüller; Andreas Weinmann; Jochen Willneff; Hans-Joachim Wirsching; Ingo Zinnikus; Konrad Zürl; René Schubotz

In: Werner Schreiber; Konrad Zürl; Peter Zimmermann. Web-basierte Anwendungen Virtueller Techniken. Pages 17-116, Springer, 2017.

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Soll/Ist-Vergleich

Oliver Adams; Ulrich Bockholt; Axel Hildebrand; Leiv Jonescheit; Roland Krzikalla; Manuel Olbrich; Frieder Pankratz; Sebastian Pfützner; Matthias Roth; Fabian Scheer; Björn Schwerdtfeger; Ingo Staack; Oliver Wasenmüller

In: Werner Schreiber; Konrad Zürl; Peter Zimmermann. Web-basierte Anwendungen Virtueller Techniken. Pages 263-307, Springer, 2017.

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ARVIDA-Referenzarchitektur

Johannes Behr; Roland Blach; Ulrich Bockholt; Andreas Harth; Hilko Hoffmann; Manuel Huber; Tobias Käfer; Felix Leif Keppmann; Frieder Pankratz; Dmitri Rubinstein; René Schubotz; Christian Vogelgesang; Gerrit Voss; Philipp Westner; Konrad Zürl

In: Werner Schreiber; Konrad Zürl; Peter Zimmermann. Web-basierte Anwendungen Virtueller Techniken. Pages 117-191, ISBN 9783662529553 9783662529560, Springer Vieweg, Berlin, Heidelberg, 2017.

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