Architecture and Design Patterns for Distributed, Scalable Augmented Reality and Wearable Technology Systems

This paper presents a novel reference software architecture and supporting pattern language for an augmented reality authoring and training system. Industry-based augmented reality training is considered an essential element of the next techno-industrial revolution. These next generation learning en...

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Vydáno v:Proceedings of IEEE International Conference on Teaching, Assessment, and Learning for Engineering (Online) s. 1 - 8
Hlavní autoři: Guest, Will, Wild, Fridolin, Mitri, Daniele Di, Klemke, Roland, Karjalainen, Jaakko, Helin, Kaj
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: IEEE 01.12.2019
Témata:
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Augmented reality
Computer architecture
design pattern
Employment
pattern language
software architecture
Task analysis
Training
wearable technology
ISSN:2470-6698
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Shrnutí:This paper presents a novel reference software architecture and supporting pattern language for an augmented reality authoring and training system. Industry-based augmented reality training is considered an essential element of the next techno-industrial revolution. These next generation learning environments allow a trainee to offload complexity and giving them live (or on-demand) feedback on their progress and performance through workplace augmentation is already being taken up by industry forerunners. This reference architecture - for wearable experience for knowledge intensive training - incorporates head-mounted augmented vision, an array of wearable sensors that monitor movement and physiological signals, a data-layer managing sensor data and a cloud-based repository for storing information about the activity and workplace. Moreover, this architecture has been tested in a range of knowledge intensive workplaces, in the aeronautic, medical and space industries. Two iterations of the architecture were developed and validated, together with over 500 participants, producing datasets on activity performance, physiological state and assessment of the platform. The components and links of the architecture are presented here as generalizable design patterns to support wider development. We then propose a pattern language for augmented reality training applications.
ISSN:2470-6698
DOI:10.1109/TALE48000.2019.9225855