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Kaj Grønbæk

Digital Assistance for Quality Assurance: Augmented Workspaces Using Deep Learning for Tracking Near-Symmetrical Objects

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We present a digital assistance approach for applied metrology on near-symmetrical objects. In manufacturing, systematically measuring products for quality assurance is often a manual task, where a main challenge for the workers lies in accurately identifying positions to measure and correctly documenting these measurements. This paper focuses on a use-case, which involves metrology of small near-symmetrical objects, such as LEGO bricks. We aim to support this task through situated visual measurement guides. Aligning these guides poses a major challenge, since fine grained details, such as embossed logos, serve as the only feature by which to retrieve an object's unique orientation. We present a two-step approach, which consists of (1) locating and orienting the object based on its shape, and then (2) disambiguating the object's rotational symmetry based on small visual features. We apply and compare different deep learning approaches and discuss our guidance system in the context of our use case.
TitelProceedings of the 2019 ACM International Conference on Interactive Surfaces and Spaces, ISS 2019
Antal sider13
ForlagAssociation for Computing Machinery
StatusUdgivet - 2019
Begivenhed2019 Acm International Conference on Interactive Surfaces and Spaces - Daejeon, Sydkorea
Varighed: 10 nov. 201913 nov. 2019


Konference2019 Acm International Conference on Interactive Surfaces and Spaces

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