An automation system for industrial 3-D laser digitizing

An architecture and prototype implementation of an automation system for industrial 3D digitization is described. Facilities for automated view planning, collision avoidance and 3D data management are combined with a graphical user interface to give the operator control of an integrated virtual digi...

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Main Authors: Lamb, D.G., Baird, D.L., Greenspan, M.A.
Format: Conference Proceeding
Language:English
Subjects:
Design automation
Electrical equipment industry
Manufacturing industries
Probes
Product development
Prototypes
Sampling methods
Sensor phenomena and characterization
Shape measurement
Solid modeling
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creator Lamb, D.G.
Baird, D.L.
Greenspan, M.A.
description An architecture and prototype implementation of an automation system for industrial 3D digitization is described. Facilities for automated view planning, collision avoidance and 3D data management are combined with a graphical user interface to give the operator control of an integrated virtual digitizing environment. Primary objectives for the design are to increase the speed of practical digitizing tasks, while ensuring that requirements on sampling density and uniformity are respected. An important design principle is that repetitive and well defined procedures are managed by the system, while the operator is encouraged to influence digitizing strategy at a high level. The prototype implementation using Hymarc's Hyscan 45C laser digitizer is described, and early experimental results are reported.
doi_str_mv 10.1109/IM.1999.805345
format conference_proceeding
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ispartof Second International Conference on 3-D Digital Imaging and Modeling (Cat. No.PR00062), 1999, p.148-157
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Design automation
Electrical equipment industry
Manufacturing industries
Probes
Product development
Prototypes
Sampling methods
Sensor phenomena and characterization
Shape measurement
Solid modeling
title An automation system for industrial 3-D laser digitizing
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