Moving towards in-line metrology: evaluation of a Laser Radar system for in-line dimensional inspection for automotive assembly systems

The increasing interest towards intelligent systems has led to a demand for the development of zero-defect strategies, with a paradigm shift from off-line and dedicated to in-line metrology with integrated robotic systems. However, a major barrier preventing the systematic uptake of in-line metrolog...

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Veröffentlicht in:	International journal of advanced manufacturing technology 2017-07, Vol.91 (1-4), p.69-78
Hauptverfasser:	Kiraci, Ercihan, Franciosa, Pasquale, Turley, Glen A., Olifent, Alan, Attridge, Alex, Williams, Mark A.
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Sprache:	eng
Schlagworte:	Accuracy Assembly Automobile industry Automotive bodies Automotive engineering CAE) and Design Computer-Aided Engineering (CAD Coordinate measuring machines Engineering Error analysis Evaluation Industrial and Production Engineering Industry standards Inspection Lasers Lidar Maintenance Mechanical Engineering Media Management Metrology Original Article Radar equipment Real time Reproducibility Scrap Time measurement
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container_title	International journal of advanced manufacturing technology
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creator	Kiraci, Ercihan Franciosa, Pasquale Turley, Glen A. Olifent, Alan Attridge, Alex Williams, Mark A.
description	The increasing interest towards intelligent systems has led to a demand for the development of zero-defect strategies, with a paradigm shift from off-line and dedicated to in-line metrology with integrated robotic systems. However, a major barrier preventing the systematic uptake of in-line metrology is the lack of evaluation of system capability in terms of accuracy, repeatability and measurement time, when compared to the well-established coordinate measuring machine (CMM). In this study, a robotic Laser Radar (LR) solution is assessed in the context of automotive dimensional inspection of Body-In-White (BIW) applications. The objective is both to understand the effect of robot re-positioning error on measurement accuracy and repeatability and to compare measurement results against a CMM. Eighty-one surface points, six edge points, twenty-five holes and sixteen slots were selected from an industry standard measurement plan. Whilst LR exhibits a lower measurement accuracy than twin-column CMM, its repeatability is well within the specification limits for body shell quality inspection. Therefore, as a real-time in-line metrology tool, it is a genuine prospect to exploit. This research makes a significant contribution toward in-line metrology for dimensional inspection, for automotive application, for rapid detection and for correction of assembly defects in real time, with subsequent reduction of scrap and number of repairs/re-works.
doi_str_mv	10.1007/s00170-016-9696-8
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subjects	Accuracy Assembly Automobile industry Automotive bodies Automotive engineering CAE) and Design Computer-Aided Engineering (CAD Coordinate measuring machines Engineering Error analysis Evaluation Industrial and Production Engineering Industry standards Inspection Lasers Lidar Maintenance Mechanical Engineering Media Management Metrology Original Article Radar equipment Real time Reproducibility Scrap Time measurement
title	Moving towards in-line metrology: evaluation of a Laser Radar system for in-line dimensional inspection for automotive assembly systems
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