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Highly accurate imaging based position measurement using holographic point replication

Simon Hartlieb, Michael Tscherpel, Flavio Guerra, Tobias Haist, Wolfgang Osten, Michael Ringkowski, Oliver Sawodny

2021Measurement13 citationsDOIOpen Access PDF

Abstract

The experimental approach of a highly accurate imaging based stereo measurement setup with a total measurement volume of 140 mm × 100 mm × 50 mm is presented. The system can detect the position of multiple target points (LEDs) in a calibrated volume of 100 mm × 75 mm × 24 mm with an accuracy of σx=0.367μm, σy=0.373μm and σz=0.437μm. This high accuracy is reached by holographically replicating each point light source to a predefined pattern (cluster) of spots on the camera sensor and averaging the center positions of all spots. We present a detailed description of the principle, the process and results of calibration including deformation compensation and stability measurements, as well as the results of two- and three-dimensional trajectory measurements. To validate the performance and accuracy of the measurement setup, interferometers are employed as reference sensors. The residual error of a two-dimensional trajectory of distance D=277μm is σd=0.242μm and for a three-dimensional trajectory of distance D=57.2 mm it is σd = 0.674 μm.

Topics & Concepts

PhysicsPosition (finance)CalibrationOpticsTrajectoryResidualCompensation (psychology)HolographyComputer scienceAlgorithmFinanceAstronomyPsychologyQuantum mechanicsEconomicsPsychoanalysisOptical measurement and interference techniquesAdvanced Measurement and Metrology TechniquesAdvanced Optical Sensing Technologies
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