Methodology for Designing an Optimal Test Stand for Camera Thermal Drift Measurements and Its Stability Verification

Methodology for Designing an Optimal Test Stand for Camera Thermal Drift Measurements and Its Stability Verification

The effects of temperature changes on cameras are realized by observing the drifts of characteristic points in the image plane. Compensation for these effects is crucial to maintain the precision of cameras applied in machine vision systems and those expected to work in environments with varying fac...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 22; no. 24; p. 9997
Main Authors: Nimura, Kohhei, Adamczyk, Marcin
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 19-12-2022
MDPI
Subjects:
Calibration
camera
Cameras
Design
Digital cameras
Experiments
Geometry
Influence
Laboratories
Machine vision
Mathematical models
Measurement
Medical imaging equipment
Medical research
Methods
Models, Theoretical
Temperature
temperature compensation model
temperature effect
Temperature effects
test stand verification
Test stands
thermal image drift
Thermal imaging
Vision systems
test stand verification
thermal image drift
camera
temperature compensation model
temperature effect
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Summary:The effects of temperature changes on cameras are realized by observing the drifts of characteristic points in the image plane. Compensation for these effects is crucial to maintain the precision of cameras applied in machine vision systems and those expected to work in environments with varying factors, including temperature changes. Generally, mathematical compensation models are built by measuring the changes in the intrinsic and extrinsic parameters under the temperature effect; however, due to the assumptions of certain factors based on the conditions of the test stand used for the measurements, errors can become apparent. In this paper, test stands for thermal image drift measurements used in other works are assessed, and a methodology to design a test stand, which can measure thermal image drifts while eliminating other external influences on the camera, is proposed. A test stand was built accordingly, and thermal image drift measurements were performed along with a measurement to verify that the test stand did eliminate external influences on the camera. The experiment was performed for various temperatures from 5 °C to 45 5 °C, and as a result, the thermal image drift measured with the designed test stand showed its maximum error of 16% during its most rapid temperature change from 25 °C to 5 °C.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s22249997