TY - JOUR
T1 - ARDÁN
T2 - Automated Reference-free Defocus Characterization for Automotive Near-field Cameras
AU - Jakab, Daniel
AU - Grua, Eoin Martino
AU - Mohandas, Reenu
AU - Deegan, Brian Michael
AU - Scanlan, Anthony
AU - Molloy, Dara
AU - Ward, Enda
AU - Eising, Ciaran
N1 - Publisher Copyright:
© 2013 IEEE.
PY - 2024
Y1 - 2024
N2 - Measuring optical quality in camera lenses is crucial in evaluating cameras, especially for safety-critical visual perception tasks in automotive driving. While ground-truth labels and annotations are provided in publicly available automotive datasets for computer vision tasks, there is a lack of information on the image quality of camera lenses used for data collection. To compensate for this, we propose an Automated Reference-free Defocus characterization for Automotive Near-field cameras (ARDÁN) to evaluate Slanted Edges for ISO12233 in five publicly available automotive datasets using a valid and invalid region of interest (ROI) selection system in natural scenes. We use the mean of 50% of the Modulation Transfer Function (MTF50) in three Camera Radii (CaRa) segments and the Overall Spread in Heatmaps (O'SHea) for an 8×5 distribution to evaluate the quality of edges in natural scenes. From the experiments performed, lenses with uniform spatial domains (i.e. little distortion) showed that MTF50 was constant between (0.18-0.25cy/px). With image rectification on the same scenes, MTF50 results artificially increased, no longer representing the camera lens. In contrast, for strong radial distortion, MTF50 varied extensively across the spatial domain between (0.12-0.4cy/px), where, in particular,Woodscape gave the highest average of MTF50 per region for natural scenes.
AB - Measuring optical quality in camera lenses is crucial in evaluating cameras, especially for safety-critical visual perception tasks in automotive driving. While ground-truth labels and annotations are provided in publicly available automotive datasets for computer vision tasks, there is a lack of information on the image quality of camera lenses used for data collection. To compensate for this, we propose an Automated Reference-free Defocus characterization for Automotive Near-field cameras (ARDÁN) to evaluate Slanted Edges for ISO12233 in five publicly available automotive datasets using a valid and invalid region of interest (ROI) selection system in natural scenes. We use the mean of 50% of the Modulation Transfer Function (MTF50) in three Camera Radii (CaRa) segments and the Overall Spread in Heatmaps (O'SHea) for an 8×5 distribution to evaluate the quality of edges in natural scenes. From the experiments performed, lenses with uniform spatial domains (i.e. little distortion) showed that MTF50 was constant between (0.18-0.25cy/px). With image rectification on the same scenes, MTF50 results artificially increased, no longer representing the camera lens. In contrast, for strong radial distortion, MTF50 varied extensively across the spatial domain between (0.12-0.4cy/px), where, in particular,Woodscape gave the highest average of MTF50 per region for natural scenes.
KW - Automotive
KW - Camera Radii (CaRa)
KW - Energy Inspection Limit above Nyquist (EiLíN)
KW - Natural Scenes
KW - optical quality
KW - Radial Distortion
KW - Regional Mask to Lens Alignment (RMLA)
KW - Slanted Edges
KW - the Overall Spread in Heatmaps (O'SHea)
KW - Valid and Invalid Region of Interest (ROI) Selection System
UR - http://www.scopus.com/inward/record.url?scp=85205314232&partnerID=8YFLogxK
U2 - 10.1109/ACCESS.2024.3469550
DO - 10.1109/ACCESS.2024.3469550
M3 - Article
AN - SCOPUS:85205314232
SN - 2169-3536
VL - 12
SP - 145637
EP - 145670
JO - IEEE Access
JF - IEEE Access
ER -