Yin, ChenhuiCecotti, MarcoAuger, Daniel J.Fotouhi, AbbasJiang, Haobin2025-04-222025-04-222025-04-18Yin C, Cecotti M, Auger DJ, et al., (2025) Lane centerline extraction based on surveyed boundaries: an efficient approach using maximal disks. Sensors, Volume 25, Issue 8, April 2025, Article number 2571https://doi.org/10.3390/s25082571https://dspace.lib.cranfield.ac.uk/handle/1826/23824Maps of road layouts play an essential role in autonomous driving, and it is often advantageous to represent them in a compact form, using a sparse set of surveyed points of the lane boundaries. While lane centerlines are valuable references in the prediction and planning of trajectories, most centerline extraction methods only achieve satisfactory accuracy with high computational cost and limited performance in sparsely described scenarios. This paper explores the problem of centerline extraction based on a sparse set of border points, evaluating the performance of different approaches on both a self-created and a public dataset, and proposing a novel method to extract the lane centerline by searching and linking the internal maximal circles along the lane. Compared with other centerline extraction methods producing similar numbers of center points, the proposed approach is significantly more accurate: in our experiments, based on a self-created dataset of road layouts, it achieves a max deviation below 0.15 m and an overall RMSE less than 0.01 m, against the respective values of 1.7 m and 0.35 m for a popular approach based on Voronoi tessellation, and 1 m and 0.25 m for an alternative approach based on distance transform.enAttribution 4.0 Internationalhttp://creativecommons.org/licenses/by/4.0/Analytical Chemistry3103 Ecology4008 Electrical engineering4009 Electronics, sensors and digital hardware4104 Environmental management4606 Distributed computing and systems softwaremaximal diskdistance transformvoronoi tessellationcenterline extractionArticle1424-82206728572571258