A high-definition map (HD map) is a highly accurate map used primarily in the field of autonomous driving,[1][2] containing details not normally present on traditional maps.[3][4] HD maps are often captured using an array of sensors, such as LiDARs, radars, digital cameras, and GPS,[3][5][6] and they can also be constructed using aerial imagery.[7][8] Such maps can be precise at a centimetre level.[3][9]

A Zoox autonomous prototype vehicle, outfitted with sensors for sensing and high-definition mapping.

High-definition maps for self-driving cars usually include map elements such as road shape, road marking, traffic signs, and barriers.[4][10] Maintaining high accuracy is one of the biggest challenges in building HD maps of real-world roads. With regard to accuracy, there are two main focus points that determine the quality of an HD map:

  • Global accuracy (positioning of a feature on the surface of the Earth).
  • Local accuracy (positioning of a feature in relation to road elements around it).

In areas with good GPS reception it is possible to achieve a global accuracy of less than 3 cm (1.2 in) deviation using satellite signals and correction data from base stations.

In GPS-denied areas, however, inaccuracy rises with distance traveled through the area, being largest in its middle. This means that the maximum GPS error can be expressed as a percentage of the distance traveled through a GPS-denied area: this value is less than 0.5%.[11]

References

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  1. ^ Liu, Rong; Wang, Jinling; Zhang, Bingqi (27 August 2019). "High Definition Map for Automated Driving: Overview and Analysis". Journal of Navigation. 73 (2): 324–341. doi:10.1017/S0373463319000638. hdl:1959.4/unsworks_77182. ISSN 0373-4633. S2CID 202906063. Retrieved 2024-11-08.
  2. ^ Elghazaly, Gamal; Frank, Raphael; Harvey, Scott; Safko, Stefan (2023). "High-Definition Maps: Comprehensive Survey, Challenges, and Future Perspectives". IEEE Open Journal of Intelligent Transportation Systems. 4: 527–550. doi:10.1109/OJITS.2023.3295502. S2CID 259915452.
  3. ^ a b c Vardhan, Harsha (2017-09-22). "HD Maps: New age maps powering autonomous vehicles". Geospatial World. Retrieved 2021-01-20.
  4. ^ a b Matthews, Kayla (September 16, 2019). "What are HD maps, and how will they get us closer to autonomous cars?". EETimes. Retrieved 2024-11-08.
  5. ^ Holmes, Freddie (14 March 2019). "HD maps—the hidden sensors that help autonomous vehicles see round corners". Automotive World. Retrieved 2021-01-20.
  6. ^ Mueck, Markus; Karls, Ingolf (9 January 2018). Networking vehicles to everything : evolving automotive solutions. Boston: De Gruyter. ISBN 978-1-5015-0724-3. OCLC 1021887635. Retrieved 2024-11-08.
  7. ^ Javanmardi, Mahdi; Javanmardi, Ehsan; Gu, Yanlei; Kamijo, Shunsuke (2017-09-21). "Towards High-Definition 3D Urban Mapping: Road Feature-Based Registration of Mobile Mapping Systems and Aerial Imagery". Remote Sensing. 9 (10): 975. Bibcode:2017RemS....9..975J. doi:10.3390/rs9100975. ISSN 2072-4292.
  8. ^ Zang, Andi; Xu, Runsheng; Li, Zichen; Doria, David (2017-11-07). "Lane boundary extraction from satellite imagery". Proceedings of the 1st ACM SIGSPATIAL Workshop on High-Precision Maps and Intelligent Applications for Autonomous Vehicles. AutonomousGIS '17. Redondo Beach California: ACM. pp. 1–8. arXiv:2002.02362. doi:10.1145/3149092.3149093. ISBN 978-1-4503-5497-4. S2CID 11512991. Retrieved 2024-11-08.
  9. ^ Jiao, Jialin (22 June 2018). "Machine Learning Assisted High-Definition Map Creation". 2018 IEEE 42nd Annual Computer Software and Applications Conference (COMPSAC). Vol. 01. pp. 367–373. doi:10.1109/COMPSAC.2018.00058. ISBN 978-1-5386-2666-5. S2CID 52058583. Retrieved 2024-11-08.
  10. ^ Zang, Andi; Chen, Xin; Trajcevski, Goce (2018-06-05). "High definition maps in urban context". SIGSPATIAL Special. 10 (1): 15–20. doi:10.1145/3231541.3231546. ISSN 1946-7729. S2CID 47019015. Retrieved 2024-11-08.
  11. ^ "How Accurate Are HD Maps for Autonomous Driving and ADAS Simulation?". Atlatec. 2020-10-22. Retrieved 2021-05-20.[dead link]