Title :
Highly Automated Driving on Highways Based on Legal Safety
Author :
Vanholme, B. ; Gruyer, Dominique ; Lusetti, B. ; Glaser, Sebastien ; Mammar, Said
Author_Institution :
Dev. & Networks, French Inst. of Sci. & Technol. for Transp., Versailles, France
Abstract :
This paper discusses driving system design based on traffic rules. This allows fully automated driving in an environment with human drivers, without necessarily changing equipment on other vehicles or infrastructure. It also facilitates cooperation between the driving system and the host driver during highly automated driving. The concept, referred to as legal safety, is illustrated for highly automated driving on highways with distance keeping, intelligent speed adaptation, and lane-changing functionalities. Requirements by legal safety on perception and control components are discussed. This paper presents the actual design of a legal safety decision component, which predicts object trajectories and calculates optimal subject trajectories. System implementation on automotive electronic control units and results on vehicle and simulator are discussed.
Keywords :
automated highways; decision making; driver information systems; law; road safety; road traffic; automotive electronic control units; control components; distance keeping; driving system design; highly automated highway driving; human drivers; intelligent speed adaptation; lane-changing functionalities; legal safety decision component; object trajectory prediction; optimal subject trajectories; traffic rules; Humans; Law; Roads; Safety; Trajectory; Vehicles; Decision making; driver assistance; driving automation; electronic control circuit; intelligent vehicles; legal safety; perception; vehicle safety;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2012.2225104
