ADAS
Advanced driver-assistance systems (ADAS) are electronic systems in a vehicle that use advanced technologies to assist the driver. They can include many active safety features. ADAS uses sensors in the vehicle such as radar and cameras to perceive the world around it, and then either provides information to the driver or takes automatic action based on what it perceives.
Gender differences in the use of ADAS technologies: A systematic review
Mahdi Rezaei • Mirbahador Yazdani • Mahsa Jafari • Mohammad Saadati
Apr 1, 2021
•
Transportation Research Part F: Traffic Psychology and Behaviour
New Simulation Tools for Training and Testing Automated Vehicles
Jiaqi Ma • Chris Schwarz • Ziran Wang • Maria Elli • German Ros • Yiheng Feng
Jul 15, 2020
•
Automated Vehicles Symposium
An Empirical Analysis to Assess the Operational Design Domain of Lane Keeping System Equipped Vehicles Combining Objective and Subjective Risk Measures
Haneen Farah • Shubham Bhusari • Paul van Gent • freddy a mullakkal babu • Peter Morsink • Riender Happee • B. van Arem
Feb 1, 2020
•
IEEE Transactions on Intelligent Transportation Systems
Efficient Splitting of Test and Simulation Cases for the Verification of Highly Automated Driving Functions
Eckard BödeEmail • Matthias BükerEmail • Ulrich Eberle • Martin Fränzle • Sebastian Gerwinn • Birte Kramer
Aug 17, 2018
•
International Conference on Computer Safety, Reliability, and Security
Sensor Fusion: A Comparison of Sensing Capabilities of Human
Drivers and Highly Automated Vehicles
Brandon Schoettle
Aug 1, 2017
•
The University of Michigan
Sustainable Worldwide Transportation
Fine-tuning ADAS algorithm parameters for optimizing traffic safety and mobility in connected vehicle environment
Hao Liu • Heng Wei • Ting Zuo • Zhixia Li
Mar 1, 2017
•
Transportation Research Part C Emerging Technologies
Three Decades of Driver Assistance Systems: Review and Future Perspectives
Klaus Bengler • Klaus Dietmayer • Berthold Farber • Markus Maurer • Christoph Stiller • Hermann Winner
Oct 24, 2014
•
IEEE Intelligent Transportation Systems Magazine
Making Bertha Drive, An Autonomous Journey on a Historic Route
Julius Ziegler • Philipp Bender • Markus Schreiber • Henning Lategahn • Tobias Strauss • Christoph Stiller • Thao Dang • Uwe Franke • Nils Appenrodt • Christoph G. Keller • Eberhard Kaus • Ralf G. Herrtwich • Clemens Rabe • David Pfeiffer • Frank Lindner • Fridtjof Stein • Friedrich Erbs • Markus Enzweiler • Carsten Knöppel • Jochen Hipp • Martin Haueis • Maximilian Trepte • Carsten Brenk • Andreas Tamke • Mohammad Ghanaat • Markus Braun • Armin Joos • Hans Fritz • Horst Mock • Martin Hein • Eberhard Zeeb
Apr 22, 2014
•
IEEE Intelligent Transportation Systems Magazine