Abstract In this chapter, the author presents a general framework classifying the different models adopted for capturing driver behavior focusing on the human cognitive dimensions and the traffic decision-making dimensions. Special interest is directed toward the “lower-level” microscopic models that can be linked directly to two core driving assistance technologies: adaptive cruise controls and lane-departure warning systems. These “lower-level” models are classified either as acceleration models or as lane changing models. Acceleration models are at the core of operational driving behaviors, and include car-following models which capture interactions between a lead vehicle and following vehicles. The main assumption in these models is that the behavior of the following vehicle is directly related to a stimulus observed/perceived by the driver, defined relative to the lead vehicle. In addition to the operational aspect, lane changing models capture the tactical side of driving. Most lane changing models have followed a deterministic rule-based framework where changing lanes is directly related to the desirability of such maneuver, its necessity, and its possibility/safety. Recognizing the limitations of the major existing microscopic traffic models, the objective in this chapter is to advance the state of knowledge in modeling driver behavioral processes and to offer an insight into current modeling approaches and the corresponding advantages and disadvantages.
Driver Behavior Modeling
Handbook of Intelligent Vehicles ; 537-558
2012-01-01
22 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
WAO3 - DRIVER BEHAVIOR MODELING
British Library Conference Proceedings | 2005
|Towards Credible Driver Behavior Modeling
IEEE | 2015
|Modeling Driver Behavior during Merge Maneuvers
NTIS | 1997
|BAYESIAN NONPARAMETRIC MODELING OF DRIVER BEHAVIOR
British Library Conference Proceedings | 2014
|Modeling Driver Behavior at Freeway–Ramp Merges
Transportation Research Record | 2011
|