Model-Based Threat Assessment for Avoiding Arbitrary Vehicle Collisions
Artikel i vetenskaplig tidskrift, 2010

This paper presents a model-based algorithm that estimates how the driver of a vehicle can either steer, brake, or accelerate to avoid colliding with an arbitrary object. In this algorithm, the motion of the vehicle is described by a linear bicycle model, and the perimeter of the vehicle is represented by a rectangle. The estimated perimeter of the object is described by a polygon that is allowed to change size, shape, position, and orientation at sampled time instances. Potential evasive maneuvers are modeled, parameterized, and approximated such that an analytical expression can be derived to estimate the set ofmaneuvers that the driver can use to avoid a collision. This set of maneuvers is then assessed to determine if the driver needs immediate assistance to avoid or mitigate an accident. The proposed threat-assessment algorithm is evaluated using authentic data from both real traffic conditions and collision situations on a test track and by using simulations with a detailed vehicle model. The evaluations show that the algorithm outperforms conventional threat-assessment algorithms at rear-end collisions in terms of the timing of autonomous brake activation. This is crucial for increasing the performance of collisionavoidance systems and for decreasing the risk of unnecessary braking. Moreover, the algorithm is computationally efficient and can be used to assist the driver in avoiding or mitigating collisions with all types of road users in all kinds of traffic scenarios.

threat assessment

rear-end collisions

intersection collisions

collision avoidance

Automotive safety

Författare

Mattias Brännström

Volvo

Erik Coelingh

Volvo

Jonas Sjöberg

Chalmers, Signaler och system, System- och reglerteknik, Mekatronik

IEEE Transactions on Intelligent Transportation Systems

1524-9050 (ISSN)

Vol. 11 3 658-669

Styrkeområden

Informations- och kommunikationsteknik

Transport

Ämneskategorier

Farkostteknik

Reglerteknik

Signalbehandling

DOI

10.1109/TITS.2010.2048314