This paper considers brake-based lateral control of a passenger vehicle, for reducing secondary collision risk following an initial impact in a traffic accident. Since secondary collisions are associated with deviations from the original travel path, the control problem is formulated via brake control sequences that minimize lateral path deviation. Optimal sequences are found not to conform to any simple control mode; sometimes all brakes are released, sometimes all wheels are locked, or the brakes may be applied in differential mode. In general, the optimal strategy combines several such actuation modes, and analysis shows it is related to the utilization of instantaneous vehicle force and moment capacity, indicating that a closed-loop con...
Recent statistics show that multiple-event accidents (MEAs) possess an increasing fraction of all ve...
Abstract: Nowadays improving safety is an indispensable part of research issues in the automotive in...
In this paper a novel vehicle lateral dynamic control approach is presented. A differential braking ...
This paper considers brake-based lateral control of a passenger vehicle, for reducing secondary coll...
This paper investigates the optimal control of a vehicle, after a light impact during a traffic acci...
In this paper the effectiveness of brake-based path control under typical post-impact conditions is ...
This paper investigates brake-based path control of a passenger vehicle, aimed at reducing secondary...
This paper investigates brake-based path control of a passenger vehicle, aimed at reducing secondary...
This paper investigates brake-based path control ofa passenger vehicle, aimed at reducing secondary ...
This paper considers the problem of path control for a road vehicle immediately after it is disturbe...
Accidents statistics show that multiple-event accidents (MEAs) represent a considerable and increasi...
This paper presents a vehicle path controller for reducing the maximum lateral deviation (Ymax) afte...
This paper presents a vehicle path controller forreducing the maximum lateral deviation (Ymax) after...
This paper presents a vehicle path controller for reducing the maximum lateral deviation (Ymax) afte...
This paper considers the problem of collision avoidance for road vehicles, operating at the limits o...
Recent statistics show that multiple-event accidents (MEAs) possess an increasing fraction of all ve...
Abstract: Nowadays improving safety is an indispensable part of research issues in the automotive in...
In this paper a novel vehicle lateral dynamic control approach is presented. A differential braking ...
This paper considers brake-based lateral control of a passenger vehicle, for reducing secondary coll...
This paper investigates the optimal control of a vehicle, after a light impact during a traffic acci...
In this paper the effectiveness of brake-based path control under typical post-impact conditions is ...
This paper investigates brake-based path control of a passenger vehicle, aimed at reducing secondary...
This paper investigates brake-based path control of a passenger vehicle, aimed at reducing secondary...
This paper investigates brake-based path control ofa passenger vehicle, aimed at reducing secondary ...
This paper considers the problem of path control for a road vehicle immediately after it is disturbe...
Accidents statistics show that multiple-event accidents (MEAs) represent a considerable and increasi...
This paper presents a vehicle path controller for reducing the maximum lateral deviation (Ymax) afte...
This paper presents a vehicle path controller forreducing the maximum lateral deviation (Ymax) after...
This paper presents a vehicle path controller for reducing the maximum lateral deviation (Ymax) afte...
This paper considers the problem of collision avoidance for road vehicles, operating at the limits o...
Recent statistics show that multiple-event accidents (MEAs) possess an increasing fraction of all ve...
Abstract: Nowadays improving safety is an indispensable part of research issues in the automotive in...
In this paper a novel vehicle lateral dynamic control approach is presented. A differential braking ...