论文信息 - INFLUENCE OF THE MINIMUM SWERVING DISTANCE ON THE DEVELOPMENT OF POWERED TWO WHEELER ACTIVE BRAKING

INFLUENCE OF THE MINIMUM SWERVING DISTANCE ON THE DEVELOPMENT OF POWERED TWO WHEELER ACTIVE BRAKING

Among driver assistance systems recently applied to PTWs (ABS, CBS, etc.), the autonomous braking without input from the rider, named Active Braking (AB), is one of the most promising safety functions. The potential benefits of the AB are encouraging, although the improper activation of the AB is dangerous for the rider. Therefore the triggering must occur only when the vehicle is in stability conditions and the obstacle is no longer avoidable neither by braking nor by swerving. In the present paper the last-second swerving maneuver is analyzed to identify the minimum swerving distance (Lsw) the rider requires to avoid the collision against an obstacle by turning, as an input for the triggering logic of the AB system. A physical model to define the minimum swerving distance is proposed. To validate the model, an experimental campaign was carried out using a scooter equipped with a prototype AB system and involving 12 test riders. The tests showed the good prediction capability of the Lsw algorithm for different riding styles and different scenarios with fixed obstacles.

Marco Pierini | Giovanni Savino | Federico Giovannini

[1] B. Breuer,et al. Bremsenhandbuch. Grundlagen, Komponenten, Systeme, Fahrdynamik , 2006 .

[2] Niccolò Baldanzini,et al. Design of the decision logic for a PTW integrated safety system , 2009 .

[3] Didier Aubert,et al. Experimental Assessment of the RESCUE Collision-Mitigation System , 2007, IEEE Transactions on Vehicular Technology.

[4] Klaus C. J. Dietmayer,et al. Situation Assessment of an Autonomous Emergency Brake for Arbitrary Vehicle-to-Vehicle Collision Scenarios , 2009, IEEE Transactions on Intelligent Transportation Systems.

[5] Rudolf Mai,et al. automatic Emergency Braking , 1998 .

[6] Marco Pierini,et al. PISa – powered two wheeler integrated safety: development, implementation and testing of PTW integrated safety systems , 2010 .

[7] Hans B. Pacejka,et al. Tire and Vehicle Dynamics , 1982 .

[8] Mattias Bengtsson,et al. Collision Warning with Full Auto Brake and Pedestrian Detection - a practical example of Automatic Emergency Braking , 2010, 13th International IEEE Conference on Intelligent Transportation Systems.

[9] Christian Schmidt,et al. Research on trajectory planning in emergency situations with multiple objects , 2006, 2006 IEEE Intelligent Transportation Systems Conference.