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Collision Imminent Steering at High Speed Using Nonlinear Model Predictive Control

John Wurts, Jeffrey L. Stein, Tulga Ersal

2020IEEE Transactions on Vehicular Technology36 citationsDOI

Abstract

Collision imminent steering is an automotive active safety feature designed to perform an aggressive lane change to avoid a forward collision in the event that the system determines there is insufficient distance to avoid a collision by braking alone.In this paper, a collision imminent steering system is developed using nonlinear model predictive control to perform a lane change at high speed in a highway environment. Two formulations are presented: one formulation to show the theoretical minimum lane change distance within which a safe lane change can be performed, and a second formulation to find the minimum aggressive maneuver for a given lane change distance. The nonlinear model predictive control formulation is posed as a constrained optimization problem, where solutions obey hard safety constraints of the highway environment. Constraint aggregation techniques are analyzed and introduced to monitor the peak tire slip throughout the maneuver. Numerical simulations of a typical luxury sedan in a highway setting show that minimum distance required to change lanes is about half the limit braking distance. Hence, there is a window of feasibility where the vehicle cannot avoid collision by braking alone, but can change lanes safely and maintain a safe trajectory throughout the maneuver. Additional simulations show that an active four wheel steering architecture improves performance over front only steering.

Topics & Concepts

CollisionControl theory (sociology)Nonlinear systemTrajectoryModel predictive controlCollision avoidanceVehicle dynamicsConstraint (computer-aided design)Slip (aerodynamics)Active safetySpeed limitBrakeSimulationEngineeringNonlinear modelComputer scienceAutomotive engineeringControl (management)Aerospace engineeringArtificial intelligenceMechanical engineeringAstronomyComputer securityQuantum mechanicsCivil engineeringPhysicsVehicle Dynamics and Control SystemsReal-time simulation and control systemsHydraulic and Pneumatic Systems
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