Technical features are described for a steering system to compute a state flag value that is indicative of a vehicle motion state, such as an understeer or an oversteer condition. The steering system further generates a reference torque signal based on the state flag value, and generates a motor-assist torque signal based on the reference torque signal. The state flag value indicates the vehicle motion state in both a dynamic-state or a steady-state. Further, the steering system generates the reference torque signal based on the state flag value by blending a first rack force generated based on a vehicle-speed signal and motor angle, and a second rack force generated based on a motor torque and an input torque provided to a handwheel of the steering system.

A steering control device for a vehicle controls a steering device having a steering mechanism and a drive unit configured to provide the steering mechanism with steering force for the wheels. The steering control device includes a detection unit to detect the steering angle; and a control unit to calculate a target value of a current to be supplied to the drive unit as a current command value, and execute automatic steering control to automatically control steering of the vehicle by causing the drive unit to be supplied with the current of the current command value. When an absolute value of the steering angle comes to a predetermined first threshold or more during the automatic steering control, the control unit decreases an upper limit value of an absolute value of the current command value as the absolute value of the steering angle increases.

In a drive assist control apparatus, based on a pinion angle command value and an LKA angle command value, a distribution ratio calculation unit calculates a distribution ratio that is a proportion of the LKA angle command value in a sum of the LKA angle command value and the pinion angle command value. An LA determination unit compares an LA threshold with a lateral acceleration that is related to the LKA angle command value and that is a product of a lateral acceleration and the distribution ratio, and determines whether or not to attenuate the lateral acceleration. When the lateral acceleration is determined to be attenuated, an LKA angle command value correction unit uses a low pass filter to progressively reduce the LKA angle command value to generate a filtered LKA angle command value.

In a drive assist control apparatus, based on a pinion angle command value and an LKA angle command value, a distribution ratio calculation unit calculates a distribution ratio that is a proportion of the LKA angle command value in a sum of the LKA angle command value and the pinion angle command value. An LA determination unit compares an LA threshold with a lateral acceleration that is related to the LKA angle command value and that is a product of a lateral acceleration and the distribution ratio, and determines whether or not to attenuate the lateral acceleration. When the lateral acceleration is determined to be attenuated, an LKA angle command value correction unit uses a low pass filter to progressively reduce the LKA angle command value to generate a filtered LKA angle command value.

A steering device for a vehicle includes: an operation member configured to be operated by a driver; a turning member mechanically separated from the operation member and configured to turn a wheel; a turning device configured to drive the turning member; and a controller configured to control the turning device, wherein the controller has: a first control mode in which a maximum turning angle of the wheel is set to a first angle corresponding to a maximum angle for mechanically turning the wheel; and a second control mode in which the maximum turning angle of the wheel is set to a second angle that is smaller than the first angle; and the controller is configured to switch between the first control mode and the second control mode based on a current travel condition of an own vehicle detected by a travel condition detecting unit.

A steering device for a vehicle includes: an operation member configured to be operated by a driver; a turning member mechanically separated from the operation member and configured to turn a wheel; a turning device configured to drive the turning member; and a controller configured to control the turning device, wherein the controller has: a first control mode in which a maximum turning angle of the wheel is set to a first angle corresponding to a maximum angle for mechanically turning the wheel; and a second control mode in which the maximum turning angle of the wheel is set to a second angle that is smaller than the first angle; and the controller is configured to switch between the first control mode and the second control mode based on a current travel condition of an own vehicle detected by a travel condition detecting unit.

A vehicle is provided including an electronic power steering system, an electronic throttle control system, and a stability control system.

A vehicle is provided including an electronic power steering system, an electronic throttle control system, and a stability control system.

Systems and methods for steering a vehicle that adjust how quickly a selected steering input is achieved based on a speed at which the vehicle is traveling are disclosed. The systems and methods include receiving a steering input, detecting a vehicle speed, and selecting a steering ramp rate that defines how quickly a steering amount corresponding to the steering input is achieved by one or more steerable components of the vehicle. In some implementations, the steering ramp rate may be affected as a result of whether the steering input is greater than or less than a previous steering input.

The steering control device includes: current command value 1 calculation unit 11 which determines current command value 1 based on a vehicle speed and a steering torque; current command value 2 calculation unit 14 which determines current command value 2 based on a filtered differential value of the steering torque; and current drive unit 10 which drives motor 5 so that the value of the motor current matches the sum of current command values 1 and 2. When a first crossover frequency represents the crossover frequency of control open loop characteristics in the steering control device as obtained when current command value 2 is determined using a differential value of the steering torque which has not been filtered, the notch frequency of the notch filter is set to be greater than the mechanical resonance frequency of the steering control device and smaller than the first crossover frequency.