A driving support ECU is configured to set, when a recognition state of a lane marker by a sensor is a one side lane marker recognizable state which is a state where the sensor can recognize only one of a left lane marker and a right lane marker, a steering angle guard value and/or a steering angle speed guard value to a value which is smaller than when the recognition state of the lane marker is a both lane markers recognizable state which is a state where the sensor can recognize both the left lane marker and the right lane marker.

A method for determining an orientation of a trailer, the trailer being configured to be coupled to a towing vehicle, includes detecting a relation of movements of at least two wheels of the trailer, upon moving the trailer, with at least one sensor arranged at the trailer for detecting a respective state of the at least two wheels. The method further includes calculating an orientation of a coupling device of the trailer based on the relation of the at least two wheels.

The present invention relates to a method for determining a turning radius of a trailer attached to a towing vehicle and moved by the latter, comprising a computing unit, which is connected to a measuring sensor system, which transmits sensor data about current movements of the trailer to the computing unit, and which sensor data is considered by the computing unit for the determination of the turning radius. The invention also relates to a trailer, which is equipped with a device, which uses a method of this type.

The present disclosure relates to an apparatus and method for determining the angle of the target detected by the radar of the vehicle. The target angle determination apparatus may be configured to calculate a first angle of the first group target included in the radar data by using the first angle calculation algorithm with the low resolution, to determine a part of the first group target and the second group target based on the possible driving route of the host vehicle, and to calculate the second angle of the second angle target selected from the first group target by using the second angle calculation algorithm with the high resolution based on the possible driving route of the host vehicle, so that it is possible to minimize unnecessary calculation operations and reduce the system load.

A steering control device includes an electronic control unit. The electronic control unit is configured to perform end contact relaxation control for correcting a current command value such that a decrease of an end separation angle indicating a distance of an absolute steering angle from an end-position-corresponding angle is limited when the end separation angle is equal to or less than a predetermined angle and to perform partial release control for decreasing a correction value of the current command value due to execution of the end contact relaxation control based on a steering torque which is input to a steering system when a vehicle is intended to travel while turning at the time of execution of the end contact relaxation control.

A method for estimating the absolute angular position of a steering wheel equipping a power-steering device, referred to as relative steering wheel position, of the shaft of a power-steering motor is assessed, a first estimation (Angle1) of the absolute angular position of the steering wheel is assessed from at least one first model using the speed difference between the left and right rear wheels, a first dynamic offset equal to the difference between the first estimation (Angle1) of the absolute angular position of the steering wheel and the relative steering wheel position is estimated, and the absolute angular position of the steering wheel is calculated by adding to the relative steering wheel position a total compensation offset determined from the first dynamic offset, also when restarting the vehicle, a switching-off offset corresponds to the value of the total compensation offset at the time when the vehicle was previously switched off.

Examples relating to vehicle velocity calculation using radar technology are described. An example method performed by a computing system may involve, while a vehicle is moving on a road, receiving, from two or more radar sensors mounted at different locations on the vehicle, radar data representative of an environment of the vehicle. The method may involve, based on the data, detecting at least one scatterer in the environment. The method may involve making a determination of a likelihood that the at least one scatterer is stationary with respect to the vehicle. The method may involve, based on the determination being that the likelihood is at least equal to a predefined confidence threshold, calculating a velocity of the vehicle based on the data from the sensors. The calculated velocity may include an angular and linear velocity. Further, the method may involve controlling the vehicle based on the calculated velocity.

Provided is a vehicle control device capable of accurately estimating a self-vehicle location with a yaw angle error occurring when a vehicle starts to travel due to an initial phase shift between pulsed waveforms of left and right wheels when the vehicle starts to travel suppressed. The vehicle control device further estimates a direction of wheel rotation while the vehicle is at a stop. A yaw angle deviation when the vehicle starts to travel is estimated and corrected on the basis of a weighted average of discrete yaw angle values obtained immediately after the vehicle starts to travel from wheel speed sensors installed on left and right non-steered wheels of the vehicle. A yaw angle while the vehicle is at a stop and a yaw angle when the vehicle starts to travel are also estimated, and the direction of wheel rotation while the vehicle is at a stop is also estimated from a difference between the yaw angles. The yaw angle and coordinates are corrected on the basis of the estimation result.

The present disclosure relates to an apparatus and a method for estimating a steering angle of a vehicle, and an object of the present disclosure is to provide an apparatus and a method for estimating a steering angle of a vehicle capable of estimating an actual steering angle without using a steering angle sensor.

A motor driven power steering control method may include setting a virtual steering system model including a column connecting a steering wheel to a rack gear, determining a column stiffness torque using torsional displacement of the column in the set virtual steering system model, and determining a target steering torque based on the determined column stiffness torque.