A method for providing operating mode transition for a vehicle includes receiving an input indicating a request to transition from a first operating mode of the vehicle to a second operating mode of the vehicle and determining a first planned trajectory corresponding to the first operating mode. The method also includes determining a second planned trajectory corresponding to the second operating mode. The method also includes determining a first road wheel actuator angle corresponding to the first planned trajectory and determining a second road wheel actuator angle corresponding to the second planned trajectory. The method also includes determining a difference between a current handwheel actuator angle and a handwheel actuator angle corresponding to the second road wheel actuator angle and, in response to a determination that the difference is less than a threshold, transitioning from the first operating mode to the second operating mode over a determined period.

A vehicle driver assistance system includes: a steering assist torque generation device configured to generate steering assist torque; a control device configured to control the steering assist torque generation device; and a switch configured to switch a steering mode between a manual steering mode and an automatic steering mode. The manual steering mode is a mode in which steered wheels are steered as a driver operates a steering wheel. The automatic steering mode is a mode in which the steered wheels are steered by the steering assist torque generated by the steering assist torque generation device.

Disclosed herein is a method and system for detecting, monitoring and/or controlling one or more of mobile services for a mobile communication device (also referred to herein as a Controllable Mobile Device or CMD), and in particular, when the device is being used and the vehicle, operated by the user of the device, is moving. In addition, one aspect of the invention generally relates to a method and system for modifying a user's driving behaviors, in particular to a system and method for modifying a user's unsafe driving behaviors, e.g., using one or more services of a controllable mobile device while driving, by providing a score to the user rating indicating that they are using a mobile device in a distracting way, or driving in a manner that indicates that they are distracted.

A vehicle includes an axle having left and right wheels. The vehicle further includes left and right torque-vector control devices each having an actuator with a released position, a fully actuated position, and a plurality of intermediate positions. A vehicle controller is programmed to, in response to the vehicle turning and one of the actuators being actuated, command different torques to the left and right wheels to produce torque vectoring between the wheels, wherein a difference between the torques commanded to the wheels increases as the actuator moves toward the fully actuated position and decreases as the actuator moves toward the fully released position.

A vehicle steering device includes an electric motor applying a steering force to a vehicle turning mechanism, a first setting portion setting a target assist torque in accordance with a steering torque, a second setting portion setting an angle controlling target torque for bringing an angular deviation between a target steering angle and an actual steering angle close to zero, a restriction processing portion restricting the angle controlling target torque set by the second setting portion, a first calculating portion calculating a target automatic steering torque using the angle controlling target torque after the restriction process by the restriction processing portion, and second calculating portions performing weighted addition of the target automatic steering torque and the target assist torque in accordance with a value that changes in accordance with a driver input to calculate a target motor torque that is a electric motor target motor torque value.

A driving skill evaluation system configured to evaluate a driving skill of a driver includes a correction operation detection unit configured to detect a correction operation of a driving operation of the driver, a cause estimation unit configured to perform an estimation of a cause of the correction operation based on vehicle traveling state information at a time point when the correction operation is performed and vehicle traveling state information at time points before a predetermined period and after a predetermined period of the time point when the correction operation is performed, and an evaluation unit configured to evaluate the driving skill of the driver based on a result of the estimation.

A manual steering command value generation unit generates a manual steering command value using steering torque. An integrated angle command value computation unit computes an integrated angle command value by adding the manual steering command value to an automatic steering command value. A control unit performs angle control on an electric motor on the basis of the integrated angle command value. The control unit includes: a basic torque command value computation unit that computes a basic torque command value on the basis of the integrated angle command value; a disturbance torque estimation unit that estimates disturbance torque other than motor torque that is generated by the electric motor and acts on an object to be driven by the electric motor; and a disturbance torque compensation unit that corrects the basic torque command value in accordance with the disturbance torque.

A vehicle driver assistance system includes: a steering assist torque generation device configured to generate steering assist torque; a control device configured to control the steering assist torque generation device; and a switch configured to switch a steering mode between a manual steering mode and an automatic steering mode. The manual steering mode is a mode in which steered wheels are steered as a driver operates a steering wheel. The automatic steering mode is a mode in which the steered wheels are steered by the steering assist torque generated by the steering assist torque generation device.

Provided are an apparatus and a method for controlling a motor driven power steering system. The apparatus may include an MDPS basic logic unit configured to determine a first auxiliary command current in a manual driving mode of a vehicle, an autonomous driving steering control unit configured to determine a second auxiliary command current in an autonomous driving mode, a filter unit configured to filter the column torque so that noise torque is removed, and a control unit configured to control whether to activate the filter unit according to whether a predefined sudden steering condition is satisfied, to determine a driver's steering intervention based on selectively filtered column torque, to determine a final auxiliary command current by applying a weight to the first and second auxiliary command currents, and to control switching from the autonomous driving mode to the manual driving mode.

A vehicle control apparatus includes an automatic steering control device. The automatic steering control device includes an override determiner, a target steering angle setter, and a target torque setter. The target steering angle setter sets a target steering angle in automatic steering control, based on surrounding information and running condition information. The target torque setter sets a target torque for making the vehicle turn so that a steering angle of the vehicle becomes the target steering angle set by the target steering angle setter. If a steering intention has been detected by the override determiner, during the steering intention being detected, the target steering angle setter sets the steering angle a predetermined length of time before, as the target steering angle.