A computer that includes a processor and memory that stores instructions executable by the processor. The instructions may include generating, at a host vehicle, a roadway friction map by: detecting a velocity change of a target vehicle; calculating friction data based on the velocity change; and storing the friction data.

The present invention provides a sensing apparatus for a vehicle, the apparatus including: a sensing unit that is configured to sense at least one of vehicle speed information, yaw rate information, and steering angle information, and to sense a forward object existing within a sensing distance set in advance; a calculator that is configured to calculate at least one of a driving curvature radius, which is calculated based on the vehicle speed information and the yaw rate information, and a steering angular speed, which is calculated based on the steering angle information; and an adjusting unit that is configured to adjust the sensing distance to be decreased when the driving curvature radius is less than, or equal to, a predetermined curvature radius or when the steering angular speed is less than, or equal to, a predetermined angular speed.

A lane departure prevention apparatus (17) has: a departure preventing device (172) for control a braking apparatus (122) to perform a departure prevention operation by applying yaw moment (M.sub.tgt) to a vehicle (1), wherein the yaw moment is generated by a difference of the braking forces between right wheels (121FR, 121RR) and left wheels (121FL, 121RL)1; and a controlling device (173) for controlling the departure prevention device so that the braking force applied to driving wheels (121RL, 121RR) becomes smaller and the braking force applied to non-driving wheels (121FL, 121FR) becomes larger when the departure prevention operation is performed and a differential apparatus (132) limits a differential rotation, compared to a case where the departure prevention operation is performed and the differential apparatus does not limit the differential rotation.

A method for performing closed-loop control of a motor vehicle having a brake system with a stability control system comprises comparing an actual yaw rate with a setpoint yaw rate which is calculated using a model. A yaw moment of a closed-loop or open-loop assistance control of an assistance system for lane guidance or transverse guidance is taken into account during the calculation of the setpoint yaw rate. An electronic brake control unit which is suitable for carrying out the method and is connected to at least one vehicle sensor, in particular a steering angle sensor, yaw rate sensor and/or wheel rotational speed sensors. The brake control unit can bring about, through actuation of actuators, a driver-independent increase in and a modulation of the braking forces at the individual wheels of the vehicle.

A lane departure prevention system includes a controller configured to control a braking force of vehicle wheels such that a lane departure prevention yaw moment is applied to a vehicle. The controller determines whether there is a likelihood that the vehicle enters a spinning state based on at least one of a difference between an actual yaw rate and a normative yaw rate of the vehicle calculated based on a steering angle, a vehicle speed, and the lane departure prevention yaw moment, and a degree of braking slip of a turning inside wheel when the lane departure prevention yaw moment is a yaw moment for preventing departure of the vehicle from a lane to a turning outside, and applies a spin prevention yaw moment to the vehicle when it is determined that there is a likelihood that the vehicle will enter the spinning state.

A lane departure preventing device includes at least one electronic control unit. The at least one electronic control unit is configured to: when there is a likelihood that a vehicle will depart from a traveling lane, calculate a prevention yaw moment, and control a brake actuator such that the prevention yaw moment is applied to the vehicle; acquire a lateral acceleration; determine whether the lateral acceleration is greater than an ideal value by a predetermined value; control the brake actuator such that the braking force matches a target braking force required to apply the prevention yaw moment to the vehicle, when the lateral acceleration is not greater than the ideal value by the predetermined value; and control the brake actuator such that the braking force is less than the target braking force, when the lateral acceleration is greater than the ideal value by the predetermined value.

A lane departure suppressing apparatus is provided with: a supporter configured to perform departure suppression support for suppressing departure of a vehicle from a driving lane on which the vehicle is currently traveling; a detector configured to detect an adjacent area adjacent to the driving lane; a calculator configured to calculate an adjacent margin width, which is width of an area in which the vehicle can perform an avoidance action, out of the adjacent area; and a controller configured to control the supporter to increase intensity of the departure suppression support as the avoidance margin width becomes smaller.

A vehicle control apparatus is provided with: a controller (i) configured to set first brake fluid pressure associated with wheels on one of left and right sides out of a plurality of wheels to be higher than second brake fluid pressure associated with wheels on the other side in order to turn a vehicle in one direction, and configured (ii) to then increase the second brake fluid pressure by using a fluid pressure difference between the first brake fluid pressure and the second brake fluid pressure, and (iii) to set the first brake fluid pressure to be lower than the second brake fluid pressure while holding the second brake fluid pressure in order to turn the vehicle in another direction, which is different from the one direction.

A driver assistance apparatus for a vehicle includes a camera configured to photograph an image of surroundings of a vehicle; an interface; and a processor. The processor is configured to detect, based on the image photographed by the camera, a lane in which the vehicle travels; acquire braking state information of the vehicle; and provide, to a steering apparatus, a signal for steering the vehicle or provide, to a brake apparatus, a signal for one-sided braking through the interface to maintain the vehicle within the lane in which the vehicle travels during a braking of the vehicle based on the acquired braking state information.

An apparatus for performing driving aid control to cause a travel trajectory of a mobile object to follow a setpoint trajectory (La) by transmitting a control command value () to a yaw moment controller capable of controlling a yaw moment of the mobile object. In the apparatus, a setpoint trajectory setter is configured to set the setpoint trajectory (La) of the mobile object. A control command value calculator is configured to calculate the control command value () based on an integrated value (I) of a lateral error that is an error between a position of the mobile object and the setpoint trajectory. The control command value calculator is further configured to decrease the integrated value (I) with decreasing a curvature () of a road on which the mobile object is traveling.