Abstract: A vehicular self-diagnosis device includes first to third sensors that detect parameters to be used in steering control of a vehicle, first to third turn estimators that respectively estimate turn statuses of the vehicle based on a steering angle detected by the first sensor, vehicle behavior detected by the second sensor, and a lane curvature and a vehicle-versus-lane yaw angle of the vehicle relative to the lane curvature detected by the third sensor, an offset extractor that extracts first to third offset components respectively from signals indicating the estimated turn statuses, an offset-divergence-amount calculator that calculates a maximum divergence amount based on maximum and minimum values of the first to third offset components, and a comparison unit that compares the maximum divergence amount with a predetermined threshold value and determines that inconsistency exists among the first to third sensors if the maximum divergence amount exceeds the threshold value.

Abstract: A drive assist apparatus includes a surrounding situation recognition device, a surrounding situation determination processor, a steering-wheel holding state recognizer, a steering-wheel holding state determination processor, and a traveling control device. The surrounding situation recognition device recognizes a surrounding situation of a first vehicle to be applied with the apparatus. The surrounding situation determination processor determines the surrounding situation based on a recognition result of the surrounding situation recognition device. The steering-wheel holding state recognizer recognizes a steering-wheel holding state. The steering-wheel holding state determination processor determines the steering-wheel holding state on the basis of a recognition result of the steering-wheel holding state recognizer.

Abstract: A lane departure prevention control apparatus for a vehicle includes a traveling-environment recognition unit configured to detect lane lines, a steering-angle detector, a vehicle-behavior detector, a predicted departure determination unit, a lane departure prevention control processor, and a steering override determination unit. The predicted departure determination unit is configured to predict whether the vehicle is to depart from the lane. The lane departure prevention control processor is configured to set a target steering angle and execute a lane departure prevention control. The steering override determination unit is configured to check presence of steering override based on the driver's steering-wheel operation.

Abstract: A lane departure prevention control apparatus includes a recognizer that recognizes environment ahead of a vehicle and detects left and right lane markers of a lane where the vehicle is traveling based on the environment, a first detector that detects vehicle behavior, a determiner that predicts whether the vehicle will depart from the lane markers based on the lane markers and the vehicle behavior, a setting unit that sets a range for permitting lane departure prevention control from the lane markers, a calculator that transmits a signal corresponding to steering torque for preventing the vehicle departure from the lane markers to a steering controller when the vehicle departs from the lane markers and the vehicle is within the control permission range, and a second detector that detects a shape change in the lane. The unit variably sets the control permission range based on the shape change.

Abstract: A lane departure control apparatus for a vehicle includes a lane departure control calculator, a lane information acquiring unit, and a steering angle detector. The lane departure control calculator is configured to determine whether the vehicle is to depart from a current lane in accordance with a preset lane departure control pattern. The lane departure control calculator includes an estimated-lateral-acceleration calculator, an actual-lateral-acceleration calculator, a lane-based-lateral-acceleration calculator, a storage, and a control pattern generator. The control pattern generator is configured to compare a lane-based lateral acceleration calculated by the lane-based-lateral-acceleration calculator and a limit stored in the storage and to generate a new lane departure control pattern in a case where the lane-based lateral acceleration is over the limit.

Abstract: A vehicular self-diagnosis device includes first to third sensors that detect parameters to be used in steering control of a vehicle, first to third turn estimators that respectively estimate turn statuses of the vehicle based on a steering angle detected by the first sensor, vehicle behavior detected by the second sensor, and a lane curvature and a vehicle-versus-lane yaw angle of the vehicle relative to the lane curvature detected by the third sensor, an offset extractor that extracts first to third offset components respectively from signals indicating the estimated turn statuses, an offset-divergence-amount calculator that calculates a maximum divergence amount based on maximum and minimum values of the first to third offset components, and a comparison unit that compares the maximum divergence amount with a predetermined threshold value and determines that inconsistency exists among the first to third sensors if the maximum divergence amount exceeds the threshold value.

Abstract: A drive assist apparatus includes a surrounding situation recognition device, a surrounding situation determination processor, a steering-wheel holding state recognizer, a steering-wheel holding state determination processor, and a traveling control device. The surrounding situation recognition device recognizes a surrounding situation of a first vehicle to be applied with the apparatus. The surrounding situation determination processor determines the surrounding situation based on a recognition result of the surrounding situation recognition device. The steering-wheel holding state recognizer recognizes a steering-wheel holding state. The steering-wheel holding state determination processor determines the steering-wheel holding state on the basis of a recognition result of the steering-wheel holding state recognizer.

Abstract: A lane departure prevention control apparatus for a vehicle includes a traveling-environment recognition unit configured to detect lane lines, a steering-angle detector, a vehicle-behavior detector, a predicted departure determination unit, a lane departure prevention control processor, and a steering override determination unit. The predicted departure determination unit is configured to predict whether the vehicle is to depart from the lane. The lane departure prevention control processor is configured to set a target steering angle and execute a lane departure prevention control. The steering override determination unit is configured to check presence of steering override based on the driver's steering-wheel operation.

Abstract: A lane departure prevention control apparatus includes a recognizer that recognizes environment ahead of a vehicle and detects left and right lane markers of a lane where the vehicle is traveling based on the environment, a first detector that detects vehicle behavior, a determiner that predicts whether the vehicle will depart from the lane markers based on the lane markers and the vehicle behavior, a setting unit that sets a range for permitting lane departure prevention control from the lane markers, a calculator that transmits a signal corresponding to steering torque for preventing the vehicle departure from the lane markers to a steering controller when the vehicle departs from the lane markers and the vehicle is within the control permission range, and a second detector that detects a shape change in the lane. The unit variably sets the control permission range based on the shape change.