A method, system and computer-usable medium are disclosed for autonomous vehicle (AV) behavior synchronization. The AV driving pattern is adjusted to facilitate an occupant's satisfaction by receiving information as to person to form a driving history. The driving history is analyzed to identify preferences and patterns. Based on the driving history a driving preference model is formed for the person. AV driving algorithm(s) are adjusted based on the driving preference model for the person when the person is an occupant of the AV.

Various systems and methods are disclosed for predicting, detecting or mitigating motion sickness of one or more occupants of a vehicle. Also, disclosed are systems and methods for measuring aspects of head motion and characteristics of at least one eye an occupant of a vehicle and using that information mitigate motion sickness.

A system and method for controlling backlash in a vehicle powertrain includes the step of controlling a torque request of the powertrain with a first control strategy after an occurrence of a backlash predictor and prior to an occurrence of backlash. The first control strategy is modified when backlash occurs during the first control strategy. The torque request is controlled with the modified first control strategy after another occurrence of a backlash predictor and before another occurrence of backlash.

A vehicle control apparatus includes a microprocessor configured to perform: recognizing a surrounding situation of a subject vehicle; controlling a traveling actuator so that the subject vehicle travels along a target path generated based on a recognition result; and predicting, when an object is recognized in a current lane or in an adjacent lane, whether a passing run is occur based on a relative speed with the object. The generating includes, when the passing run is predicted to occur, generating the target path so that the subject vehicle executes an offset driving in which the subject vehicle is offset in a vehicle width direction relative to the object, and so that an acceleration of the subject vehicle in the vehicle width direction while shifting to or returning from the offset driving is equal to or less than a predetermined value.

A traveling control apparatus includes a microprocessor configured to perform: determining whether a second other vehicle is located within a predetermined range from a subject vehicle when the subject vehicle and a first other vehicle are closer than a predetermined degree in a traveling direction, when the first other vehicle traveling in a first adjacent lane adjacent to a current lane, which has a same traveling direction as the current lane, and the second other vehicle traveling in a second adjacent lane adjacent to the current lane are recognized; and when it is determined in the determining that the second other vehicle is located within the predetermined range, controlling a actuator so that a distance in the traveling direction from the subject vehicle to the first other vehicle becomes not less than a predetermined distance.

A vehicular personalized adaptive cruise control system includes a forward-viewing camera viewing forward through a windshield of a vehicle, and an electronic control unit disposed at the vehicle. When the vehicle is operating in an adaptive cruise control mode, the system controls driving of the vehicle. When the equipped vehicle is not operating in the adaptive cruise control mode, a driver present in the vehicle drives the vehicle. The system identifies the driver via processing of image data captured by a cabin monitoring camera. When the identified driver drives the vehicle with the vehicle not operating in the adaptive cruise control mode, the system determines and stores personalized parameters for the identified driver. With the identified driver present in the vehicle, and when the vehicle is operating in the adaptive cruise control mode, the system uses the determined personalized parameters.

A vehicle traveling control device includes an electronic control unit and an actuator. The electronic control unit is configured to specify a tracked preceding vehicle and calculate a tracking target acceleration. The electronic control unit is configured to select the tracking target acceleration as a final target acceleration when a blinker operation is not executed, and select a first acceleration equal to or higher than the tracking target acceleration as the final target acceleration when the blinker operation is executed. The electronic control unit is configured to select a second acceleration lower than the first acceleration as the final target acceleration when a vehicle speed of the passing lane preceding vehicle is equal to or lower than that of the host vehicle. The actuator is configured to control the host vehicle such that an actual acceleration of the host vehicle approaches the final target acceleration.

A physical function inspection device includes a target person selection unit that selects a target person for physical function inspection from passengers of a vehicle, a behavior detection unit that detects the behavior of the target person when the vehicle is traveling, and an evaluation unit that evaluates the physical function of the target person based on the behavior of the target person.

The present application discloses an intelligent driving system with an embedded driver model. The system includes a driver model module that can tune vehicle performances according to driving characteristics of a driver and road environment. Applying the system provided by the present application to vehicle control systems, the driver's visual and tactile information may be taken into account when driving a vehicle, so as to tune vehicle performances to allow the vehicle to adapt itself to the individual driver.

In a case where automatic lane change control is performed, a traveling lane and another lane as a lane change destination are displayed on a display unit based on lane change information, and a guide indication of a lane change starting position or a lane change finishing position is displayed on the displayed traveling lane or the displayed another lane.