An advanced driving assistance system (ADAS) provides collision avoidance control for a host vehicle. The system can include one or more sensors mounted to the host vehicle and configured to sense a driving lane in which the host vehicle is traveling and to sense an external vehicle partially engaged in the driving lane. A controller controls steering, braking, or acceleration of the host vehicle on the basis of sensing information received from the sensor. The controller determines the external vehicle partially engaged in the driving lane as a target vehicle having at least a part thereof overlapping with a lane mark of the driving lane, and performs longitudinal braking or acceleration control or lateral steering control on the host vehicle based on lateral and longitudinal positional relationships between the host vehicle and the target vehicle.

A computer-implemented method for controlling a vehicle system of a host vehicle merging with one or more remote vehicles, including receiving speed data transmitted from the one or more remote vehicles via a vehicular communication network and receiving position data of the one or more remote vehicles from the sensor system of the host vehicle that monitors an area around the host vehicle. Upon determining the one or more remote vehicles are in the area around the host vehicle based on the position data, determining a safe distance for merging into the lane based on a relative position of the host vehicle to the one or more remote vehicles. Further, controlling the vehicle system of the host vehicle according to an actual distance between the host vehicle and the one or more remote vehicles and the safe distance.

A controller for a collision warning system of a vehicle, wherein the controller comprises an input configured to receive first vehicle data indicative of one or more parameters of a first vehicle and target object data indicative of one or more parameters of a target object. The controller further comprises a processor configured to define a warning zone in dependence on the first vehicle data and to determine, in dependence on the target object data and the warning zone, a collision indicator. The controller further comprises an output arranged to output a control signal to a vehicle system in dependence on the collision indicator. Other aspects of the invention relate to a sensor system for a collision warning system, to a vehicle comprising the controller or the sensor system, to a method for a collision warning system, to a computer program product comprising instructions for carrying out the method, and to a computer readable data carrier having stored thereon instructions for carrying out the method.

Provided are a vehicle lane-changing control method and a vehicle lane-changing control device. The method includes controlling a host vehicle to travel into a neighboring to-be-turned-into lane with a first control rule, acquiring a location relation between the host vehicle and a referential lane line in a real time manner. The referential lane line is located between the host vehicle and the to-be-turned-into lane. The method further includes determining whether the location relation meets a preset changing rule, and controlling an action of the host vehicle with a second control rule corresponding to the preset changing rule in a case that the location relation meets the preset changing rule.

A driving support apparatus for an own vehicle includes a lane keeping assist control unit. When an interrupting vehicle enters ahead of the own vehicle in (i) a situation in which no preceding vehicle is present ahead of the own vehicle, or (ii) a situation in which a preceding vehicle is present ahead of the own vehicle, while a deviation angle formed between a direction of a traveling trajectory of the interrupting vehicle and a traveling direction of the own vehicle is larger than a threshold, the lane keeping assist control unit is configured not to perform a lane keeping assist control based on the traveling trajectory of the interrupting vehicle, and is configured to discard the traveling trajectory of the interrupting vehicle. On and after the deviation angle becomes equal to or smaller than the threshold, the lane keeping assist control unit is configured to perform the lane keeping assist control based on the traveling trajectory of the interrupting vehicle.

This disclosure provides a system and a method for determining a collision point of vehicle. According to the system and method, a wheel shape of an object moving in a direction crossing a travel direction of a vehicle is recognized, and a movement angle between the moving object and the vehicle is calculated using the recognized wheel shape. Also, a lateral direction speed and a longitudinal direction speed of the object are accurately calculated using a movement speed of the object and the movement angle of the object, and thus it is possible to accurately determine a time point of collision between the vehicle and the object and prevent collision between the vehicle and the object.

The invention relates to a control system which is equipped and designed for use in a motor vehicle, to determine, on the basis of environment data obtained by one or several environment sensors present on the motor vehicle, a point in time as of which a safe lane change from a fast lane to an adjoining slower lane is possible. The environment sensors are designed to provide environment data representing the area laterally ahead of, laterally next to and/or laterally behind the vehicle to an electronic control unit of the control system. The control system is at least equipped and designed to determine, during a predefined interval or continuously, in the electronic control unit driving data representing the driving situation of one's own motor vehicle from sensors present in one's own motor vehicle. One or several other vehicles using the road laterally ahead of, laterally next to and/or laterally behind one's own motor vehicle are detected by means of the environment sensors during the predefined interval or continuously in order to determine characteristic variables relating to the driving situation(s) of the one or several other vehicles. On the basis of the driving data representing the driving situation of one's own vehicle and on the basis of the characteristic variables relating to the driving situation(s) of the one or several other vehicles, it is determined whether a safety-critical area laterally next to and/or laterally behind one's own motor vehicle is free of said other vehicle(s) and the finding is output optically, haptically and/or acoustically to the driver of one's own vehicle. The control system is equipped and designed to determine, on the basis of the driving data representing the driving situation of one's own vehicle and on the basis of the characteristic variables relating to the driving situation(s) of the one or several other vehicles. In the electronic control unit the point in time as of which a safe lane change is possible. This point in time is considered to be reached when the electronic control unit determines that a rear edge of one's own motor vehicle has gone past a front edge of the other vehicle and past a safety distance adapted to legal and/or physical conditions.

When a start acceptance condition for lane change assist control (LCA) is established (S12: Yes), a driving support ECU starts transmission of a turn signal flashing command to a meter ECU (S13). In this manner, flashing of a turn signal can continue even when a driver separates his or her hand from a turn signal lever. When a turn signal turning-off condition is established under a situation in which the LCA is executed (S15: Yes), the driving support ECU stops the turn signal flashing command that has been transmitted so far (S16). With this, the flashing of the turn signal can be ended even when the driver does not perform a returning operation on the turn signal lever.

The present disclosure provides a technology that can preferably improve the usability when a user wearing a hearable device boards a vehicle. In an information processing device according to the present disclosure, a controller obtains a drive mode of a vehicle in which a user wearing the hearable device rides. When the drive mode of the vehicle is an automatic drive mode, the controller permits the operation mode of the hearable device to be set to a first mode. On the other hand, when the drive mode of the vehicle is a manual drive mode and a user wearing a hearable device is a user performing a drive operation of the vehicle, the controller sets the operation mode of the hearable device to a second mode.

A travel control device includes an acquisition section configured to acquire, as surroundings in formation while a vehicle itself is traveling, at least information regarding a first other vehicle ahead in a traveling direction and information regarding lane markings of a first lane in which the vehicle itself is traveling. The travel control unit further includes a travel control section ECU configured to compute from the information acquired by the acquisition section a separation between the first other vehicle and the lane markings, and to control travel of the vehicle itself based on the separation.