A system and method for estimating and communicating a path of travel of a reference vehicle by road side equipment (RSE) that includes establishing communication between the RSE and an on-board equipment of the reference vehicle and receiving vehicle parameters of the reference vehicle from the on-board of the reference vehicle. The system and method also include estimating the path of travel of the reference vehicle based on the vehicle parameters of the reference vehicle and environmental parameters determined by the RSE. The system and method further include establishing communication between the RSE and an on-board equipment of a target vehicle and communicating the estimated path of travel of the reference vehicle from the RSE to the target vehicle, wherein a probability of collision between the reference vehicle and the target vehicle is determined based on the estimated path of travel of the reference vehicle.

The invention relates to a method for a control unit (10) for stopping a vehicle (1) when stopping at different types of stop positions (2, 3, 4), the method comprising the following steps: —(S1) the control unit receiving input about a specific stop position for the vehicle, associated with when the vehicle is about to stop during a stopping sequence, the input being indicative of whether the specific stop position requires a high-precision stop or if a stop with a lower precision can be used; and —(S2) when the stop position requires a high-precision stop, the control unit controlling the stopping sequence such that the vehicle stops with a first stopping precision level with respect to the specific stop position, and when a lower precision can be used for the stop, the control unit controlling the stopping sequence such that the vehicle stops with a second stopping precision level which is lower than the first precision level. The invention further relates to a control unit and to a vehicle comprising the control unit.

The invention relates to a method for a control unit (10) for stopping a vehicle (1) when stopping at different types of stop positions (2, 3, 4), the method comprising the following steps: —(S1) the control unit receiving input about a specific stop position for the vehicle, associated with when the vehicle is about to stop during a stopping sequence, the input being indicative of whether the specific stop position requires a high-precision stop or if a stop with a lower precision can be used; and —(S2) when the stop position requires a high-precision stop, the control unit controlling the stopping sequence such that the vehicle stops with a first stopping precision level with respect to the specific stop position, and when a lower precision can be used for the stop, the control unit controlling the stopping sequence such that the vehicle stops with a second stopping precision level which is lower than the first precision level. The invention further relates to a control unit and to a vehicle comprising the control unit.

A system and method for estimating and communicating a path of travel of a reference vehicle by road side equipment (RSE) that includes establishing communication between the RSE and an on-board equipment of the reference vehicle and receiving vehicle parameters of the reference vehicle from the on-board of the reference vehicle. The system and method also include estimating the path of travel of the reference vehicle based on the vehicle parameters of the reference vehicle and environmental parameters determined by the RSE. The system and method further include establishing communication between the RSE and an on-board equipment of a target vehicle and communicating the estimated path of travel of the reference vehicle from the RSE to the target vehicle, wherein a probability of collision between the reference vehicle and the target vehicle is determined based on the estimated path of travel of the reference vehicle.

A system and method for providing vehicle collision avoidance at an intersection include determining environmental parameters associated with a vicinity of the intersection. The system and method also include estimating a path of travel of a reference vehicle and a target vehicle, wherein the path of travel of the reference vehicle and the target vehicle are based on the environmental parameters and parameters pertaining to the reference vehicle and the target vehicle. Additionally, the system the method include estimating a probability of collision between the reference vehicle and the target vehicle at the intersection based on the path of travel of the reference vehicle and the target vehicle and providing a collision avoidance response, wherein a type of the collision avoidance response is based on the probability of collision between the reference vehicle and the target vehicle at the intersection.

A method for the automated driving of a motor vehicle which provides environment data, detects objects in the environment data, selects a current scenario by a scenario-interpretation apparatus on the basis of the detected objects, wherein a scenario has at least one elementary situation which is assigned at least one monitoring region and an enable criterion as attributes, and in addition successively for each of the elementary situations of the current scenario, estimates a destination point, plans a trajectory to the destination point by a maneuver-planning apparatus, interrogates information about a monitoring region from the environment-perception apparatus by the scenario-interpretation apparatus, checks for the presence of the at least one enable criterion by the scenario-interpretation apparatus, and if the at least one enable criterion is satisfied, automated driving along the trajectory as far as the destination point by a controller. Also disclosed is an associated device.

A system for adjusting timing of coasting assistance provided by a vehicle that is approaching an intersection where the vehicle will turn or is programmed or scheduled to turn. The system includes a speed sensor configured to detect vehicle speed data. The system includes a pedal unit configured to detect brake pedal position data. The system includes an electronic control unit (ECU) configured to detect when the brake pedal is engaged and released. The ECU is configured to detect a vehicle speed when the brake pedal is released. The ECU is configured to determine, at a determination time, whether the intersection is a green light intersection or a red light intersection. The ECU is configured to detect, at an application time, when the vehicle is approaching the intersection. The system also includes a display configured to display, at the application time, a coasting assistance instruction.

A method for the automated driving of a motor vehicle which provides environment data, detects objects in the environment data, selects a current scenario by a scenario-interpretation apparatus on the basis of the detected objects, wherein a scenario has at least one elementary situation which is assigned at least one monitoring region and an enable criterion as attributes, and in addition successively for each of the elementary situations of the current scenario, estimates a destination point, plans a trajectory to the destination point by a maneuver-planning apparatus, interrogates information about a monitoring region from the environment-perception apparatus by the scenario-interpretation apparatus, checks for the presence of the at least one enable criterion by the scenario-interpretation apparatus, and if the at least one enable criterion is satisfied, automated driving along the trajectory as far as the destination point by a controller. Also disclosed is an associated device.

A system and method for providing vehicle collision avoidance at an intersection include determining environmental parameters associated with a vicinity of the intersection. The system and method also include estimating a path of travel of a reference vehicle and a target vehicle, wherein the path of travel of the reference vehicle and the target vehicle are based on the environmental parameters and parameters pertaining to the reference vehicle and the target vehicle. Additionally, the system the method include estimating a probability of collision between the reference vehicle and the target vehicle at the intersection based on the path of travel of the reference vehicle and the target vehicle and providing a collision avoidance response, wherein a type of the collision avoidance response is based on the probability of collision between the reference vehicle and the target vehicle at the intersection.

A system and method for providing vehicle collision avoidance at an intersection include receiving vehicle parameters from a reference vehicle and environmental parameters from roadside equipment. The system and method also include processing a vehicle behavioral map based on the vehicle parameters and the environmental parameters and transmitting the vehicle behavioral map to a target vehicle. The system and method additionally include processing a confidence table based on the vehicle behavioral map and vehicle parameters provided by the target vehicle. The system and method further include providing a collision avoidance response based on the confidence table, wherein the collision avoidance response is provided to the target vehicle to avoid a possible collision with the reference vehicle at the intersection.