An apparatus for controlling a lane change of a vehicle includes: a sensor to sense an external vehicle, an input device to receive a lane change command from a driver of the vehicle, and a control circuit to be electrically connected with the sensor and the input device. The control circuit may receive the lane change command using the input device, calculate a minimum operation speed for lane change control, and determine whether to accelerate the vehicle based on a distance between a preceding vehicle which is traveling on the same lane as the vehicle and the vehicle, when a driving speed of the vehicle is lower than the minimum operation speed when receiving the lane change command.

An apparatus for providing a traveling in a vehicle is provided. The apparatus includes a plurality of sensors configured to obtain information about the vehicle and information about an external object, a steering device, an input device configured to receive a lane change command from a driver of the vehicle, and a control circuit configured to be electrically connected with the one or more sensors, the steering device, and the input device. The control circuit is configured to control the vehicle to travel along a deviated path in a driving path of the vehicle based on at least one of the information obtained by the plurality of sensors or an operation of the steering device, to complete a lane change, and to control the vehicle to travel along a deviated path in a target lane of the changed lane in response to the received lane change command.

An apparatus for controlling driving in a vehicle is provided. The apparatus includes one or more input devices configured to receive an input from a driver of the vehicle and a control circuit electrically connected with the one or more input devices. The control circuit is configured to activate a lane change when a first input for the lane change is received via the one or more input devices, initiate a lateral movement for the lane change when a second input for the lane change is received via the one or more input devices within a first time interval after the first input, and cancel the lane change when the second input is not received within the first time interval after the first input.

The disclosure relates to a device for recognizing an intention of a driver for a lane change assistant in an at least partially autonomous motor vehicle, a corresponding system, and a method and computer program. It is provided that steering of a driver does not directly cause lateral acceleration, as is currently the case, but rather serves the vehicle as an input medium for the intention of the driver to imminently initiate lateral acceleration, for example a turn-off procedure or a change of travel lane. As a result of the signal from the control element, a safe, drivable trajectory that will subsequently be traveled automatically by the vehicle is calculated. This may also include more complex driving maneuvers, such as a change of multiple travel lanes. As a result, driving is made more convenient and safer.

A lane change controller determines whether lane change is available or unavailable on the basis of a detection result of an obstacle by a radar and an obstacle recognizer in response to detection of a winker operation by an operation detection unit. A lane keep controller continues lane keep control if the operation detection unit detects the winker operation during the lane keep control and if the lane change controller determines that the lane change is unavailable.

A vehicle hitching assistance system including a controller determining a trailer target area to a rear of the vehicle. The trailer target area is positioned within left and right lateral vehicle steering limits, defined in a lateral direction between left and right boundaries respectively spaced inwardly of the left and right lateral vehicle steering limits by one of a system perception factor or a vehicle geometry factor, and defined in a longitudinal direction between a minimum movement limit and a maximum perception limit. The controller further identifies a trailer coupler within the trailer target area and outputs a steering signal to the vehicle to cause the vehicle to steer to align a hitch ball of the vehicle with the coupler during movement of the vehicle.

Sensor data and data from V2V messages are used to detect obstacles. Additional obstacles are identified in map data according to a vehicle's position. In response to detecting a turn intent, a controller calculates a turn path according to the detected obstacles and properties of the vehicle. The turn path is presented to a user, such as by display on a HUD or superimposing the turn path on an image from a forward facing camera. A desired steering angle to traverse the turn path may be displayed, such as relative to the current steering angle of the vehicle. Notifications regarding the path and turning intent of other vehicle may be displayed along with the turn path.

An apparatus for controlling drive of a vehicle includes an input device, and a control circuit. The control circuit performs a lane keeping control on a driving lane of the vehicle for a first time duration, when receiving a first input for changing a lane from the driver through the input device, performs a line access control such that the vehicle moves toward a line positioned in a direction of a target lane for the changing of the lane, after completing the lane keeping control for the first time duration, when receiving a second input for changing the lane from the driver through the input device after receiving the first input, and performs a lane entrance control toward the target lane when the line access control is completed within a second time duration.

When a host vehicle enters a roundabout, a controller computes a travel route over which a host vehicle and executes driving assist control so that the host vehicle travels along the travel route. In this driving assist method, an exiting illumination area, where a direction indicator light indicating that the host vehicle is to exit a roundabout is to be illuminated based on the travel route. While the host vehicle is traveling on the roundabout, an assessment is made as to whether or not the host vehicle has arrived at the illumination area. When the host vehicle is to exit the roundabout and the host vehicle is assessed to have arrived at the illumination area, control is performed to determine to illuminate the direction indicator light that indicates the host vehicle is to exit the roundabout.

Sensor data and data from V2V messages are used to detect obstacles. Additional obstacles are identified in map data according to a vehicle's position. In response to detecting a turn intent, a controller calculates a turn path according to the detected obstacles and properties of the vehicle. The turn path is presented to a user, such as by display on a HUD or superimposing the turn path on an image from a forward facing camera. A desired steering angle to traverse the turn path may be displayed, such as relative to the current steering angle of the vehicle. Notifications regarding the path and turning intent of other vehicle may be displayed along with the turn path.