A method for operating a motor vehicle (2) with a parking assistant (4), which is operable in an in-vehicle operating mode (SM) and a remote parking operating mode (RM), with the steps: (S100) reading data (D) indicative of a parking situation of a detected parking space (6), (S200) evaluating the data (D) to determine an output signal (AS) indicative of the in-vehicle operating mode (SM) or the remote parking operating mode (RM), and (S300) outputting the output signal (AS).

Embodiments are directed to a trailer maneuvering assistant system onboard a vehicle to communicate with and receive control instructions from a mobile device app. In one example embodiment, the app interface presents the user with an engagement input area and a curvature command area. The user must provide two types of touch inputs to the user interface portions: a first touch input that includes a complex gesture input in the engagement interface portion. In one example embodiment the complex gesture may be user input of a closed geometric shape such as a circle, oval, rectangle, or some other shape. The input may be complex in that it matches a canonical model for the respective shape. Matching may include an input that is coterminous with the canonical model within a threshold amount of error, and/or meets another guideline or threshold such as being a closed shape, or some other predetermined requirement(s).

A method of processing an image using a camera of a vehicle includes: a first operation of controlling a road wheel of the vehicle according to an imaging mode selected by a user from among a plurality of imaging modes, and a second operation of generating an image according to the imaging mode selected by the user by using the camera while the road wheel of the vehicle is controlled.

A parking control method causes a control device of a vehicle to execute a first control instruction for moving the vehicle along a first route to a target parking space, on the basis of an operation command acquired from an operator located outside the vehicle. This method includes, when execution of the first control instruction is suspended or canceled, calculating a second route for the vehicle to leave with a predetermined distance or more from an object detected around the vehicle and causing the control device to execute a second control instruction for moving the vehicle along the second route.

A device localization system for a vehicle and a mobile device configured as a Phone-as-a-Key (PaaK) is described. The system includes a fob-free mode for performing remote control vehicle features using a selective mobile device localization technique that reduces motive functionality of the vehicle, based location of a user performing the vehicle control during the remote-control operation. The system determines a geographic position of a user using a single Bluetooth® Low Energy (BLE) antenna, and establishes establish a high-fidelity zone based on a change in mobile device position. The system reduces a motive functionality of the vehicle, based on the selective mobile device localization, from a first motive mode having a full motive functionality to a second motive mode responsive to determining that the mobile device is not present in the high-fidelity zone.

The disclosure generally pertains to a vehicle maneuvering system that includes a personal communication device configured to provide enhanced feedback during vehicle maneuvering operations. In an example scenario, an individual executes a remote-control action upon a personal communication device such as, for example, by swiping a finger across a touchscreen. The personal communication device communicates with a vehicle controller to maneuver the vehicle. Enhanced feedback pertaining to the movement of the vehicle, such as a direction and/or a speed of movement, is provided via the personal communication device in various formats. Some examples include a directional haptic vibration that moves in the personal communication device in correspondence to the movement of the vehicle (and/or a trailer attached to the vehicle), a spatial audio signal that is produced in spatial correspondence with the movement of the vehicle/trailer, and/or an icon that moves spatially on the touchscreen in correspondence with the vehicle/trailer.

A remote control system for a vehicle including: a user terminal; and a vehicle configured to transmit/receive information to/from the user terminal through a communication network. The vehicle performs first authentication on a user by comparing a captured image of the user to a reference image in response to an unlocking signal or start-up request signal received from the user terminal, and transmits second authentication pre-processing information to the user terminal, the second authentication pre-processing information being obtained by generating an encryption key from a feature vector extracted from the image of the user and encrypting unique information of the user. The user terminal performs second authentication on the user by decrypting the second authentication pre-processing information received from the vehicle with a decryption key stored therein.

A method and apparatus is provided for controlling the operation of an autonomous vehicle. According to one aspect, the autonomous vehicle may track the trajectories of other vehicles on a road. Based on the other vehicle's trajectories, the autonomous vehicle may generate a pool of combined trajectories. Subsequently, the autonomous vehicle may select one of the combined trajectories as a representative trajectory. The representative trajectory may be used to change at least one of the speed or direction of the autonomous vehicle.

A program stored in a mobile terminal including a computer, a camera, a display, and a communication device, the program being configured to operate an operation target vehicle from outside with use of the mobile terminal, the operation target vehicle being registered in advance, the program causing the computer to execute: a step of estimating a distance from the mobile terminal to the operation target vehicle based on a size of an image of the operation target vehicle included in a photographed image of the camera; a step of determining whether or not the estimated distance is less than a prescribed threshold; a step of receiving an operation instruction with respect to the operation target vehicle when the estimated distance is less than the threshold; and a step of causing the communication device to output a signal instructing an operation in response to the received operation instruction.

A drive assist device installed in a tractor vehicle having a connection portion to be connected to a vehicle to be towed, includes: an image acquisition unit which acquires an image taken from a camera that shoots a scene in a shooting range including the connection portion; a position detection unit which detects a position of a counterpart connection portion, to be connected to the connection portion, of the vehicle to be towed; a predicted line generation unit which generates a predicted course line that the connection portion is expected to follow based on a steering angle of the tractor vehicle; a deviation calculation unit which calculates a deviation between the counterpart connection portion and the predicted course line as defined herein; a support image generation unit which generates a support image as defined herein; and an image synthesis unit which generates a synthesized image as defined herein.