Method and apparatus are disclosed for mobile device tethering for a remote parking assist system of a vehicle. An example vehicle includes first and second wireless modules and a processor. The processor estimates a region of probability representative of possible locations of a mobile device based on a first signal strength indicator. When the region of probability overlaps a virtual boundary, the processor polls a key fob, estimates a distance of the key fob from the vehicle based on a second signal strength indicator, and when the key fob is within the virtual boundary, enable autonomous parking.

A system and a method for supporting automated valet parking, and an infrastructure and a vehicle therefor are provided. The method for operating a vehicle which supports automated valet parking includes initializing automated valet parking and receiving, from an infrastructure, a target position which is related to the vehicle and a guide route which guides movement to the target position. Additionally, the method includes performing automated driving by the vehicle along the guide route, and measuring a position of the vehicle based on behavior information of the vehicle and environmental information, while the vehicle performs the automated driving. The environmental information includes at least one among parking lot slot information, road signs, walls, pillars, and floor markings.

Provided is an automated valet parking system giving an instruction to a target vehicle by specifying a node section at which the target vehicle is located, setting a node status including information on whether passing of a node is allowed, specifying a target node that is the node including a next-passing node among unpassed nodes of the target vehicle and having a predetermined number smaller than a total number of the unpassed nodes, the next-passing node being the node through which the target vehicle passes next on the target route, and transmitting node information associated with the target node to the target vehicle. When the node status at the next-passing node is re-set from a node impassable status to a node passable status, the automated valet parking system transmits the node information of the target node ahead of the next-passing node among the unpassed nodes to the target vehicle.

A method for identifying a trailer connection for a vehicle includes storing a plurality of connection configurations as saved configurations. The connection configurations identify a hitch compatibility of a coupler of a trailer to a hitch assembly. The method further comprises capturing image data depicting the hitch assembly and processing the image data. Based on the processing of the image data, the method further identifies a detected hitch configuration of the hitch assembly as a first hitch configuration of the saved configurations.

The present invention relates to a parking assistance device, and includes: a surrounding detection part detecting surrounding information of a vehicle which is to be parked to detect a parking space where the vehicle can be parked; a parking route generation part generating a traveling route from a current position of the vehicle to the parking space; a travel controller making the vehicle travel to the parking space along the traveling route; an obstacle detection part detecting an obstacle around the vehicle; and a parking route regeneration part generating a new traveling route to avoid a collision between the vehicle and the obstacle and park the vehicle in the parking space in a case where the travel controller makes the vehicle travel to the parking space along the traveling route, wherein the travel controller makes the vehicle travel along the new traveling route when the new traveling route is generated.

A vehicle control device includes a communicator configured to communicate with a parking lot management device having a function of guiding a vehicle, a driving controller configured to perform driving control including at least one of speed control and steering control of the vehicle, and an abnormality determiner configured to determine the presence or absence of an abnormality in the parking lot management device. The driving controller is configured to perform the driving control based on guidance of the parking lot management device on the basis of information received by the communicator from the parking lot management device and to restrict the driving control based on the guidance of the parking lot management device in a case where the abnormality determiner determines that the abnormality has occurred in the parking lot management device.

A vehicle hitch assistance system includes a first image sensor in connection with a portion of the vehicle and positioned forward of a forward hitch disposed in a cargo bed of the vehicle. The system further includes a controller configured to capture first image data with the first image sensor. The first image data depicts a coupler of a trailer. The controller is further configured to identify a trailer type of the trailer based on the first image data. The trailer type is configured to connect to the forward hitch. The controller is further configured to acquire position data identifying a coupler position of the coupler in the first image data, derive a vehicle path aligning the forward hitch with the coupler, and control a maneuvering system driving the vehicle along the vehicle path.

A method for ascertaining an orientation of a trailer relative to a tractor vehicle, wherein the tractor vehicle comprises a detection device which detects a first object region on the trailer and a second object region on the trailer, including recording the first and second regions by the one detection device, providing the recording to an evaluation device, assigning first and second information items to the first and second regions, and determining the orientation of the trailer relative to the tractor vehicle on the basis of the first and second information items by the evaluation device, wherein the evaluation device is configured for recognition in the first and/or second object regions, wherein the component located inside the first and/or second object regions comprises a supporting jack and/or a supporting jack base and/or a reinforcing cross and/or a connecting shaft.

The present disclosure provides a method for parking a vehicle, an electronic device and a medium. The method comprises: acquiring parking environment data of a parking environment related to a vehicle and historical parking data in the parking environment; selecting, according to the parking environment data and the historical parking data, a constraint set for parking the vehicle from a plurality of constraint sets, the plurality of constraint sets corresponding to a corresponding parking risk level; and controlling the vehicle to park according to the selected constraint set.

A vehicle management system manages a vehicle in a management area via communication. The vehicle management system includes one or more processors. The one or more processors are configured to: acquire first vehicle information indicating at least a position of a first vehicle configured to switch between autonomous driving and manual driving; acquire second vehicle information indicating at least a position of a second vehicle that performs at least autonomous driving; determine whether a possibility of collision between the first vehicle being driven manually and the second vehicle being driven autonomously is higher than a first threshold, based on the first vehicle information and the second vehicle information; and when the possibility of collision is higher than the first threshold, instruct the first vehicle being driven manually to impose a driving limitation on the first vehicle.