In one embodiment, an exemplary method of autonomously charging an autonomous driving vehicle includes receiving, from a sensor in an autonomous driving vehicle (ADV), indication that a batter level of the ADV falls below a threshold; and selecting a charging pile from a plurality of charging piles on a high definition map based on information received from a cloud server. The method further includes generating a first trajectory based on a current location of the ADV and a location of the selected charging pile, the first trajectory connecting a first point representing the current location of the ADV to a second point at the selected charging pile, and including a first segment and a second segment. The method further includes driving forward along the first segment of the first trajectory, and driving backward along the second segment of the first trajectory when the ADV drives towards the selected charging pile along the first trajectory.

A parking assistance ECU is a device that assists parking of a subject vehicle and includes a route generation unit that generates a travel route on which the subject vehicle travels, a selection unit that selects, based on the travel route, a camera used for detection of an obstacle among a front camera, a right side camera, a left side camera, and a rear camera which capture an image of a surrounding of the subject vehicle, in a case where a turning action of the subject vehicle is included in the travel route, and an obstacle detection unit that detects an obstacle which possibly contacts with the subject vehicle from a captured image captured by the camera selected by the selection unit.

A parking assist system includes a control device configured to control screen display of a display device, to set a parking position candidate selected by an occupant as a target parking position, and to control an autonomous parking operation to autonomously move the vehicle to the target parking position. When a number of the parking position candidates detected by a parking position candidate detector exceeds a predetermined upper limit number, the control device selects, from among the detected parking position candidates, the upper limit number of parking position candidates to be displayed on the display device according to a predetermined rule and causes the display device to display the parking position candidates that have been selected.

Provided are an automatic parking method, device and system, relating to the technical field of vehicles. The method comprises: receiving operating information input by a user on the condition of receiving an automatic parking start instruction (101); generating a parking control instruction according to the operating information (102); and sending the parking control instruction to a vehicle for the vehicle to complete an automatic parking operation according to the parking control instruction (103). According to the disclosure, in the process of controlling the vehicle to automatically park, a mobile terminal converts the operating information with large data capacity input by the user in the mobile terminal into the parking control instruction with small data capacity, and only sends the parking control instruction to an automatic parking system controller for the vehicle to complete automatic parking.

A remote autonomous driving control management apparatus, a system including the same, and a method thereof are provided. The remote autonomous driving control management apparatus is configured to authenticate a remote control terminal, obtains a surrounding image from an autonomous vehicle, receives a parking position from the remote control terminal, and performs autonomous parking or autonomous stop by remote control, based on the parking position and the surrounding image. The remote autonomous driving control management apparatus shares an accurate position through communication to facilitate precise remote control of the autonomous vehicle.

In a system, a parallel-parking number that is the number of the parking spaces aligned in the parallel-parking direction is acquired for each parking area. A vacancy number that is the number of vacant parking spaces is acquired for each parking area. Based on the parallel-parking number, a vacancy number threshold value is calculated that is a threshold value of the vacancy number for calculating a priority of each parking area, in one of which an automated-parking-target vehicle is to be parked. The priorities are calculated such that the priority of a parking area with the vacancy number equal to or larger than the vacancy number threshold value is higher than the priority of a parking area with the vacancy number smaller than the vacancy number threshold value. The automated-parking-target vehicle is caused to park preferentially in a parking space in the parking area with the higher priority.

The present invention refers to a method for autonomously parking a current vehicle (40) along a trained trajectory (18), comprising the steps of driving a training vehicle (12) along the trajectory (18) and determining environment information along the trajectory (18), determining trajectory information based on the environment information for parking the current vehicle (40) along the trajectory (18), storing the trajectory information from the training vehicle (12) in a personal storage (34) associated to a driver, transferring the trajectory information from the personal storage (34) to the current vehicle (40), and parking the current vehicle (40) along the trained trajectory (18).

A method for controlling a parking of a plurality of autonomous vehicles parking in a row is provided. The method includes determining a minimum row length of the row needed to park the plurality of vehicles in the row taking into account a minimum physical space including an individual vehicle length, determining at least one additional space requirement of at least one of the plurality of vehicles which is temporarily needed by said at least one vehicle for a predefined event, determining a total row length of the row determining a free space in the row, distributing the free space to the row, determining parking information for each of the plurality of vehicles based on the distributed free space, and distributing the parking information to at least some of the plurality of vehicles.

The disclosure relates to a method for reversing an articulated vehicle combination along a road curvature of a road, comprising obtaining image data representing a rearward view with respect to the articulated vehicle combination, wherein the method further comprises detecting road edges of the road in the image data; determining a plurality of longitudinal and lateral positions of the respective detected road edges; calculating road curvature of the road based on the determined lateral and longitudinal positions; calculating vehicle path curvature to stay on the road; and reversing the articulated vehicle combination by automatically steering the articulated vehicle combination to follow the calculated vehicle path curvature in order to follow the road curvature, wherein the road edges are detected by use of an image analysis algorithm which is based on a plurality of predefined types of road edges of a plurality of different road types.

A vehicle trailer detection system includes a radar system and a controller receiving object point location data from the radar system at an increased sensitivity level, storing sequential first and second object point location data sets, and applying a rotational point set registration to the first and second object point location data sets to achieve a match between a subset of persistent point locations within the first and second object point location data sets to output an estimated rotation angle. The persistent point locations in the first and second data sets are determined to correspond with detected points on a trailer coupled with the vehicle. The controller refines the estimated rotation angle by minimizing an error in matching between the persistent point locations in the first and second object point location data sets to output a determined hitch angle between the trailer and the vehicle about a coupling point.