DE102016214575B4 - Method for the automated or semi-automated driving of a motor vehicle, motor vehicle and server - Google Patents

Abstract

Method for the automated or semi-automated driving of a motor vehicle (1), wherein the motor vehicle (1) has means for determining a trajectory (9) and storing it in a map (7), wherein the motor vehicle (1) has means, in the Locate the map and then the trajectory (9) automated or semi-automated exit, wherein the motor vehicle (1) has an interface (5), by means of which card (7) and trajectory (9) is exported, the exported card (7) and Trajectory (9) another motor vehicle (10) is provided and traversed by this trajectory (9).

Description

The invention relates to a method for automated or semi-automated driving of a motor vehicle, a motor vehicle and a server.

More and more efforts have recently been made to drive motor vehicles automatically or semi-automatically. A preferred application is an automated or semi-automatic parking or parking operation. In this case, the driver may be in the motor vehicle during the parking or Ausparkvorgangs or outside. It may further be provided that the motor vehicle driver may need to monitor the automated parking process. All automated journeys have in common that the motor vehicle must have a map of the surroundings, in which case the motor vehicle automatically leaves a calculated trajectory within the map.

In particular, in parking operations, such as automated parking in a garage, no cards are available, but the motor vehicle itself must build a map and calculate the trajectory. For example, data from a camera is used for this purpose. From the data of the camera then landmarks are extracted, which are then used to build a map and for orientation. The landmarks are excellent points, which usually have a 3D coordinate and a feature vector. The trajectory then to be traced can then be calculated or learned. For example, the motor vehicle driver drives off the trajectory and this is stored. Both the calculation of the trajectory and the learning of the trajectory is time consuming.

In the DE 10 2008 002 598 A1 It is proposed that a target lane set in by a learn journey for a predetermined environment can be stored in a computer unit and the support means are adapted to use the target lane when a predetermined position of the vehicle in the specified environment and guide the driver in the lead support the vehicle along the target path.

In the DE 10 2014 013 672 A1 a method is characterized in that the evaluation based on the detected environment and the digital road map for a distance covered by the vehicle information on the suitability of this route for autonomous or semi-autonomous operation of vehicles determined, the evaluation of the information to an external server transmitted, the external server determines permission information on the permissibility of the route for the autonomous or semi-autonomous operation of vehicles depending on the information IG, and the external server transmits the permission information to the vehicles.

In the DE 10 2012 021 282 A1 an exchange of trajectories takes place in order to determine conflicts between trajectories of different motor vehicles and to adapt the trajectory of at least one motor vehicle involved in the conflict on the basis of at least one arbitration rule.

The invention is therefore the technical problem of providing a method for automated or semi-automated driving a motor vehicle available, in which the provision of a map and a trajectory is improved. Another problem is the creation of a suitable motor vehicle and a server.

The solution of the technical problem results from a method with the features of claim 1 and a server with the features of claim 5. Further advantageous embodiments of the invention will become apparent from the dependent claims.

The motor vehicle has means for determining a trajectory and storing it in a map, wherein the map is preferably constructed by the motor vehicle. Next, the motor vehicle has means to locate in the map, then the trajectory automated or partially automated exit. In this case, the motor vehicle has an interface, by means of which card and trajectory is exported. Thus, the map and the trajectory can be made available to other vehicles, which can then use them without having to calculate the map and trajectory itself. In this case, the interface can be designed, for example, such that the card and trajectory are transmitted to a mobile storage medium (for example a USB stick). Alternatively or additionally, the interface is designed as a wireless interface, which then transmits card and trajectory wirelessly. For example, the card and trajectory can be transmitted to a smartphone, from where it can be made available to other vehicles.

In one embodiment, the map and trajectory are transmitted directly to another motor vehicle or to a server. The transmission can take place by means of a Car2Car communication or another suitable RF transmission method. In particular, in the case of direct transmission to a motor vehicle, for example, the map and trajectory can be used by a second motor vehicle. Thus, the map and trajectory only have to be calculated by a motor vehicle and are then available, for example, to all vehicles of a family or vehicle fleet. Alternatively, the other motor vehicle may also be the motor vehicle of a visitor.

The transmission to a server is particularly useful if map and trajectory are to be made available to several motor vehicles. For example, it can be provided that the card and trajectory for a parking garage or a parking space are transmitted to the server. Accordingly, other vehicles can then retrieve and use this map and trajectory. In this case, the trajectory may include both a parking operation and a drive in and out of the parking garage or parking lot, i. at least one such trajectory.

In a further embodiment, parameters of the motor vehicle and / or the trajectory are exported with the map and the trajectory. For example, the size of the trajectory-determining motor vehicle and / or possible width and / or height of a free area are transmitted along the trajectory. Thus, the other motor vehicle can check whether the size of the parking space and the access route also fit this motor vehicle (for example, the map and trajectory may have been made by a small car, but the other motor vehicle received is a mid-range car).

In another embodiment, another motor vehicle may book the map and the trajectory, the server for the booking time, the map and the trajectory provides no further motor vehicle available. This makes intelligent parking management possible.

The motor vehicle is designed to drive automatically or semi-automatically, wherein the motor vehicle has means which are designed to detect a trajectory and store it in a map, which is preferably also constructed by the motor vehicle. The motor vehicle has means which are designed in such a way that the motor vehicle can locate in the map and then drive off or leave the trajectory in an automated or partially automated manner, wherein the motor vehicle has an interface which is designed such that the trajectory and the map can be exported.

The server is configured to receive and store trajectories and maps of motor vehicles and to store the stored trajectories and maps to motor vehicles or other terminals such as e.g. Smartphones can transmit.

In one embodiment, the server is designed such that a trajectory and map can be booked for a booking time, wherein the server for the booking time, the map and the trajectory provides no further motor vehicle available.

The invention will be explained in more detail below with reference to a preferred embodiment. The single figure shows a schematic situation in an automated parking process.

In the 1 is a motor vehicle 1 illustrated, which is designed to perform an automated parking operation. The car 1 has several cameras 2 , a computing unit 3 , a store 4 and an interface 5 on. By means of the cameras 2 becomes the environment of a parking space 6 captured and a card 7 with landmarks 8th built up. The landmarks 8th have 3D points with feature vectors that, for example, color and / or texture of the landmarks 8th describe. In addition, the arithmetic unit calculates 3 a trajectory 9 from the current location to the parking space 6 within the map 7 , Alternatively, the trajectory 9 also be learned or trained. Subsequently, the card 7 with the trajectory 9 in the store 4 stored. The car 1 can then automate the trajectory 9 in the parking space 6 depart. Then comes the motor vehicle 1 at a later date back into the area of the parking space 6 (eg detectable by comparing current GPS data and GPS data when creating map 7 and trajectory 9 ), the motor vehicle locates 1 using the environmental data of the cameras 2 in the map 7 and then drives the trajectory automatically 9 from. About the interface 5 can the motor vehicle 1 the map 7 and the trajectory 9 to another motor vehicle 10 transferred, then readily automated into the parking space 6 can drive. In addition or alternatively, card 7 and trajectory 9 to a server 11 then transmitted the card 7 and trajectory 9 other motor vehicles can provide.

Claims (6)

Method for the automated or semi-automated driving of a motor vehicle (1), wherein the motor vehicle (1) has means for determining a trajectory (9) and storing it in a map (7), wherein the motor vehicle (1) has means, in the Locate the map and then the trajectory (9) automated or semi-automated exit, wherein the motor vehicle (1) has an interface (5), by means of which card (7) and trajectory (9) is exported, the exported card (7) and Trajectory (9) another motor vehicle (10) is provided and traversed by this trajectory (9). Method according to Claim 1 , characterized in that the card (7) and the trajectory (9) to another motor vehicle (10) or a server (11) are transmitted. Method according to Claim 1 or 2 , characterized in that with the card (7) and the trajectory (9) parameters of the motor vehicle (1) and / or the trajectory (9) are exported. Method according to one of Claims 2 or 3 , characterized in that another motor vehicle (1) can book the card (7) and the trajectory (9), wherein the server (11) for the booking time the card (7) and the trajectory (9) no further motor vehicle available provides. Server (11), wherein the server (11) is designed such a method according to one of Claims 2 to 4 perform and that this trajectory (9) and maps (7) of motor vehicles (1) receives and stores and transmits the stored trajectories (9) and maps (7) to requesting motor vehicles that want to traverse the trajectory (9). Server after Claim 5 , characterized in that the server (11) is designed such that a trajectory (9) and a card (7) can be booked for a booking time, wherein the server (11) for the booking time the card (7) and the trajectory (9) no other motor vehicle available.

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