EP3378049A1

EP3378049A1 - Method and apparatus for operating a car park comprising a plurality of infrastructure elements

Info

Publication number: EP3378049A1
Application number: EP16766549.6A
Authority: EP
Inventors: Stefan Nordbruch
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2015-11-20
Filing date: 2016-09-16
Publication date: 2018-09-26
Also published as: WO2017084787A1; US20180322786A1; CN108292476A; DE102015222915A1; US10713949B2

Abstract

The invention relates to a method for operating a car park comprising a plurality of controllable infrastructure elements, wherein one or more of the infrastructure elements is/are controlled in such a way that traffic is prevented from getting close to a driverless vehicle driving within the car park. The invention further relates to a corresponding device, a corresponding car park, and a computer program.

Description

Description title

Method and device for operating a multi-controllable infrastructure elements parking lot

The invention relates to a method and a device for operating a multi-controllable infrastructure elements comprehensive parking. The invention further relates to a parking space for vehicles and a computer program.

State of the art

The published patent application DE 10 2012 222 562 A1 shows a system for managed parking areas for transferring a vehicle from a start position to a destination position.

In a fully automated (autonomous) so-called valet parking a vehicle is parked by his driver at a delivery point, for example in front of a parking garage and from there the vehicle drives itself in a parking position / parking bay and back to the delivery point.

In the fully automated valet parking, therefore, usually no driver is seated in the vehicle itself. Such a vehicle may be referred to as a driverless vehicle. If there are still other persons or other vehicles, that are manually guided, ie by a driver, within the parking lot, a so-called mixed traffic may occur. A mixed traffic refers to a traffic formed by manually guided vehicles or persons and driverless guided vehicles. In other words, in the context of fully automated valet parking, manually operated vehicles and, for example, pedestrians may be present. In such a mixed traffic, for example, there may be situations that can usually be controlled among real persons, for example, by hand-drawing. This is usually not possible in a situation between a manually guided vehicle and a driverless guided vehicle. An example of such a situation is, for example, a situation in which it is unclear which vehicle or person has priority.

Thus, it may cause problems in a mixed traffic within the parking lot. Operation of the parking space can thus be disturbed.

Disclosure of the invention

The object underlying the invention is to provide an efficient concept based on which a parking space comprising several controllable infrastructure elements can be efficiently operated.

This object is achieved by means of the subject matter of the independent claims. Advantageous embodiments of the invention are the subject of each dependent subclaims.

According to one aspect, a method is provided for operating a parking space comprising a plurality of controllable infrastructure elements, wherein one or more of the infrastructure elements are controlled such that an approach of traffic to a driverless vehicle within the parking space can be prevented.

According to yet another aspect, there is provided an apparatus for operating a parking space comprising a plurality of controllable infrastructure elements, comprising control means for controlling one or more of the infrastructure elements such that an approach of traffic to one within the

Parking lot driverless driving vehicle can be prevented.

In yet another aspect, there is provided a parking space for vehicles comprising a plurality of controllable infrastructure elements and the apparatus for operating a parking space comprising a plurality of controllable infrastructure elements. According to another aspect, a computer program is provided which comprises program code for carrying out the method for operating a parking space comprising several controllable infrastructure elements when the computer program is executed on a computer.

The invention thus includes, in particular and among other things, the idea of controlling or activating the infrastructure elements of the parking space in such a way that an approach of traffic to a vehicle driving without a driver within the parking space can be prevented on account of the control or activation. As a result, the technical advantage in particular that the parking space can be operated efficiently.

A traffic within the meaning of the present invention comprises in particular persons and / or manually guided vehicles and / or other driverless vehicles.

A vehicle in the sense of the present invention is, for example, a motor vehicle. A motor vehicle is, for example, a passenger car or a truck. The motor vehicle is, for example, a two-wheeled motor vehicle, for example a motorcycle.

The traffic within the parking space thus denotes the persons respectively the manually guided vehicles respectively the further driverless driving vehicles, which are located within the parking lot.

In particular, a driverless vehicle refers to a vehicle which drives autonomously, ie independently, within the parking space. In particular, a driverless vehicle refers to a vehicle that is remotely controlled. In particular, a driverless vehicle refers to a vehicle which, for example, is remotely controlled by a section and autonomously drives a further section.

This means that in a driverless vehicle no driver has to drive the vehicle. A manually-guided vehicle denotes a vehicle in which a driver is located to guide the vehicle. The driver thus manages the vehicle manually. In such a manual guidance of the vehicle, it may be provided, for example, that the driver is assisted here by one or more driver assistance systems. Nevertheless, the presence of the driver is imperative for the vehicle to be driven or guided within the parking lot.

The wording "respectively" includes in particular the wording "and / or".

A parking space according to the present invention may be referred to as a parking area and serves as a parking area for vehicles. In particular, the car park forms a continuous area that has several parking spaces (in the case of a car park on private land) or parking stands (in the case of a car park on public land). The parking lot is formed according to one embodiment as a parking garage. The parking lot is formed according to one embodiment as a parking garage.

A controllable infrastructure element in the sense of the present invention designates in particular an element or a device of the parking space, which respectively can be controlled, ie is controllable. For example, a pillar of a parking garage is an infrastructure element of the parking lot, but not a controllable infrastructure element. A pillar can not be controlled. By contrast, an elevator system of the parking garage is a controllable infrastructure element. Because an elevator system can be controlled, so it is controllable.

This means that a controllable infrastructure element designates an infrastructure element by means of which, for example, it is possible to interact or which, for example, can be actuated, for example, be actuated mechanically and / or electronically. The plurality of controllable infrastructure elements comprise at least one or more of the following controllable infrastructure elements: elevator installation, traffic signal system, barriers, doors, in particular gates, lighting, loudspeakers. According to one embodiment, it is provided that controlling the one or more infrastructure elements includes not opening an elevator door of an elevator installation until the driverless vehicle has passed the elevator door. As a result, in particular, the technical advantage is achieved that persons who emerge from the elevator system, more precisely from an elevator car, or come out, no longer can cross the driverless driving vehicle (analogously, this applies to vehicles that are transported by the elevator system, only that leave the elevator car and do not exit). In particular, these persons can no longer approach the driverless vehicle, insofar as the driverless vehicle has already passed the elevator door and thus the elevator installation.

According to one embodiment, the elevator installation is a passenger elevator installation. In another embodiment, the elevator installation is a vehicle lift installation. So that means that a passenger lift system is designed to transport people. A vehicle lift is designed to transport one or more vehicles. The executions made in connection with the persons who wish to exit the elevator installation likewise apply analogously to a vehicle lift installation from which one or more vehicles want to leave. Here, too, it is provided in particular that the elevator door is only opened when the driverless vehicle has passed the elevator door. According to a further embodiment, it is provided that controlling the one or more infrastructure elements comprises controlling a traffic signal system such that a signal transmitter of the traffic signal system sends out a stop signal to signal the traffic that it should stop. As a result, the technical advantage in particular that traffic is efficiently signaled that it should stop. Thus, it can therefore be effectively avoided in an advantageous manner that the traffic continues to approach the driverless vehicle.

According to a further embodiment, instead of or in addition to the traffic signal system, an acoustic signal system is provided which comprises an acoustic signal transmitter. The controlling then comprises in particular that this acoustic signaling system is controlled such that the acoustic signal transmitter of the acoustic signal system emits an acoustic stop signal to signal the traffic that it should stop.

According to a further embodiment, it is provided that controlling the one or more infrastructure elements comprises closing a barrier.

As a result, the technical advantage, in particular, is achieved that can effectively prevent traffic from continuing to move.

In another embodiment, it is contemplated that controlling the one or more infrastructure elements includes closing a door.

This has the technical advantage, in particular, that traffic can be prevented efficiently from progressing. Thus, for example, it may be caused that the traffic can not enter a predetermined range any more, with the driverless vehicle traveling within the predetermined range.

According to one embodiment, it is provided that the device for operating a parking space comprising several controllable infrastructure elements is designed or set up to execute or execute the method for operating a parking space comprising several controllable infrastructure elements. Technical functionalities of the device result analogously from corresponding technical functionalities of the method and vice versa.

According to one embodiment, an environmental sensor system is provided, wherein the environmental sensor system comprises one or more environmental sensors, which are spatially distributed within the parking space. An environmental sensor is, for example, one of the following environmental sensors: radar sensor, ultrasound sensor, blood sensor, infrared sensor, video sensor, laser sensor and magnetic sensor. This means in particular that by means of the environmental sensor system, an environment detection can be carried out within the parking lot, respectively carried out. Based on the environment detection can be determined, for example, respectively, it is determined where the traffic or the driverless vehicle is located within the parking lot. Accordingly, according to one embodiment, it is then provided that the control of the one or more infrastructure elements is performed based on the environment detection.

This causes, for example, the technical advantage that an approach can be effectively prevented insofar as it is now known where the driverless vehicle or the traffic is located. Thus, for example, no barriers must be closed, which are very far away from the driverless driving vehicle, since it is in a traffic, which is also very far away from the driverless vehicle, usually can not come to a mixed traffic.

The invention will be explained in more detail below with reference to preferred embodiments. Show here

1 shows a flow diagram of a method for operating a parking space comprising several controllable infrastructure elements,

Fig. 2 shows an apparatus for operating a multi-controllable infrastructure elements comprehensive parking lot and

Fig. 3 a parking lot for vehicles. 1 shows a flowchart of a method for operating a parking space comprising several controllable infrastructure elements.

It is provided in accordance with a step 101 that one or more of the infrastructure elements are controlled or controlled in such a way that an approach of traffic to a vehicle driving without a driver within the parking space can be prevented.

For example, it is provided that an elevator door of an elevator system is only opened when the driverless vehicle has passed the elevator door. For example, it is provided here that the driverless vehicle is tracked or tracked by means of an environmental sensor system. Only when it is determined based on the tracking or the Umfassungsfassung that the driverless vehicle has passed the elevator door, the elevator door is opened.

For example, it is provided that a signal generator of the traffic signal system by means of appropriate control of the traffic signal system emits a stop signal to signal the traffic that it should stop. For example, a manually controlled vehicle can be signaled that it should stop in order to drive past the driverless vehicle.

FIG. 2 shows a device 201 for operating a parking space comprising several controllable infrastructure elements.

The device 201 comprises a control device 203 for controlling one or more of the infrastructure elements such that an approach of traffic to a vehicle driving without a driver inside the parking space can be prevented.

In one embodiment, device 201 includes a communication interface for communicating with at least one or more of the infrastructure elements. For example, according to one embodiment, it is provided that for controlling the control device 203 corresponding control sends commands or control signals to the infrastructure elements via the communication interface. For example, the controller 203 communicates a control command to an elevator system via the communication interface so that it opens the elevator door in response to the control command. It is provided that the control command is sent to the elevator installation only when it is determined, for example by means of an environmental sensor system, that the driverless vehicle has passed the elevator door.

This means that the communication interface is designed to communicate with the infrastructure elements via a communication network. The communication network includes, for example, a wireless and / or wired communication network. A wireless communication network includes, for example, a Wi-Fi network and / or a cellular network. According to one embodiment, the wireless communication network comprises a communication network according to the LoRa standard. "LoRa" stands for "low-power wide-range communication". The communication network thus according to one embodiment comprises a LoRa communication network. The wired communication network is, for example, an Ethernet communication network.

In one embodiment, communication over the communications network is encrypted, respectively. Fig. 3 shows a parking lot 301 for vehicles.

The parking lot 301 includes a plurality of controllable infrastructure elements 303, 305, 307, 309. The parking lot 301 includes the device 201 of FIG. 2. For example, the infrastructure element 303 is an elevator installation. The infrastructure element 305 is a barrier, for example. The infrastructure element 307 is, for example, a traffic signal system. The infrastructure element 309 is, for example, a door, in particular a gate. That is to say, the device 201 controls, by means of the control device 203, these multiple infrastructure elements 303, 305, 307, 309 in such a way that an approach of traffic, which is located within the parking space, to a driverless vehicle, which also drives within the parking space , can be prevented.

The invention therefore includes, in particular and among other things, the idea of providing an efficient technical concept by means of which problems which can arise due to mixed traffic can be reduced. The basic idea according to the invention can be seen, in particular, in that a mixed traffic in the vicinity of the respective driverless vehicle can be reduced.

A driverless vehicle may be commonly referred to as an AVP vehicle.

"AVP" stands for "Automated Valet Parking" and can be referred to as automatic parking. Such an AVP vehicle is in particular designed to carry out an automatic parking operation. That is to say, the AVP vehicle is designed to drive from a delivery position at which the vehicle has been parked by a driver of the vehicle without a driver to a parking position of the parking space and to park there. The AVP vehicle is configured to run without driver from this parking position to a pick-up position at which the driver can pick up his vehicle. The pickup position is formed, for example, identical to the dispensing position. For example, these positions are different from each other within the parking lot.

The prevention of mixed traffic, so in general an approximation of traffic to the driverless driving vehicle can be reduced or prevented in particular by an access or proximity of manually guided vehicles and people, ie people, is prevented to driverless driving vehicle. For example, a parking lot management or parking management system is provided, which is an operation of the Car park managed. The parking management system includes, for example, the device 201.

The prevention is carried out in particular when the respectively the AVP vehicles are on the road, thus driving without a driver within the parking lot. In still standing AVP vehicles is especially provided that they do not even drive off.

The prevention of access, in particular of temporary access, is achieved in particular by the fact that the device, generally the parking space management system, has access to the entire infrastructure, that is to say access to the controllable infrastructure elements. Examples of such infrastructure elements are, for example, traffic lights (colloquially also called traffic lights), barriers, doors, especially gates, elevators (ie elevator systems).

As a result, the parking management system can prevent, for example, people or vehicles from crossing too closely or approaching too closely a travel path of the AVP vehicle. For example, it is envisaged that an elevator door (elevator door) does not open until the AVP vehicle has passed the elevator door.

Claims

A method for operating a parking space (301) comprising a plurality of controllable infrastructure elements (303, 305, 307, 309), wherein one or more of the infrastructure elements (303, 305, 307, 309) are controlled (101) in such a way that traffic converges a within the parking lot (301) driverless driving vehicle can be prevented.

The method of claim 1, wherein controlling the one or more infrastructure elements (303, 305, 307, 309) comprises not opening an elevator door of an elevator installation (303) until the driverless vehicle has passed the elevator door.

The method of claim 1 or 2, wherein controlling the one or more infrastructure elements (303, 305, 307, 309) comprises controlling a traffic signal system (307) such that a signal generator of the traffic signal system (307) emits a stop signal to signal traffic that it should stop.

The method of any one of the preceding claims, wherein controlling the one or more infrastructure elements (303, 305, 307, 309) comprises closing a barrier (305).

The method of any preceding claim, wherein controlling the one or more infrastructure elements (303, 305, 307, 309) comprises closing a door (309).

Device (201) for operating a parking space (301) comprising a plurality of controllable infrastructure elements (303, 305, 307, 309), comprising a control device (203) for controlling one or more of the infrastructure elements (303, 305, 307, 309) such that an approximation of traffic to a within the parking lot (301) driverless driving vehicle can be prevented.

Parking lot (301) for vehicles, comprising a plurality of controllable infrastructure elements (303, 305, 307, 309) and the device (201) according to claim 6.

8. Computer program comprising program code for carrying out the method according to one of claims 1 to 5, when the computer program is executed on a computer.