WO2020008598A1

WO2020008598A1 - Automatic driving control device, information communication terminal, automatic driving control system, automatic driving control method, and parking spot designation method

Info

Publication number: WO2020008598A1
Application number: PCT/JP2018/025557
Authority: WO
Inventors: 賢太朗重本; 下谷　光生
Original assignee: 三菱電機株式会社
Priority date: 2018-07-05
Filing date: 2018-07-05
Publication date: 2020-01-09
Also published as: JP6793884B2; JPWO2020008598A1

Abstract

In this automatic driving control device (10), a parking spot image acquisition unit (11) receives parking spot image data consisting of a photographed image of a destination with attached information about a parking spot for a vehicle (1). An analysis unit (13) uses the parking spot image data and map information to specify the destination and the parking spot on a map. The automatic driving control unit (161) uses the position of the vehicle (1) and the map information to carry out automatic driving for driving the vehicle (1) to the parking spot at the destination. After the vehicle (1) arrives at the destination, an automatic parking control unit (162) carries out automatic parking for parking the vehicle (1) at the parking spot on the basis of the positions of objects around the vehicle (1).

Description

Automatic driving control device, information communication terminal, automatic driving control system, automatic driving control method, and method for specifying parking spot

The present invention relates to an automatic driving control system that guides a vehicle to a parking point designated by a user and parks the vehicle.

Various automatic driving control systems for parking a vehicle at a parking point designated by a user have been proposed. For example, Patent Literature 1 below discloses an automatic driving control system that allows a user to specify a parking point of a vehicle using a mobile terminal or to specify a position of a user (a position of the mobile terminal of the user) as a parking point. Have been.

JP 2008-9913 A

In the method of setting the current position of the user as a parking point, the user can easily specify the parking point. However, there is also a request to specify a location different from the user's position as a parking point, for example, when the user is in a place where parking is not possible (for example, indoors or a park). For example, if a method of designating a parking point on a map displayed on the mobile terminal is adopted, the user can designate a place different from the current position as a parking point. However, in that method, the user needs to find a place to be a parking point on a map, and it is difficult to intuitively and accurately specify the parking point.

The present invention has been made to solve the above-described problem, and has as its object to provide an automatic driving control system that allows a user to intuitively and accurately specify a parking point.

An automatic driving control device according to the present invention includes a parking point image acquisition unit that receives data of a parking point image that is a photographed image of a destination to which information of a parking point of a vehicle is added, and a map information acquisition unit that acquires map information. Unit, an analysis unit that specifies a destination and a parking point on a map based on the data of the parking point image and the map information, a vehicle position obtaining unit that obtains information on the position of the vehicle, A surrounding situation acquisition unit that acquires a position, an automatic traveling control unit that performs automatic traveling that causes the vehicle to travel to a destination parking point based on the vehicle position and map information, and after the vehicle arrives at the destination, And an automatic parking control unit that performs automatic parking for parking the vehicle at a parking point based on the position of a feature around the vehicle.

An information communication terminal according to the present invention includes a destination image obtaining unit that obtains a destination image that is a real image of a destination, a display processing unit that displays a destination image on a screen, and a destination image that is operated by a user. A parking point specifying unit that specifies a parking point of the vehicle above, a parking point image generating unit that generates data of a parking point image that is a destination image to which information of the parking point specified by the user is added, and a parking point image generating unit. And a parking point image transmitting unit that transmits data to the vehicle.

According to the automatic driving control device according to the present invention, the destination and the parking point on the map are specified from the data of the parking point image which is the photographed image of the destination to which the information of the parking point of the vehicle is added. The designation of the parking point can be performed on the actual image of the destination. Therefore, the user can intuitively and accurately specify a parking point.

The objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings.

FIG. 1 is a diagram illustrating an entire configuration of an automatic driving control system according to a first embodiment. FIG. 2 is a functional block diagram illustrating a configuration of the information communication terminal according to Embodiment 1. 5 is a flowchart showing an operation of the information communication terminal according to Embodiment 1. FIG. 5 is a diagram illustrating an example of a screen displayed on the display device by the information communication terminal. FIG. 5 is a diagram illustrating an example of a screen displayed on the display device by the information communication terminal. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. It is a figure showing an example of a screen which an information communication terminal displays on a display. FIG. 2 is a functional block diagram illustrating a configuration of the automatic operation control device according to the first embodiment. 4 is a flowchart showing an operation of the automatic driving control device according to the first embodiment. FIG. 2 is a diagram illustrating an example of a hardware configuration of an automatic driving control device and an information communication terminal. FIG. 2 is a diagram illustrating an example of a hardware configuration of an automatic driving control device and an information communication terminal. FIG. 9 is a functional block diagram illustrating a configuration of an information communication terminal according to Embodiment 2. FIG. 13 is a functional block diagram illustrating a configuration of an information communication terminal according to Embodiment 3.

<Embodiment 1>
FIG. 1 is a diagram illustrating an entire configuration of the automatic driving control system according to the first embodiment. As shown in FIG. 1, the automatic driving control system according to the first embodiment includes an automatic driving control device 10 mounted on a vehicle 1 and an information communication terminal 30 owned by a user (mainly, a driver of the vehicle 1). Consists of

First, details of the information communication terminal 30 will be described. FIG. 2 is a functional block diagram showing the configuration of the information communication terminal 30. Although not shown in FIG. 1, the information communication terminal 30 is connected to a camera 41, a display device 42, an operation input unit 43, and a GNSS (Global Navigation Satellite System) receiver 44. One or more of the camera 41, the display device 42, the operation input unit 43, and the GNSS receiver 44 may be built in the information communication terminal 30. For example, when the information communication terminal 30 is configured as a portable terminal such as a mobile phone or a smartphone, the camera 41, the display device 42, the operation input unit 43, and the GNSS receiver 44 are built in the information communication terminal 30. There will be.

The camera 41 is an imaging device for the user to shoot a real image (photograph) of the surrounding scenery. The photographed image captured by the camera 41 is input to the information communication terminal 30.

The display device 42 is a user interface for the information communication terminal 30 to present information to a user in an image or text, and is configured by, for example, a liquid crystal display device. The operation input unit 43 is a user interface for the user to operate the information communication terminal 30, and may be, for example, a hardware key such as a keyboard, a mouse, an operation lever, a touch pad, or a software key displayed on a screen. . For example, a software key as the operation input unit 43 may be displayed on the screen of the display device 42. In this case, the display device 42 and the operation input unit 43 are configured as one touch panel. In the present embodiment, the display device 42 and the operation input unit 43 constitute the touch panel 40. In the following description, the “touch panel 40” may be used without distinguishing the display device 42 and the operation input unit 43.

The GNSS receiver 44 calculates the position of the information communication terminal 30 based on a positioning signal transmitted by a GNSS satellite such as a GPS (Global Positioning System) satellite, for example.

As shown in FIG. 1, the information communication terminal 30 includes a communication unit 31, a destination image acquisition unit 32, a display processing unit 33, a parking point designation unit 34, a parking point image generation unit 35, a parking point image transmission unit 36, and a shooting position. An acquisition unit 37 is provided.

The communication unit 31 is a communication unit for the information communication terminal 30 to communicate with the automatic driving control device 10 or an external server.

The destination image acquisition unit 32 acquires a destination image which is a real image of a place that the user wants to set as a destination. The user may use a photographed image captured by the camera 41 as a destination image or an image downloaded from an external server through the communication unit 31 as a destination image. Here, it is assumed that the data of the destination image includes information on the shooting position of the destination image as additional information. When the user shoots a destination image with the camera 41, the destination image obtaining unit 32 obtains information on the position of the information communication terminal 30 at the time of shooting from the shooting position obtaining unit 37, and uses that information as information on the shooting position. Is added to the destination image captured by the camera 41.

The display processing unit 33 displays the destination image acquired by the destination image acquiring unit 32 on the screen of the display device 42. The user can operate the operation input unit 43 to specify a point at which the vehicle 1 is to be parked (hereinafter referred to as “parking point”) on the destination image displayed on the display device 42. The parking point designation unit 34 performs a process related to the designation of the parking point. That is, the parking point specifying unit 34 specifies the position (coordinates on the destination image) of the parking point of the vehicle 1 on the destination image according to the operation of the operation input unit 43 by the user.

The parking point image generation unit 35 causes the information on the parking point designated by the user to be included in the data of the destination image as further additional information. Hereinafter, the destination image to which the information of the parking point is added is referred to as a “parking point image”.

The parking point image transmitting unit 36 performs a process of transmitting the data of the parking point image generated by the parking point image generating unit 35 to the automatic driving control device 10 of the vehicle 1 through the communication unit 31.

FIG. 3 is a flowchart showing the operation of the information communication terminal 30. Hereinafter, the operation of the information communication terminal 30 will be described with reference to FIG.

After the information communication terminal 30 is activated, when the user takes a destination image with the camera 41 or downloads a destination image from an external server, the destination image acquisition unit 32 acquires the destination image (step S101). ). The information of the photographing position acquired by the photographing position acquiring unit 37 from the GNSS receiver 44 is added to the destination image photographed by the camera 41. The destination image downloaded from the server is added with information on the shooting position in advance.

Next, the display processing unit 33 causes the touch panel 40 to display the destination image acquired by the destination image acquiring unit 32 (Step S102). FIG. 4 shows an example of the destination image displayed on the touch panel 40.

When the user touches the destination image displayed on the touch panel 40, the parking point specifying unit 34 specifies the touched position as the parking point of the vehicle 1 (Step S103). At this time, the display processing unit 33 may display the pointer 201 indicating the position pointed by the user on the destination image as shown in FIG. In addition, the parking point specifying unit 34 may inquire the user whether or not the point specified by the user may be determined as the parking point as shown in FIG. 5 before the parking point is determined. This can prevent a point different from the user's intention from being set as a parking point due to an erroneous operation.

When the user specifies a parking point, the parking point specifying unit 34 checks whether or not the parking point is located within a parking area (step S104). Any method may be used to determine whether or not the parking point designated by the user is a parking area. For example, a method may be used in which a region where a generally parkable place such as a road or a parking lot is captured is extracted from the destination image, and it is determined whether or not the position (coordinates) of the parking point is within the region. In addition, by analyzing the destination image, the position (latitude, mildness) on the map corresponding to the position (coordinates) of the parking point on the destination image is obtained, and the parking point is located within the parking area on the map. A method of determining whether or not to do so may be used.

If the parking point specified by the user is not located in the area where parking is possible (NO in step S104), the parking point specifying unit 34 warns the user as shown in FIG. 6 (step S105), and proceeds to step S103. Return and let the user redo the designation of the parking point. The warning is not limited to the warning by the display as shown in FIG. 6, but may be a warning by sound or a warning by vibration.

On the other hand, if the parking point specified by the user is located within the area where parking is possible (YES in step S104), the parking point image generation unit 35 adds the information of the parking point to the destination image, A parking point image is generated (Step S106).

Then, the parking point image transmitting unit 36 transmits the data of the parking point image generated by the parking point image generating unit 35 to the automatic driving control device 10 of the vehicle 1 using the communication unit 31 (Step S107). At this time, before transmitting the parking point image, the parking point image transmitting unit 36 may inquire the user whether to permit the transmission as shown in FIG. As will be described later, the transmission of the parking point image serves as a trigger for starting the movement of the vehicle 1 to the parking point. Therefore, in the example of FIG. 7, an inquiry is made as to whether or not to permit transmission of the parking point image by the expression “Do you want to move the vehicle to the parking point?”.

(3) In the flow of FIG. 3, an example has been described in which, after the user specifies a parking point, it is determined whether or not the specified parking point is located within a parking area. However, the parkable area and the non-parkable area on the destination image are extracted before the user specifies the parking point, and the user cannot specify the non-parkable area as the parking point. Is also good. In that case, the processing of steps S104 and S105 in FIG. 3 becomes unnecessary.

To prevent the user from designating a non-parkable area as a parking point, for example, hide the pointer 201 when the user touches a non-parkable area on the destination image as shown in FIG. Then, it is preferable that the user can recognize that the touched position cannot be designated as the parking point.

Alternatively, as shown in FIG. 9, when the user touches a non-parkable area on the destination image, the pointer 201 is displayed at a parking available point closest to the position touched by the user, and that point is displayed as a parking point. May be specified. At this time, the user recognizes that a position different from the user's touch position is designated as a parking point, for example, by changing the color of the pointer 201 to a color different from the normal state or blinking the pointer 201. It is preferable to be able to do so.

As illustrated in FIG. 10, the display processing unit 33 may set the display area of the destination image different from the display area of the parkable area and the non-parkable area. In the example of FIG. 10, the display mode of the non-parkable area is changed by superimposing a semi-transparent image on the non-parkable area. Thus, it is possible to prevent the user from designating an unparkable area as a parking point.

In the above description, an example in which the user specifies only the position of the parking point of the vehicle 1 has been described, but the user may also be able to specify the direction of the vehicle 1 during parking (hereinafter, referred to as “parking direction”). In this case, the parking point image generation unit 35 includes not only the information on the position of the parking point but also the information on the parking direction in the data of the parking point image as additional information. At this time, it is preferable that a direction contrary to traffic regulations (for example, a direction of reverse running on a one-way road) cannot be designated as a parking direction.

For example, as shown in FIG. 11, when the user performs a swipe operation on the destination image displayed on the touch panel 40, the start point or the end point of the swipe operation is specified as a parking point, and the direction of the swipe operation is specified as the parking direction. You may do so. Alternatively, when the user performs a tap operation on the destination image displayed on the touch panel 40, the position of the tap operation is designated as a parking point, and an arrow 201a extends from the pointer 201 as shown in FIG. The parking direction may be designated by setting the direction of the arrow 201a using, for example, the arrow.

After the parking point is specified by the user, the display processing unit 33 may display the icon 202 indicating that the specification of the parking point is completed at the position of the parking point on the destination image as shown in FIG. Good. In particular, when the user specifies a parking direction, an icon 202 representing the parking direction may be displayed as shown in FIG.

Also, as shown in FIG. 14, the icon 202 may be an image having a shape imitating the vehicle 1 (not shown, but the pointer 201 may have a shape imitating the vehicle 1). In particular, when the user specifies the parking direction, the parking direction may be represented by the direction of the icon 202 shaped like the vehicle 1. That is, the direction of the icon 202 shaped like the vehicle 1 may be changed in accordance with the parking direction specified by the user.

Further, the size of the icon 202 is reduced so that the size of the icon 202 imitating the vehicle 1 corresponds to the actual size of the vehicle 1 in the destination image. The distance may be changed according to the distance from the shooting point of the destination image to the parking point. This makes it easier for the user to imagine the situation when the vehicle 1 is parked at the parking point. For example, it is more effective if the shape of the icon 202 is a 3D model of the own vehicle.

In addition, the display processing unit 33 displays the icon 202 when displaying the icon 202 in a parkable area on the destination image and when displaying the icon 202 in a non-parkable area on the destination image. The mode may be changed.

Next, details of the automatic driving control device 10 mounted on the vehicle 1 will be described. FIG. 15 is a functional block diagram showing the configuration of the automatic driving control device 10. Although not shown in FIG. 1, the automatic driving control device 10 is connected to the communication device 21, the map information storage device 22, the GNSS receiver 23, the vehicle-mounted sensor 24, the vehicle-mounted camera 25, the vehicle driving device 26, and the route search device 27. Have been.

The communication device 21 is a communication unit for the automatic driving control device 10 to communicate with the information communication terminal 30 or an external server. The map information storage device 22 is a storage medium in which map information is stored. The map information storage device 22 may not be mounted on the vehicle 1 and may be configured as, for example, an external server that distributes map information to the automatic driving control device 10 by communication. The GNSS receiver 23 calculates the current position of the vehicle 1 based on a positioning signal transmitted by a GNSS satellite such as a GPS satellite, for example.

The vehicle-mounted sensor 24 is a sensor that detects the position of a feature existing around the vehicle 1, and is, for example, an infrared sensor, a millimeter-wave radar, or the like. The in-vehicle camera 25 is a camera that captures an image around the vehicle 1. In the present embodiment, the in-vehicle camera 25 is also used mainly for detecting the position of a feature existing around the vehicle 1. The vehicle drive device 26 is an ECU (Electronic Control Unit) that controls the traveling of the vehicle 1.

The route search device 27 searches for a route from the current location of the vehicle 1 to the destination, and sets the detected route as a travel route of the vehicle 1. The route search device 27 acquires information on the current position of the vehicle 1 from the GNSS receiver 23, and the route search is performed using the map information acquired from the map information storage device 22. As the map information storage device 22, the GNSS receiver 23, and the route search device 27, those provided in a navigation system (not shown) of the vehicle 1 may be used.

As shown in FIG. 15, the automatic driving control device 10 includes a parking point image acquisition unit 11, a map information acquisition unit 12, an analysis unit 13, a vehicle position acquisition unit 14, a surrounding situation acquisition unit 15, and a vehicle control unit 16. .

The parking point image acquisition unit 11 transmits the data of the parking point image transmitted from the information communication terminal 30 of the user, that is, the data of the photographed image of the destination to which the information of the parking point of the vehicle 1 is added, via the communication device 21. To get. The map information acquisition unit 12 acquires map information from the map information storage device 22.

The analysis unit 13 determines the position of the vehicle 1 on the map based on the data of the parking point image acquired by the parking point image acquisition unit 11 and the map information around the shooting position of the parking point image acquired by the map information acquisition unit 12. Identify destinations and parking points. That is, the analysis unit 13 analyzes the data of the parking point image and calculates the position (latitude, mild) of the destination in the parking point image on the map and the position (coordinate) of the parking point on the parking point image. Identify the corresponding map location (latitude, mild). The position of the destination on the map can be specified from the information of the photographing position included in the data of the parking point image, the position of the feature in the parking point image on the map, and the like. In addition, the analysis unit 13 analyzes the parking point image, obtains the positional relationship between the parking point and the feature shown in the parking point image, and determines the position of the parking point on the map on the map of the feature. Identify from location. Thereby, a more accurate position of the parking point is specified.

The vehicle position acquisition unit 14 acquires information on the current position of the vehicle 1 from the GNSS receiver 23. The surrounding situation acquisition unit 15 acquires information on the position of a feature existing around the vehicle 1 (relative position from the vehicle 1) based on the output of the on-vehicle sensor 24 and the image captured by the on-vehicle camera 25.

The vehicle control unit 16 includes an automatic traveling control unit 161 and an automatic parking control unit 162. The automatic driving control unit 161 controls the vehicle driving device 26 based on the position of the vehicle 1 and the map information, and thereby executes automatic driving for driving the vehicle 1 to a destination parking point. Specifically, the automatic traveling control unit 161 first causes the route search device 27 to search for a route from the position of the vehicle 1 acquired by the vehicle position acquisition unit 14 to the parking point at the destination identified by the analysis unit 13, The detected route is set as the traveling route of the vehicle 1, and the vehicle driving device 26 is controlled to cause the vehicle 1 to travel along the traveling route.

On the other hand, the automatic parking control unit 162 performs automatic parking that parks the vehicle 1 at the parking point based on the position of a feature around the vehicle 1 after the vehicle 1 arrives at the destination parking point by automatic traveling. I do. The automatic parking control unit 162 controls the vehicle 1 so that the positional relationship between the vehicle 1 and the surrounding features coincides with the positional relationship between the parking spot calculated by the analysis unit 13 and the features shown in the parking spot image. Induce. Note that, when the parking point image includes information on the parking direction, the automatic parking control unit 162 sets the direction of the vehicle 1 during parking to be the same as the parking direction when performing automatic parking.

FIG. 16 is a flowchart showing the operation of the automatic operation control device 10. Hereinafter, the operation of the automatic operation control device 10 will be described with reference to FIG.

When the data of the parking spot image is transmitted from the information communication terminal 30, the data is received by the communication device 21, and is obtained by the parking spot image obtaining unit 11 of the automatic driving control device 10 (Step S201).

The analysis unit 13 determines the destination on the map based on the data of the parking point image acquired by the parking point image acquisition unit 11 and the map information around the shooting position of the parking point image acquired by the map information acquisition unit 12. The position of the parking point is specified (Step S202).

Next, the automatic traveling control unit 161 causes the route search device 27 to search for a route from the position of the vehicle 1 acquired by the vehicle position acquisition unit 14 to the destination parking point specified by the analysis unit 13 (Step S203). . Then, the automatic traveling control unit 161 sets the route detected in step S203 as the traveling route of the vehicle 1, and sets the vehicle so that the vehicle 1 travels along the traveling route based on the position and the map information of the vehicle 1. 1 is performed (step S204). During that time, the automatic traveling control unit 161 checks whether the vehicle 1 has arrived at the destination parking point (step S205). If the vehicle 1 has not arrived at the destination parking point (NO in step S205), the automatic traveling control unit 161 continues step S104.

When the vehicle 1 arrives at the parking point at the destination (YES in step S205), the operation of the automatic driving control unit 161 ends, and the automatic parking control unit 162 subsequently performs the operation based on the position of the feature around the vehicle 1. Then, automatic parking for parking the vehicle 1 at the parking point is performed (step S206). That is, the automatic parking control unit 162 guides the vehicle 1 such that the positional relationship between the vehicle 1 and the surrounding features matches the positional relationship between the parking spot and the features shown in the parking spot image. During that time, the automatic parking control unit 162 checks whether or not both match (step S207). If they do not match, it is determined that the automatic parking is not completed (NO in step S207), and step S206 is continuously performed. If they match, it is determined that automatic parking has been completed (YES in step S207), and the flow in FIG. 16 ends.

If the parking point image includes information on the parking direction, the automatic parking control unit 162 sets the direction of the vehicle 1 to the parking direction in step S206.

The automatic parking control unit 162 may transmit a parking completion notification to a predetermined information communication terminal when the automatic parking is completed. As the information communication terminal to which the parking completion notification is transmitted, for example, the information communication terminal 30 of the user who is the transmission source of the parking point image, the portable terminal of the occupant of the vehicle 1, and the like are considered. For example, even when the user is away from the parking point, the user can know that the vehicle 1 has arrived at the parking point, and high convenience can be obtained.

Furthermore, an image of the periphery of the vehicle 1 taken by the vehicle-mounted camera 25 when the automatic parking is completed may be attached to the parking completion notification. From the image, the user can grasp that the vehicle 1 has arrived at the parking position, and the image can be a clue for the user to find the vehicle 1 parked at the parking point.

As described above, according to the automatic driving control system according to the present embodiment, the destination on the map and the parking location are determined from the data of the parking location image which is the actual image of the destination to which the information on the parking location of the vehicle 1 is added. A point is specified. Therefore, the user can specify the parking spot on the actual image of the destination, and can intuitively and accurately specify the parking spot.

In addition, from the viewpoint of security, the data of the parking spot image includes an authentication key indicating the transmission source, and the automatic driving control device 10 determines whether the transmission source of the parking spot image data is a predetermined regular transmission source. Authentication processing for confirming whether or not the authentication may be performed. In this case, the automatic driving control device 10 permits the vehicle control unit 16 to perform the automatic traveling and the automatic parking only when the transmission source of the data of the parking spot image is a legitimate transmission source.

The information of the parking point image may include information that can specify the distance from the shooting position of the parking point image to the parking point specified by the user. For example, the distance from the shooting position to the subject is measured by using a distance sensor when the destination image is shot, and information on the distance from the shooting position to the subject is included in the data of the parking point image, so that the data from the shooting position to the parking point The distance to the parking point on the image can be specified. Further, in this case, a distance image which is a real image in which the distance to the subject is represented by a color may be used as the destination image and the parking point image. By specifying the distance from the shooting position of the parking point image to the parking point, the processing of specifying the parking point by the analysis unit 13 becomes easy, and a reduction in processing load can be expected.

The data of the parking point image may include information that can specify the method of the parking point viewed from the shooting position of the parking point image. For example, when a destination image is captured, a shooting direction (the direction of the camera) is measured using an orientation sensor, and information of the shooting position and the shooting direction are included in the data of the parking point image, so that the parking point viewed from the shooting position is obtained. The direction can be. By specifying the direction of the parking point viewed from the shooting position of the parking point image, the processing of specifying the parking point by the analysis unit 13 becomes easy, and a reduction in processing load can be expected.

FIGS. 17 and 18 are diagrams illustrating examples of the hardware configuration of the automatic operation control device 10, respectively. Each function of the components of the automatic operation control device 10 shown in FIG. 15 is realized by, for example, a processing circuit 50 shown in FIG. That is, the automatic driving control device 10 receives the data of the parking spot image which is the photographed image of the destination to which the information of the parking spot of the vehicle 1 is added, and displays the data on the map based on the data of the parking spot image and the map information. Of the vehicle 1 based on the position and the map information of the vehicle 1, the vehicle 1 travels to the destination parking point, and after the vehicle 1 arrives at the destination, the vehicle 1 A processing circuit 50 is provided for performing automatic parking for parking the vehicle 1 at a parking point based on the position of a nearby feature. The processing circuit 50 may be dedicated hardware, or a processor that executes a program stored in a memory (a central processing unit (CPU), a processing unit, an arithmetic unit, a microprocessor, a microcomputer, It may be configured using a DSP (also called Digital Signal Processor).

When the processing circuit 50 is dedicated hardware, the processing circuit 50 includes, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC (Application Specific Integrated Circuit), and an FPGA (Field-Programmable). Gate Array) or a combination of these. Each function of the components of the automatic operation control device 10 may be realized by an individual processing circuit, or the functions may be realized by one processing circuit collectively.

FIG. 18 illustrates an example of a hardware configuration of the automatic operation control device 10 when the processing circuit 50 is configured using the processor 51 that executes a program. In this case, the functions of the components of the automatic driving control device 10 are realized by software or the like (software, firmware, or a combination of software and firmware). Software and the like are described as programs and stored in the memory 52. The processor 51 realizes the function of each unit by reading and executing the program stored in the memory 52. That is, when the automatic driving control device 10 is executed by the processor 51, the process of receiving the data of the parking point image which is the photographed image of the destination to which the information of the parking point of the vehicle 1 is added; Based on the data and the map information, a process of specifying a destination and a parking point on a map is performed, and based on the position and the map information of the vehicle 1, an automatic traveling that causes the vehicle 1 to travel to the destination parking point is performed. The process and the process of performing automatic parking for parking the vehicle 1 at a parking point based on the position of a feature around the vehicle 1 after the vehicle 1 arrives at the destination are consequently executed. And a memory 52 for storing a program. In other words, it can be said that this program causes a computer to execute the procedure and method of operation of the components of the automatic driving control device 10.

Here, the memory 52 is, for example, a non-volatile memory such as a RAM (Random Access Memory), a ROM (Read Only Memory), a flash memory, an EPROM (Erasable Programmable Read Only Memory), and an EEPROM (Electrically Erasable Programmable Read Only Memory). Volatile semiconductor memory, HDD (Hard Disk Drive), magnetic disk, flexible disk, optical disk, compact disk, mini disk, DVD (Digital Versatile Disc) and its drive device, or any storage medium to be used in the future. You may.

The configuration in which the functions of the components of the automatic operation control device 10 are realized by one of hardware and software has been described above. However, the present invention is not limited to this, and a configuration in which some components of the automatic driving control device 10 are realized by dedicated hardware, and another part of the components are realized by software or the like may be used. For example, for some components, the function is realized by a processing circuit 50 as dedicated hardware, and for other components, the processing circuit 50 as a processor 51 executes a program stored in a memory 52. The function can be realized by reading and executing.

(2) The information communication terminal 30 shown in FIG. 2 is also realized by the hardware configuration shown in FIG. 17 and FIG. For example, when the information communication terminal 30 is realized by the configuration of FIG. 17, the automatic driving control device 10 acquires a destination image which is a real image of the destination, displays the destination image on a screen, and performs a user operation. , The parking point of the vehicle 1 on the destination image is designated, the data of the parking point image which is the destination image to which the information of the parking point designated by the user is added is generated, and the data of the parking point image is transmitted to the vehicle 1. A processing circuit 50 for transmitting is provided.

When the automatic driving control device 10 is realized by the configuration in FIG. 18, the automatic driving control device 10 acquires a destination image that is a real image of the destination when the processor 51 executes the processing. A process of displaying a destination image on a screen, a process of specifying a parking point of the vehicle 1 on the destination image according to a user operation, and a parking point which is a destination image to which information of a parking point specified by the user is added. A memory 52 is provided for storing a program that results in a process of generating image data and a process of transmitting parking point image data to the vehicle 1.

As described above, the automatic driving control device 10 and the information communication terminal 30 can realize the above-described functions by hardware, software, or the like, or a combination thereof.

<Embodiment 2>
The process performed by the analysis unit 13 of the automatic driving control device 10 (FIG. 15) according to Embodiment 1, that is, the process of specifying the destination and the parking point on the map from the data of the parking point image involves image analysis. Therefore, the calculation load is relatively large. The processing may be performed by an external server or the information communication terminal 30. In the second embodiment, an example will be described in which the processing is performed on the information communication terminal 30 side.

FIG. 19 is a functional block diagram showing a configuration of the information communication terminal 30 according to Embodiment 2. The configuration of the information communication terminal 30 in FIG. 19 is obtained by adding the map information acquisition unit 12, the analysis unit 13, and the map information storage device 22 illustrated in FIG. 15 to the configuration in FIG.

The analysis unit 13 is based on the data of the parking point image generated by the parking point image generation unit 35 and the map information around the shooting position of the parking point image acquired by the map information acquisition unit 12 from the map information storage device 22. The destination and the parking point of the vehicle 1 on the map are specified. That is, the analysis unit 13 analyzes the data of the parking point image and calculates the position (latitude, mild) of the destination in the parking point image on the map and the position (coordinate) of the parking point on the parking point image. Identify the corresponding map location (latitude, mild).

{Circle around (2)} The parking point image generation unit 35 adds information on the destination on the map and the position of the parking point to the data of the parking point image. Therefore, the information communication terminal 30 according to the second embodiment transmits to the automatic driving control device 10 of the vehicle 1 the data of the parking point image to which the information on the destination on the map and the position of the parking point is added.

According to the present embodiment, since the automatic driving control device 10 does not need to specify the position of the destination and the parking point on the map, the calculation load of the automatic driving control device 10 can be reduced.

<Embodiment 3>
In the third embodiment, the processing performed by the destination image acquisition unit 32, the display processing unit 33, the parking point designation unit 34, and the parking point image generation unit 35 of the information communication terminal 30 according to the first embodiment is described as an automatic driving control. This can be performed by the device 10. That is, the automatic driving control device 10 according to the third embodiment specifies a process of acquiring a destination image, a process of presenting a destination image to a user, and a position of a parking point on the destination image according to a user operation. Processing and processing for generating a parking point image including information on the position of the parking point can be performed.

FIG. 20 is a functional block diagram showing a configuration of the automatic operation control device 10 according to the third embodiment. The configuration of the automatic driving control device 10 in FIG. 20 is different from the configuration in FIG. 15 in that the destination image acquisition unit 32, the display processing unit 33, the parking point designation unit 34, the parking point image generation unit 35, and the display shown in FIG. The device 42 and the operation input unit 43 are added.

The destination image acquisition unit 32 acquires a destination image through the communication device 21. The acquisition of the destination image may be performed from an external server or from the information communication terminal 30 of the user.

The display processing unit 33 displays the destination image acquired by the destination image acquiring unit 32 on the screen of the display device 42. The parking point specifying unit 34 specifies the position of the parking point of the vehicle 1 on the destination image (coordinates on the destination image) according to the operation of the operation input unit 43 by the user.

The parking point image generation unit 35 generates a parking point image by including information on the parking point specified by the user in the data of the destination image.

The destination image generated by the parking point image generation unit 35 is acquired by the parking point image acquisition unit 11, and thereafter, the same processing as that of the automatic driving control device 10 of the first embodiment is performed.

In the automatic driving control device 10 of the present embodiment, the acquisition of the destination image and the designation of the parking point image can be performed by the automatic driving control device 10, so that the user does not need to cooperate with the information communication terminal 30 to perform the operation. Destinations and parking points can be specified. For example, when the user is in the vehicle 1 and wants to move the vehicle 1 to a destination parking point, high convenience can be obtained.

In the present invention, the embodiments can be freely combined, or the embodiments can be appropriately modified or omitted within the scope of the invention.

Although the present invention has been described in detail, the above description is illustrative in all aspects, and the present invention is not limited thereto. It is understood that numerous modifications that are not illustrated can be envisaged without departing from the scope of the present invention.

1 vehicle, 10 automatic driving control device, 11 parking point image acquisition unit, 12 、 map information acquisition unit, 13 analysis unit, 14 vehicle position acquisition unit, 15 surrounding situation acquisition unit, 16 vehicle control unit, 161 automatic traveling control unit, 162 Automatic parking control unit, 21 communication device, 22 map information storage device, 23 GNSS receiver, 24 vehicle sensor, 25 vehicle camera, 26 vehicle driving device, 27 route search device, 30 information communication terminal, 31 communication unit, 32 destination Image acquisition unit, 33 display processing unit, 34 parking point designation unit, 35 parking point image generation unit, 36 parking point image transmission unit, 37 shooting position acquisition unit, 38 shooting direction acquisition unit, 40 touch panel, 41 camera, 42 display device , 43 operation input unit, 44 GNSS receiver, 45 azimuth sensor, 201 pointer, 02 icon.

Claims

A parking point image acquisition unit that receives data of a parking point image that is a real image of a destination to which information on a parking point of a vehicle is added,
A map information acquisition unit for acquiring map information;
An analysis unit that identifies the destination and the parking point on a map based on the data of the parking point image and the map information;
A vehicle position acquisition unit that acquires information on the position of the vehicle,
A peripheral situation acquisition unit that acquires a position of a feature around the vehicle;
Based on the position of the vehicle and the map information, an automatic driving control unit that performs automatic driving to drive the vehicle to the parking point at the destination,
After the vehicle arrives at the destination, based on the position of the feature around the vehicle, an automatic parking control unit that performs automatic parking to park the vehicle at the parking point,
An automatic operation control device comprising:
The analysis unit specifies the position of the parking point by specifying the positional relationship between the parking point and the feature shown in the parking point image,
The automatic parking control unit controls the vehicle so that the positional relationship between the vehicle and the feature around the vehicle matches the positional relationship between the parking spot and the feature shown in the parking spot image. Induce,
The automatic operation control device according to claim 1.
Check whether the transmission source of the parking spot image data is a predetermined legitimate transmission source, and only when the transmission source of the parking spot image data is the legitimate transmission source, the automatic driving and The implementation of the automatic parking is permitted,
The automatic operation control device according to claim 1.
The parking point image acquisition unit acquires data of the parking point image from a user's information communication terminal,
The automatic operation control device according to claim 1.
The information of the direction of the vehicle at the time of parking is further added to the data of the parking point image.
The automatic operation control device according to claim 1.
The data of the parking point image includes information that can specify a distance from the position where the parking point image was captured to the parking point,
The automatic operation control device according to claim 1.
The data of the parking point image includes information that can specify the direction of the parking point from the position where the parking point image was captured,
The automatic operation control device according to claim 1.
When the automatic parking is completed, a parking completion notification is transmitted to a predetermined information communication terminal,
The automatic operation control device according to claim 1.
The parking completion notification includes an image of the periphery of the vehicle taken by the onboard camera of the vehicle when the automatic parking is completed,
The automatic operation control device according to claim 8.
A destination image acquisition unit that acquires a destination image that is a real image of the destination,
A display processing unit that displays the destination image on a screen,
According to a user's operation, a parking point specifying unit that specifies a parking point of the vehicle on the destination image,
A parking point image generation unit that generates data of a parking point image that is the destination image to which the information of the parking point specified by the user is added,
A parking point image transmitting unit that transmits data of the parking point image to the vehicle,
An information communication terminal comprising:
Further comprising a camera capable of shooting the destination image,
The destination image acquisition unit acquires the destination image from the camera,
The information communication terminal according to claim 10.
The destination image acquisition unit acquires the destination image from an external server,
The information communication terminal according to claim 10.
When a position where parking is impossible is designated as the parking point by the user, a warning is issued;
The information communication terminal according to claim 10.
The warning is performed by vibration,
An information communication terminal according to claim 13.
The display processing unit displays an icon indicating the parking point specified by the user on the destination image, and displays the icon in a parkable area in the destination image and in a non-parkable area. When displaying the icon, changing the display mode of the icon,
The information communication terminal according to claim 10.
The display processing unit sets the parking area and the non-parkable area in the destination image to different display modes.
The information communication terminal according to claim 10.
The display processing unit superimposes a semi-transparent image on a non-parkable area in the destination image,
The information communication terminal according to claim 16.
The parking point specification unit can also specify the direction of the vehicle at the time of parking,
The display processing unit displays a pointer indicating the position pointed to by the user on the destination image until the parking point is specified, and after the parking point is specified, the parking point and the Displaying on the destination image an icon indicating the orientation of the vehicle when parked,
The information communication terminal according to claim 10.
The pointer or the icon is an image simulating the vehicle, the direction of which changes according to the direction of the vehicle specified by a user.
The information communication terminal according to claim 18.
The parking point specification unit can also specify the direction of the vehicle at the time of parking,
The information of the direction of the vehicle at the time of parking is further added to the data of the parking point image.
The information communication terminal according to claim 10.
The data of the parking point image includes information that can specify a distance from the position where the parking point image was captured to the parking point,
The information communication terminal according to claim 10.
The data of the parking point image includes information that can specify the direction of the parking point from the position where the parking point image was captured,
The information communication terminal according to claim 10.
A destination image acquisition unit that acquires a destination image that is a real image of the destination,
A display processing unit that displays the destination image on a screen,
According to a user's operation, a parking point specifying unit that specifies a parking point of the vehicle on the destination image,
A map information acquisition unit for acquiring map information;
An analysis unit that identifies the destination and the parking point on a map based on the data of the parking point image that is the destination image to which the information of the parking point specified by the user is added and the map information;
A vehicle position acquisition unit that acquires information on the position of the vehicle,
A peripheral situation acquisition unit that acquires a position of a feature around the vehicle;
Based on the position of the vehicle and the map information, an automatic driving control unit that performs automatic driving to drive the vehicle to the parking point at the destination,
After the vehicle arrives at the destination, based on the position of the feature around the vehicle, an automatic parking control unit that performs automatic parking to park the vehicle at the parking point,
An automatic operation control system comprising:
The parking point image acquisition unit of the automatic driving control device receives the data of the parking point image which is a photographed image of the destination to which the information of the parking point of the vehicle is added,
The analysis unit of the automatic driving control device, based on the data and the map information of the parking spot image, specifies the destination and the parking spot on a map,
The automatic driving control unit of the automatic driving control device, based on the position of the vehicle and the map information, implements automatic driving to drive the vehicle to the parking point at the destination,
The automatic parking control unit of the automatic driving control device, after the vehicle arrives at the destination, based on the position of a feature around the vehicle, implements automatic parking to park the vehicle at the parking point,
Automatic operation control method.
The destination image acquisition unit of the information communication terminal acquires a destination image which is a real image of the destination,
The display processing unit of the information communication terminal displays the destination image on a screen,
A parking point specifying unit of the information communication terminal specifies a parking point of the vehicle on the destination image according to a user operation,
A parking point image generation unit of the information communication terminal generates data of a parking point image that is the destination image to which information of the parking point specified by the user is added,
A parking point image transmitting unit of the information communication terminal transmits data of a parking point image to the vehicle,
How to specify parking points.
A destination image acquisition unit of the automatic driving control system acquires a destination image that is a real image of the destination,
The display processing unit of the automatic driving control system displays the destination image on a screen,
The parking point designation unit of the automatic driving control system, according to the operation of the user, designates a parking point of the vehicle on the destination image,
The analysis unit of the automatic driving control system, based on data and map information of the parking point image is the destination image to which the information of the parking point specified by the user is added, the destination on the map and the Identify the parking spot,
The automatic driving control unit of the automatic driving control system, based on the position of the vehicle and the map information, implements automatic driving to run the vehicle to the parking point of the destination,
The automatic parking control unit of the automatic driving control system, after the vehicle arrives at the destination, based on the position of a feature around the vehicle, implements automatic parking to park the vehicle at the parking point,
Automatic operation control method.