JP2019137158A - Parking support device - Google Patents

Abstract

To provide a parking support device which can perform parking support without detecting a parking area by using a sensor every time parking is performed.SOLUTION: A parking support device 1 comprises a storage unit 5, a characteristic part recognition unit, a positional relation estimation unit, a route acquisition unit and a parking unit. The storage unit stores a positional relation X between a position of a parking area and a position of a characteristic part. The characteristic part recognition unit recognizes information Y about the characteristic part. The positional relation estimation unit estimates a relative positional relation Z between a vehicle and the parking area on the basis of the positional relation X and information Y. The route acquisition unit acquires a route from a position of the vehicle to the parking area on the basis of the positional relation Z. The parking unit makes the vehicle travel along the route and parks the vehicle in the parking area.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to a parking assistance device.

  Patent Document 1 describes the following parking assist device. The parking assistance device detects a parking area using a sensor such as a camera. Next, the parking assist device generates a route from the position of the vehicle to the detected parking area. Finally, the parking assistance device guides the vehicle along the generated route.

Japanese Patent No. 5618138

  The parking assistance device described in Patent Document 1 must detect a parking area using a sensor each time parking is performed. In addition, when the shape of the parking area is complicated, such as a home garage, the parking area may not be detected by the sensor. The parking assistance apparatus described in Patent Literature 1 cannot perform parking assistance unless the parking area can be detected by a sensor.

  The present disclosure provides a parking assistance device capable of performing parking assistance without detecting a parking area using a sensor each time parking is performed.

  One aspect of the present disclosure is a parking assistance device (1) that assists in parking a vehicle (53), and includes a position of a parking area (47, 49) and a plurality of features ( 51) a storage unit (5) that stores a positional relationship X with the position of 51), a feature recognition unit (7) that acquires information Y of the feature using a sensor (33) provided in the vehicle, and the storage A positional relationship estimation unit (9) for estimating a relative positional relationship Z between the vehicle and the parking area based on the positional relationship X stored in the unit and the information Y acquired by the feature recognition unit. And a route acquisition unit (11) for acquiring a route (55) from the position of the vehicle to the parking area based on the positional relationship Z estimated by the positional relationship estimation unit, and the route acquisition unit acquired Route Along by running the vehicle, and the parking unit (13) to park the vehicle in the parking area, a parking assist device comprising a.

The parking assistance apparatus which is one aspect of this indication can perform parking assistance, without detecting a parking area using a sensor for every parking.
Note that the reference numerals in parentheses described in this column and in the claims indicate the correspondence with the specific means described in the embodiment described later as one aspect, and the technical scope of the present disclosure It is not limited.

1 is a block diagram illustrating a configuration of a parking assistance device 1. FIG. 2 is a block diagram illustrating a functional configuration of the parking assist device 1. FIG. It is explanatory drawing showing examples, such as parking area 47 and 49, the characteristic part 51, and the path | route 55. FIG. It is a flowchart showing the whole process which the parking assistance apparatus 1 performs. It is a flowchart showing the parking area determination process which the parking assistance apparatus 1 performs. It is a flowchart showing the parking direction determination process which the parking assistance apparatus 1 performs. It is explanatory drawing showing the example of the image | video 52 which the video sensor 33 acquired.

Exemplary embodiments of the present disclosure will be described with reference to the drawings.
<First Embodiment>
1. Parking assistance apparatus 1 and other structure The structure of the parking assistance apparatus 1 is demonstrated based on FIGS. 1-3. The parking assistance device 1 is an in-vehicle device mounted on a vehicle. Hereinafter, the vehicle on which the parking assist device 1 is mounted is referred to as the own vehicle. As shown in FIG. 1, the parking assistance apparatus 1 includes a microcomputer having a CPU 3 and a semiconductor memory (hereinafter referred to as a memory 5) such as a RAM or a ROM. Each function of the parking assist device 1 is realized by the CPU 3 executing a program stored in a non-transitional physical recording medium. In this example, the memory 5 corresponds to a non-transitional tangible recording medium that stores a program. Also, by executing this program, a method corresponding to the program is executed. The parking assistance device 1 may include one microcomputer or a plurality of microcomputers.

  As shown in FIG. 2, the parking assist device 1 includes a feature recognition unit 7, a positional relationship estimation unit 9, a route acquisition unit 11, a parking unit 13, a parking direction determination unit 15, and a parking area determination unit 17. And an instruction receiving unit 19, a distance detecting unit 21, a notification unit 23, a communication unit 25, a map information creating unit 27, a sensor using unit 28, and a communication using unit 30.

  The method of realizing the functions of the respective units included in the parking assistance device 1 is not limited to software, and some or all of the functions may be realized using one or a plurality of hardware. For example, when the function is realized by an electronic circuit that is hardware, the electronic circuit may be realized by a digital circuit, an analog circuit, or a combination thereof.

  The memory 5 further stores map information. The memory 5 corresponds to a storage unit. The map information includes a positional relationship X between the parking area and the plurality of features. The parking area is an area where the host vehicle can be parked. The characteristic part is a part of the target existing around the parking area. The characteristic part is, for example, a part on the outline of the target. Examples of the target include a building and a tree.

  FIG. 3 shows an example of a parking area and a plurality of features. 47 and 49 are parking areas, respectively. The parking areas 47 and 49 are adjacent to a building 50 such as a user's home or work place, for example. Each of the plurality 51 is a characteristic part. In the case of this example, the map information includes a positional relationship X between the position of the parking area 47 and the positions of the plurality of features 51. Further, the map information includes a positional relationship X between the position of the parking area 49 and the positions of the plurality of characteristic portions 51. That is, when there are a plurality of parking areas, the map information includes the positional relationship X for each parking area.

  The parking assistance apparatus 1 can create or modify map information. The user can input the position of the parking area using the user input device 29. The map information creation unit 27 stores the input position of the parking area in the memory 5.

  As shown in FIG. 1, in addition to the parking assist device 1, the host vehicle includes a user input device 29, a notification device 31, a video sensor 33, an ultrasonic sensor 35, a communication device 37, a GPS 39, a steering device 41, and a drive device 43. And a braking device 45. The video sensor 33 corresponds to the sensor.

  The user input device 29 is provided in the passenger compartment of the host vehicle. The user input device 29 receives user input. The user input device 29 sends a signal corresponding to the input to the parking assistance device 1.

  The notification device 31 is provided in the passenger compartment of the host vehicle. The notification device 31 includes a display 31A, a speaker 31B, and a vibration generator 31C. The notification device 31 can display an image on the display 31A, output a sound with the speaker 31B, or generate a vibration with the vibration generating device 31C in accordance with an instruction from the parking support device 1.

  The video sensor 33 captures the surroundings of the host vehicle and generates a video. The video sensor 33 sends the generated video to the parking assistance device 1. The ultrasonic sensor 35 detects an obstacle present around the host vehicle. The ultrasonic sensor 35 detects the distance from the own vehicle to the obstacle and the direction of the obstacle with reference to the own vehicle. The ultrasonic sensor 35 sends the obstacle detection result to the parking assist device 1.

The communication device 37 can perform wireless communication between the terminal 59 and the transmission device 60 outside the host vehicle. GPS39 acquires the positional information on the own vehicle. The GPS 39 sends the acquired position information to the parking assistance device 1.
The steering device 41 steers the host vehicle in accordance with an instruction from the parking assistance device 1. The drive device 43 drives the host vehicle in accordance with an instruction from the parking assistance device 1. The braking device 45 brakes the host vehicle in accordance with an instruction from the parking assistance device 1.

2. Parking assistance process executed by the parking assistance apparatus 1 The parking assistance process executed by the parking assistance apparatus 1 will be described with reference to FIGS. In step 1 of FIG. 4, the distance detection unit 21 acquires the position of the host vehicle using the GPS 39.

  In step 2, the distance detection unit 21 calculates a distance D from the position of the host vehicle acquired in step 1 to the position of the parking area. The position of the parking area is stored in the memory 5 in advance. When a plurality of parking area positions are stored in the memory 5, the distance detection unit 21 calculates the distance from the position of the host vehicle to the closest parking area position.

  In step 3, the notification unit 23 determines whether or not the distance D calculated in step 2 is equal to or less than a preset threshold value. If the distance D is less than or equal to the threshold value, the process proceeds to step 4, and if the distance D is greater than the threshold value, the process returns to step 1.

  In step 4, the notification unit 23 notifies the user using the notification device 31. The user is an occupant of the own vehicle. The content of the notification is that automatic parking can be started and that an input of an automatic parking start instruction is prompted. The notification mode may be a mode in which an image is displayed on the display 31A, a mode in which sound is output from the speaker 31B, or a mode in which vibration is generated by the vibration generating device 31C. However, it may be a combination of two or more of them. The user can input an automatic parking start instruction to the user input device 29. The automatic parking start instruction corresponds to a user instruction.

  In step 5, the instruction receiving unit 19 determines whether or not an automatic parking start instruction is input to the user input device 29. If an instruction to start automatic parking is input, the process proceeds to step 6. If an instruction to start automatic parking is not input, the process ends. That is, the process proceeds to step 6 on the condition that an instruction to start automatic parking is input.

In step 6, the feature recognition unit 7 uses the video sensor 33 to acquire a video representing the surroundings of the host vehicle. The video is, for example, a video 52 shown in FIG.
In step 7, the feature recognition unit 7 executes processing for recognizing the feature in the video acquired in step 6. The feature portion can be recognized using a well-known image recognition technique. Information representing the recognized feature 51 is referred to as information Y. The information Y includes the position of the feature in the video, the size of the feature in the video, the orientation of the feature in the video, and the like. The feature recognition unit 7 acquires information Y. The feature recognition unit 7 stores the acquired information Y in the memory 5.

  In step 8, the feature recognition unit 7 determines whether or not the feature has been recognized in the processing of step 7. If the feature can be recognized, the process proceeds to step 9; otherwise, the process returns to step 6.

  In step 9, the feature recognition unit 7 acquires the relative positional relationship (hereinafter referred to as the positional relationship α) between the feature recognized in the process of step 7 and the host vehicle. The feature recognition unit 7 can acquire the positional relationship α by collating the information Y with the positional relationship X.

  In step 10, the parking area determination unit 17 performs a parking area determination process. This parking area determination process will be described with reference to FIG. In step 21 of FIG. 5, the parking area determination unit 17 determines whether or not the positions of a plurality of parking areas are stored in the memory 5. When the positions of a plurality of parking areas are stored, the process proceeds to step 22, and when the positions of a single parking area are stored, the process proceeds to step 26.

  In step 22, the parking area determination unit 17 determines whether or not a default parking area is set in advance. The user can input a default parking area in advance using the user input device 29, for example. When the default parking area is input, the parking area determination unit 17 stores the input default parking area in the memory 5. When the default parking area is not set, the process proceeds to step 23, and when the default parking area is set, the process proceeds to step 25.

  In step 23, the parking area determination unit 17 displays a plurality of options on the display 31A. Each option corresponds to one parking area. The user can make an input to select any one of a plurality of options on the user input device 29. The user selecting one option corresponds to the user's designation.

In step 24, the parking area determination unit 17 determines a parking area corresponding to the option selected by the user.
In step 25, the parking area determination unit 17 determines a default parking area.

In step 26, the parking area determination unit 17 determines a single parking area.
Returning to FIG. 4, in step 11, the parking direction determination unit 15 performs a parking direction determination process. This process will be described with reference to FIG. In step 31 of FIG. 6, the parking direction determination unit 15 determines whether or not a default parking direction is preset for the parking area determined in step 10. The parking direction means the direction of the host vehicle when the host vehicle is parked in the parking area. The user can input a default parking direction in advance using the user input device 29, for example. When the default parking direction is input, the parking direction determination unit 15 stores the input default parking direction in the memory 5. When the default parking direction is not set, the process proceeds to step 32, and when the default parking direction is set, the process proceeds to step 34.

  In step 32, the parking direction determination unit 15 displays a plurality of options on the display 31A. Each option corresponds to one parking direction. The user can make an input to select any one of a plurality of options on the user input device 29. The user selecting one option corresponds to the user's designation.

In step 33, the parking direction determination unit 15 determines the parking direction corresponding to the option selected by the user.
In step 34, the parking direction determination unit 15 determines a default parking direction.

  Returning to FIG. 4, in step 12, the positional relationship estimation unit 9 first obtains the relative positional relationship X between the feature recognized in the processing of step 7 and the parking area determined in step 11 from the memory 5. read out. Next, the positional relationship estimation unit 9 determines the relative positional relationship Z between the host vehicle and the parking area determined in the step 11 based on the read positional relationship X and the positional relationship α acquired in the step 9. Guess.

  In step 13, the route acquisition unit 11 acquires a route from the position of the host vehicle to the parking area determined in step 11 based on the positional relationship Z acquired in step 12. The route acquisition unit 11 acquires a route for parking the host vehicle in the parking area in the parking direction determined in step 11. For example, in the example shown in FIG. 3, it is assumed that the parking area 47 is determined in Step 10 and the parking direction in which the rear portion 53 </ b> R of the host vehicle 53 faces the end 47 </ b> A of the parking area 47 is determined in Step 11. . In this case, the route acquisition unit 11 acquires a route 55 in which the host vehicle 53 is parked in the parking region 47 with the rear portion 53R facing the end portion 47A.

  The route acquisition unit 11 can acquire a route using a known algorithm. Known algorithms include, for example, algorithms described in JP2003-237511A, JP2008-284946A, and the like.

  In step 14, the parking unit 13 causes the host vehicle to travel along the route acquired in step 13 for a predetermined time or a predetermined distance. The parking unit 13 uses the steering device 41, the drive device 43, and the braking device 45 to drive the host vehicle along the route.

  When the host vehicle is traveling along the route, the user may be on the host vehicle or get off the host vehicle. As shown in FIG. 3, the user 57 getting off the own vehicle can control the traveling of the own vehicle using the terminal 59. Examples of the terminal 59 include a smartphone and a tablet terminal.

  The user 57 can input an instruction to the terminal 59. The terminal 59 transmits the input instruction. The communication unit 25 receives the transmitted instruction using the communication device 37. The parking unit 13 controls the traveling of the host vehicle according to the received instruction. Examples of the contents of the instruction include stop, restart, deceleration, acceleration, reverse, slow drive, etc. of the host vehicle.

In step 15, the parking unit 13 determines whether or not parking in the parking area determined in step 11 is completed. When parking is completed, the process proceeds to step 16, and when parking is not yet completed, the process returns to step 14.
In step 16, the notification unit 23 notifies the user of the completion of parking using the notification device 31.

3. Positional relationship X acquisition processing executed by the parking support device 1 The parking support device 1 can acquire the positional relationship X. For example, as shown in FIG. 3, when the host vehicle 53 is traveling around the parking areas 47 and 49, the sensor using unit 28 acquires the video 52 shown in FIG. 7 using the video sensor 33. The sensor using unit 28 recognizes the plurality of feature points 51 and the parking area 47 in the video 52. The sensor using unit 28 acquires the positional relationship X based on the recognized positions of the plurality of feature points 51 and the recognized positions of the parking area 47. The parking assistance apparatus 1 can create or modify the positional relationship X by, for example, a method of SLAM (Simultaneous Localization and Mapping).
In addition, for example, the communication using unit 30 communicates with the transmission device 60 illustrated in FIG. The transmission device 60 transmits the positional relationship X. The communication utilization unit 30 acquires the positional relationship X from the transmission device 60 through communication.
4). Effects produced by the parking assistance device 1 (1A) The parking assistance device 1 can perform parking assistance without detecting a parking area using a sensor each time parking is performed.

  (1B) The parking assistance apparatus 1 determines the direction in which the host vehicle is parked in the parking area according to the user's designation. The parking assistance apparatus 1 acquires a route so that the host vehicle can be parked in the parking area in the determined direction. Therefore, the parking assistance device 1 can park the host vehicle in the parking area in the direction specified by the user.

  (1C) The parking assistance apparatus 1 stores the positional relationship X for each of a plurality of parking areas. The parking assistance apparatus 1 can determine one parking area according to a user's designation | designated among several parking areas. The parking assistance apparatus 1 estimates the positional relationship Z based on the positional relationship X corresponding to the determined parking area and the positional relationship α. Therefore, the parking assistance apparatus 1 can park the host vehicle in one parking area designated by the user among the plurality of parking areas.

  (1D) The parking assistance apparatus 1 executes the processes in and after Step 6 when it is determined in Step 5 that an automatic parking start instruction has been input. Therefore, it can suppress performing automatic parking when a user does not want.

  (1E) When the distance D calculated in Step 2 is equal to or less than the threshold, the parking assistance device 1 notifies the user using the notification device 31 in Step 3. Therefore, the user can know that automatic parking is possible.

(1F) The parking assistance apparatus 1 can control the traveling of the host vehicle in accordance with a signal received from a terminal existing outside the host vehicle. Therefore, the user can control the own vehicle performing automatic parking from the outside of the own vehicle.
(1G) The parking assistance apparatus 1 can acquire the positional relationship X using the video sensor 33. The parking assistance apparatus 1 can acquire the positional relationship X from the transmission device 60 by communication.
<Other embodiments>
As mentioned above, although embodiment of this indication was described, this indication is not limited to the above-mentioned embodiment, and can carry out various modifications.

  (1) Other triggers may be used to execute the processing from step 6 onward. For example, the parking assistance device 1 compares the information on the video acquired using the video sensor 33 with the specific information stored in advance, and determines whether or not the position of the host vehicle is in a predetermined specific location. Can be judged. The specific information is, for example, video information acquired using the video sensor 33 when the host vehicle is in a specific location. And the parking assistance apparatus 1 can perform the process after the said step 6 when the position of the own vehicle exists in a specific place.

  Moreover, the parking assistance apparatus 1 may perform the process after the said step 6 by using that the engine of the own vehicle started as a trigger. Moreover, the parking assistance apparatus 1 may perform the process after the said step 6 by using the user's input to the user input device 29 as a trigger.

  (2) The parking assistance apparatus 1 may perform recognizable notification from the outside when performing automatic parking. Examples of such notification include lighting of a hazard lamp of the host vehicle. In this case, the safety of the host vehicle and its surroundings is improved.

  (3) When the automatic parking is being executed, the parking assistance device 1 may detect an obstacle using the ultrasonic sensor 35 or the like and calculate a risk that the host vehicle collides with the obstacle. When the risk of colliding with an obstacle is higher than a preset threshold, the parking support device 1 can notify the user using the notification device 31 or stop the host vehicle.

  The parking assistance device 1 may detect an abnormality in the behavior of the host vehicle using a known sensor when performing automatic parking. Examples of the abnormal behavior include stacking. The parking assistance device 1 can notify the user using the notification device 31 when an abnormality in behavior is detected.

  (4) The parking assistance device 1 may store a route from the current position of the host vehicle to the parking area in the memory 5 in advance. The parking assistance device 1 can read out the route that matches the current position of the host vehicle and the parking area determined in Step 10 among the routes stored in Step 13. In addition, when there is no route that perfectly matches the current position of the host vehicle and the parking area determined in Step 10, the parking support device 1 reads the nearest route, appropriately modifies the read route, The route used in step 14 can be created.

(5) The parking assistance device 1 may recognize the feature using a sensor other than the video sensor 33. The parking assistance device 1 may acquire the positional relationship X using a sensor other than the video sensor 33.
(6) A plurality of functions of one constituent element in the above embodiment may be realized by a plurality of constituent elements, or a single function of one constituent element may be realized by a plurality of constituent elements. . Further, a plurality of functions possessed by a plurality of constituent elements may be realized by one constituent element, or one function realized by a plurality of constituent elements may be realized by one constituent element. Moreover, you may abbreviate | omit a part of structure of the said embodiment. In addition, at least a part of the configuration of the above embodiment may be added to or replaced with the configuration of the other embodiment. In addition, all the aspects included in the technical idea specified from the wording described in the claims are embodiments of the present disclosure.

  (7) In addition to the parking assistance device described above, a system including the parking assistance device as a constituent element, a program for causing a computer to function as the parking assistance device, and a non-transitional actual record such as a semiconductor memory in which the program is recorded The present disclosure can also be realized in various forms such as a medium, a parking support method, and a parking route generation method.

DESCRIPTION OF SYMBOLS 1 ... Parking assistance apparatus, 5 ... Memory, 7 ... Feature part recognition unit, 9 ... Position relation estimation unit, 11 ... Path acquisition unit, 13 ... Parking unit, 33 ... Image sensor, 47, 49 ... Parking area, 51 ... Feature Part, 53 ... own vehicle, 55 ... route

Claims (9)

A parking assistance device (1) for assisting parking of a vehicle (53),
A storage unit (5) that stores a positional relationship X between the position of the parking area (47, 49) and the position of a plurality of features (51) existing around the parking area;
A feature recognition unit (7) that acquires information Y on the feature using a sensor (33) included in the vehicle;
A positional relationship estimation unit that estimates a relative positional relationship Z between the vehicle and the parking area based on the positional relationship X stored in the storage unit and the information Y acquired by the feature recognition unit. 9)
A route acquisition unit (11) for acquiring a route (55) from the position of the vehicle to the parking area, based on the positional relationship Z estimated by the positional relationship estimation unit;
A parking unit (13) for running the vehicle along the route acquired by the route acquisition unit and parking the vehicle in the parking area;
A parking assistance device comprising: The parking assistance device according to claim 1,
A parking direction determining unit (15) for determining a direction in which the vehicle is parked in the parking area according to a user's designation;
The said route acquisition unit is a parking assistance apparatus comprised so that the said route which parks the said vehicle in the said parking area by the said direction determined by the said parking direction determination unit may be acquired. The parking assistance device according to claim 1 or 2,
The storage unit is configured to store the positional relationship X for each of the plurality of parking areas,
A parking area determination unit (17) for determining one parking area among a plurality of the parking areas according to a user's designation;
The positional relationship estimation unit estimates the positional relationship Z based on the positional relationship X corresponding to the parking area determined by the parking area determination unit and the information Y recognized by the feature recognition unit. A parking assistance device configured in the above. It is the parking assistance device according to any one of claims 1 to 3,
An instruction receiving unit (19) for receiving user instructions;
The feature recognition unit is a parking assistance device configured to recognize the feature on the condition that the instruction receiving unit has received the instruction. The parking assistance device according to claim 4,
A distance detection unit (21) for detecting that the distance from the vehicle to the parking area is equal to or less than a preset threshold;
A notification unit (23) for notifying a user when the distance detection unit detects that the distance is equal to or less than the threshold;
A parking assistance apparatus further comprising: The parking assistance device according to claim 5,
The said alerting | reporting unit is a parking assistance apparatus which alert | reports using 1 or more selected from the group which consists of an image | video, an audio | voice, and a vibration. The parking assistance device according to any one of claims 1 to 6,
A communication unit (25) capable of communicating with a terminal (59) existing outside the vehicle;
The parking support device configured to control the traveling of the vehicle along the route in accordance with a signal received from the terminal by the communication unit. The parking assistance device according to any one of claims 1 to 7,
A parking assistance apparatus further comprising a sensor using unit (28) that acquires the positional relationship X using a sensor (33) provided in the vehicle. The parking assistance device according to any one of claims 1 to 8,
A parking assistance device further comprising a communication utilization unit (30) for acquiring the positional relationship X by communication from a transmission device (60) existing outside the vehicle.