JP3762854B2 - Parking assistance device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a parking assist device that assists in parking a vehicle. Specifically, the field of view of the traveling direction of a vehicle is captured by an image acquisition device (for example, a camera) and displayed on a monitor screen in a vehicle interior. It is related with the parking assistance apparatus which assists operation at the time of parking.
[0002]
[Prior art]
Conventionally, as a parking assistance device, for example, a device described in Japanese Patent No. 1610702 is known. The device described in this publication displays a rear view captured by a rear camera and a predicted trajectory of the host vehicle calculated based on a steering angle steered by a steering device superimposed on a monitor screen installed near a driver's seat. By doing so, the operation burden of the driver at the time of parking is reduced.
[0003]
As another conventional parking assistance device, for example, one described in Japanese Patent No. 2610146 is also known. The device described in the publication includes a rear view taken by a rear camera, an expected trajectory of the host vehicle (first predicted reverse trajectory) calculated based on a steering angle steered by a steering device, and steering by the steering device. Driving the vehicle during parking by assisting the judgment of the steering amount by superimposing and displaying the predicted trajectory of the vehicle at the maximum possible steering angle (second predicted reverse trajectory) on the monitor screen installed near the driver's seat This reduces the burden on the operator.
[0004]
[Problems to be solved by the invention]
By the way, in the parking assistance device described in the above-mentioned Japanese Patent Publication No. 1610702, although the expected trajectory of the host vehicle corresponding to the steering angle steered by the steering device can be known, what kind of operation is actually performed requires the required parking frame. It was not suggested whether the vehicle could be parked, and the operation burden on the driver during parking was not sufficiently reduced.
[0005]
Further, in the parking assist device described in Japanese Patent No. 2610146, the predicted trajectory of the host vehicle (first predicted reverse trajectory) corresponding to the steering angle steered by the steering device and the maximum steerable by the steering device. Although the predicted trajectory of the host vehicle at the rudder angle (second predicted reverse trajectory) is known, it does not suggest what kind of operation can actually be parked in the required parking frame, as described above. The driver's operational burden at the time was not fully reduced.
[0006]
An object of the present invention is to provide a parking assist device capable of informing a driver of a steering start position of a steering device during parking and reducing a driver's operation burden.
[0007]
[Means for Solving the Problems]
  In order to solve the above-mentioned problems, the invention according to claim 1, the field of view of the traveling direction of the vehicle is photographed by the image acquisition means and displayed on the monitor screen provided in the passenger compartment, and the vehicle is parked when the driver is parked. In a parking assist device for assisting operation, a parking frame extending in a direction having a predetermined angle with respect to the front-rear direction of the vehicle by advancing the vehicle with the steering device held at a predetermined steering angle.SaidWhen you park your vehicleSaidSteering start position display means for displaying the steering start position of the steering device on the monitor screenRelative position detection means for detecting the relative positions of the vehicle and the parking frame, and whether or not the turning of the vehicle in the state where the steering device is held at a predetermined steering angle is nearing an end. Determining means for determining based on the position; and superimposing display means for superimposing and displaying the vehicle width extension line on the monitor screen when the determining means determines that the turning of the vehicle is nearing the end.The main point is that
[0010]
  Claim2The invention described in claim1The parking assist device according to claim 1, wherein the steering device is steered.ButstartWhat was doneSteering start detecting means for detectingSteeringstartWas detectedAnd a steering start position erasing means for erasing the steering start position displayed on the monitor screen.
[0011]
  Claim3The invention described in claim 1Or 2The parking assist device according to claim 1, wherein a steering angle detection unit that detects a steering angle of the steering device, and a deviation of a route from the vehicle to the parking frame is determined based on the detected steering angle and the predetermined steering angle. The gist of the present invention is that it includes a route departure determination means.
[0012]
  Claim4The invention described in claim 13Either1 itemIn the parking assist device according to claim 1, the predetermined steering angle is a substantially maximum steering angle of the steering device.
  (Function)
  According to the first aspect of the present invention, the vehicle is advanced with the steering device held at a predetermined steering angle, and the vehicle is parked in a parking frame extending in a direction having a predetermined angle with respect to the front-rear direction of the vehicle. The steering start position of the steering device at the time of doing is displayed on the monitor screen. Therefore, when parking, the driver enters the vehicle so that the angle between the direction in which the parking frame to be parked extends and the front-rear direction of the host vehicle is the predetermined angle (for example, perpendicular to the section to be parked). Let The driver adjusts the position while referring to the monitor screen while keeping the angle at a predetermined angle, that is, moving the host vehicle only in the front-rear direction in a straight traveling state. Then, when the position of the host vehicle substantially coincides with the steering start position of the steering device on the monitor screen, the driver advances the vehicle with the steering device held at the predetermined steering angle to the parking frame. Park. In this way, the driver is notified of the steering start position of the steering device in parking, so that the operation burden on the driver is reduced and a smooth parking operation on the parking frame is enabled.
In addition, when it is determined by the determining means that the vehicle is about to finish turning, the vehicle width extension line is superimposed on the monitor screen.
[0015]
  Claim2According to the invention described in 3, the steering of the steering deviceButstartWhat was doneIs detected, the steering start position displayed on the monitor screen is deleted. Accordingly, the visibility of the monitor screen is improved by eliminating the unnecessary steering start position from the monitor screen after the steering device starts steering.
[0016]
  Claim3According to the invention described in (3), the departure from the route to the parking frame of the vehicle is determined by the route departure determination means. Therefore, for example, by notifying the driver of the deviation of the route to the parking frame, the vehicle can be prevented from entering the wrong position due to an erroneous operation of the driver.
[0017]
  Claim4According to the invention described in (1), the predetermined steering angle of the steering device is set to a substantially maximum steering angle for which the steering angle adjustment is extremely simple.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment embodying the present invention will be described with reference to FIGS.
FIG. 1 is a schematic diagram showing a vehicle 2 equipped with a parking assist device 1 of the present embodiment. As shown in the figure, the parking assist device 1 functions as an image acquisition unit and detects a steering angle of a camera (CCD camera) 11 that captures a rear view of the vehicle 2 and a steering wheel 12 that constitutes a steering device. A steering angle sensor 13 as a steering angle detection means, a shift lever reverse switch 14 for detecting a reverse (reverse) state of a shift lever (not shown) of the transmission, a parking switch 15 for operating a parking assist function during a parking operation, A yaw rate sensor 16, a monitor screen 17, a speaker 18, and a controller 20 are provided as relative position detecting means for detecting the rotational angular velocity in the vertical axis direction of the vehicle 2 as a change in the vehicle angle accompanying turning.
[0019]
The camera 11 is installed with the optical axis directed downward, for example, at a substantially central portion behind the vehicle 2. Specifically, as shown in FIG. 3, the camera 11 is attached to be inclined downward at a predetermined angle (for example, 30 degrees) at the center at the rear of the vehicle. As shown in FIG. 4, the camera 11 itself has a wide-angle lens and secures a field of view of, for example, 140 degrees to the left and right, and can photograph a region up to about 8 m rearward.
[0020]
The steering angle sensor 13 is a general-purpose sensor that detects the steering angle of the steering wheel 12. For example, the steering angle sensor 13 is provided inside the steering wheel 12.
The parking switch 15 is a switch for operating a parking assist function, and is provided, for example, in the vicinity of the center console that can be easily operated by the driver. The parking switch 15 has two mode switches that can be selected according to the parking mode, that is, a parallel parking mode switch 15a that operates a parking assist function in parallel parking (garage storage) and a column that operates a parking assist function in parallel parking. A parking mode switch 15b is provided (see FIG. 2).
[0021]
The monitor screen 17 is installed on the center console, for example. In the display area shown in FIG. 5 of the monitor screen 17, a graphic image such as a predicted rear end trajectory to be described later is displayed together with a rear image (raw image) of the vehicle 2 photographed by the camera 11.
[0022]
From the speaker 18, required voice guidance is output (spoken) corresponding to each stage of a parking operation described later.
The controller 20 is provided, for example, inside an instrument panel, and a graphic image such as a rear image of the vehicle 2 and a predicted rear end locus on the monitor screen 17 based on input signals from the camera 11 and sensors 13 to 16. And a required voice guidance is output from the speaker 18.
[0023]
FIG. 2 is a system configuration diagram of the parking assist device 1. As shown in the figure, a controller 20 that controls the parking assist device 1 includes a central processing unit (CPU) 21 that is a central part thereof, a graphics drawing circuit 22 that draws graphics on a monitor screen 17, A superimpose circuit 23 that superimposes the graphics signal and the rear image from the camera 11, a synchronization separation circuit 24 that extracts a synchronization signal from the camera image and supplies it to the graphics drawing circuit 22, and an output from the speaker 18 to the driver. A voice synthesis circuit 25 for synthesizing voice guidance is provided.
[0024]
Next, the parallel parking operation and the processing mode of the controller 20 corresponding thereto will be described with reference to FIGS. The processing operation by the controller 20 is activated when the parallel parking mode switch 15a of the parking switch 15 is selected (turned on). Incidentally, FIG. 6 shows the state of the vehicle 2 when parking in parallel in the parking frame on the left side as viewed from the driver, classified by stage. 7 and 8 are images and voice guidance of the monitor screen 17 output by the controller 20 corresponding to each stage of the state of the vehicle 2, a state where switching of the stage is determined by the controller 20, and the same determination. The main devices used and the driver operations are shown respectively. The controller 20 performs guidance by dividing a series of driver operations in parallel parking into the following three operations.
[0025]
1. Setting of parking start position (1), (1-2), (1-3)
2. Setting of parking target position (2), (3)
3. Turn left backward ... (4)
Here, the number written together with the operation name of the driver corresponds to the number of the image (display state) on the monitor screen 17 of FIGS.
[0026]
1. Setting of parking start position: The driver stops so that the front-rear direction of the host vehicle 2 is substantially perpendicular to the direction in which the parking frame extends with respect to the predetermined parking frame to be parallel parked. The stop position at this time is a position slightly ahead of the steering start position of the steering wheel 12 when it is considered that the steering wheel 12 can be parked with the steering wheel 12 kept at the maximum steering angle and moved backward. .
[0027]
The driver who stops the vehicle 2 selects (turns on) the parallel parking mode switch 15a of the parking switch 15, and operates the parking assist function in the parallel parking. At this time, when the driver puts the shift lever in the reverse state, the shift lever reverse switch 14 is turned on, and the CPU 21 detects that the shift lever is in the reverse state. Then, the CPU 21 outputs, through the voice synthesis circuit 25, from the speaker 18, “Align“ b ”with the parking frame” and “If“ b ”is in the parking frame, the handle will be full”. At the same time, as shown in the state (1) of FIG. 7, the CPU 21 displays the rear end predicted trajectory “a” and the full steering section calculated on the monitor screen 17 according to the rear image by the camera 11 and the steering angle. b is displayed.
[0028]
Here, the expected rear end trajectory a of the host vehicle 2 calculated by a known method (for example, a method according to the method described in JP-A-11-334470) based on the steering angle at that time, For example, the expected rear end trajectory on a horizontal road surface is converted into the CCD element position of the camera 11, that is, the monitor screen 17 using a known coordinate transformation (for example, one according to the coordinate transformation described in JP-A-11-334470). Are superimposed on the same monitor screen 17 in real time. In addition, the full steering section b is similar to a parking section position that can be entered on a horizontal road surface, for example, when the steering wheel 12 is held at the maximum left and right steering angles and the host vehicle 2 is turned approximately 90 degrees. The coordinate screen is used to correspond to the display position on the monitor screen 17 and is superimposed and drawn on the monitor screen 17.
[0029]
In this state, the driver retreats the host vehicle 2 in the straight traveling state until the full steering section b overlaps with the parking section line (such as a white line that partitions the parking frame) 30 in the rear image according to the voice guidance. Then, the driver stops when the full steering section b overlaps the parking section line 30 (state (1-2)).
[0030]
Subsequently, according to the voice guidance, the driver steers the steering wheel 12 to the vicinity of the substantially maximum steering angle on the left side to match the expected rear end locus a with the parking lot line 30 (state (1- 3)).
[0031]
2. Setting of parking target position: In the state (1-3), when the driver steers the steering wheel 12 to near the maximum steering angle, the CPU 21 detects this operation via the steering angle sensor 13. Then, the CPU 21 outputs, from the speaker 18 via the voice synthesis circuit 25, “The handle is left as it is”. At the same time, as shown in the state (2) of FIG. 8, the CPU 21 erases only the full steering section b while displaying the rear image and the expected rear end locus a of the camera 11 on the monitor screen 17.
[0032]
In this state, the driver follows the voice guidance and starts to reverse the vehicle 2 while keeping the steering wheel 12 steered. When the driver starts to reverse the vehicle 2 in the state (2), the CPU 21 detects, through the yaw rate sensor 16, the amount of change in the vehicle angle (left turn amount) accompanying the left turn of the vehicle 2 at this time. The CPU 21 detects the relative position between the host vehicle 2 and the parking frame (parking line 30) based on the change amount of the vehicle angle. When the yaw rate sensor 16 detects that the amount of change in the vehicle angle exceeds a predetermined threshold, the CPU 21 determines that the host vehicle 2 has started to move, and the speaker is connected via the voice synthesis circuit 25. 18 outputs “carefully back around the vehicle” and shifts to the state (3).
[0033]
3. Left turn backward: In the state (3), the driver continues the backward movement of the vehicle 2 while keeping the steering wheel 12 in accordance with the voice guidance. As the vehicle 2 moves backward in the state (3), the CPU 21 makes a left turn amount of the vehicle 2 detected via the yaw rate sensor 16 and a required left turn amount for parallel parking, that is, a left turn of approximately 90 degrees. Compare the amount. When it is detected that the difference between the left turn amounts is equal to or less than a predetermined threshold value, the CPU 21 determines that the left turn of the host vehicle 2 is nearing the end and shifts to the state (4). . At this time, the CPU 21 outputs “Please adjust the angle of the vehicle using“ c ”as a guide” from the speaker 18 via the voice synthesis circuit 25.
[0034]
In the state (4), the CPU 21 further displays the vehicle width extension line c and the distance guide line d in a state where the rear image and the expected rear end locus a by the camera 11 are displayed on the monitor screen 17. Here, the vehicle width extension line c is obtained by superimposing and drawing the vehicle width extension line of the host vehicle 2 on the monitor screen 17 in correspondence with the display position of the monitor screen 17 using the coordinate conversion described above, for example. It is. Further, the distance reference line d corresponds to a display position on the monitor screen 17 by using a similar coordinate transformation, for example, a position on a horizontal road surface separated from the rear of the host vehicle 2 by a predetermined distance (for example, 50 cm, 1 m). The image is superimposed on the monitor screen 17.
[0035]
In the state (4), the driver follows the voice guidance and further moves the vehicle 2 backward while keeping the steering wheel 12 so that the vehicle width extension line c is parallel to the parking lot line 30 and turns the vehicle 2 to the left. Adjust the amount. Next, the driver returns the steering wheel 12 to the neutral state, moves the vehicle 2 backward in a straight line, and adjusts the position of the vehicle 2 in the front-rear direction. At this time, the driver refers to the distance guide line d and adjusts the distance to the rear obstacle.
[0036]
In the state (4), when the change amount per unit time of the vehicle angle (turning amount) based on the detection result of the yaw rate sensor 16 falls below a predetermined threshold value, the CPU 21 determines that the vehicle 2 has stopped. Then, the CPU 21 outputs “Guide ends” from the speaker 18 via the voice synthesis circuit 25.
[0037]
In the states (3) to (4), the CPU 21 determines whether the host vehicle 2 is correctly following the route to the parking frame based on the detection result of the steering angle by the steering angle sensor 13. In other words, it is detected whether or not the steering wheel 12 is held at a substantially maximum steering angle, and it is determined whether or not there is a departure from the route to the parking frame. When the departure from the route to the parking frame (the steering wheel 12 is not maintained at the substantially maximum steering angle) is detected, the CPU 21 notifies the driver of the departure by voice, for example, Encourage the parking operation to be redone.
[0038]
In the above description, the case of parallel parking in the left parking frame as viewed from the driver has been described, but it goes without saying that the same flow is also provided for parallel parking in the right parking frame.
[0039]
As described above in detail, according to the present embodiment, the following effects can be obtained.
(1) In this embodiment, the full steering section b is displayed on the monitor screen 17 together with the rear image from the camera 11. Accordingly, when parking, the driver stops so that the front-rear direction of the host vehicle 2 is substantially perpendicular to the direction in which the parking frame extends with respect to the parking frame to be parallel-parked. The driver adjusts the position while referring to the monitor screen 17 while maintaining the angle state, that is, moving the host vehicle 2 backward in a straight traveling state. Then, when the full steering section b overlaps the parking section line 30 on the monitor screen 17, the driver steers the steering wheel 12 to a substantially maximum steering angle, and in this state, the driver moves the vehicle backward to enter the parking frame. Park. In this way, the driver is notified of the steering start position of the steering wheel 12 in parking, so that the operation burden on the driver is reduced and a smooth parking operation on the parking frame is enabled.
[0040]
(2) In the present embodiment, the relative position between the host vehicle 2 and the parking frame (the turning amount of the vehicle 2) is detected via the yaw rate sensor 16. When the difference between the detected turning amount of the vehicle 2 and the required turning amount for parallel parking (90 degrees) is equal to or smaller than a predetermined threshold value, the monitor screen 17 is combined with the rear image by the camera 11. The vehicle width extension line c is displayed. That is, the vehicle width extension line c is displayed on the monitor screen 17 when the front-rear direction of the host vehicle 2 approaches the direction in which the parking frame extends along with the parking operation. Direction adjustment can be suggested to the driver.
[0041]
(3) In the present embodiment, the steering wheel 12 is steered to the vicinity of the maximum steering angle, so that the full steering section b displayed on the monitor screen 17 is deleted. Therefore, the visibility of the monitor screen 17 can be improved by eliminating the full steering section b which is unnecessary after the steering of the steering wheel 12 from the monitor screen 17.
[0042]
(4) In the present embodiment, the deviation of the route from the vehicle 2 to the parking frame is determined based on whether the steering wheel 12 is maintained at the substantially maximum steering angle. Therefore, by notifying the driver of the departure of the route to the parking frame, it is possible to avoid the vehicle from entering the wrong position due to an erroneous operation of the driver.
[0043]
(5) In the present embodiment, the steering wheel 12 can be guided to a required parking frame by maintaining the steering wheel 12 at a substantially maximum steering angle that is extremely easy to adjust the steering angle.
[0044]
In addition, embodiment of this invention is not limited to the said embodiment, You may change as follows. Even if such a change is added, the same effect as the above-described embodiment can be obtained.
[0045]
In the embodiment, the parking assist processing operation is activated by selecting (turning on) the parallel parking mode switch 15a of the parking switch 15. On the other hand, for example, the parking assist processing operation may be activated by voice recognition for a word uttered by the driver.
[0046]
In the embodiment described above, the parking zone position that can be entered when the steering wheel 12 is steered at the maximum left and right steering angles and the host vehicle 2 is turned approximately 90 degrees is drawn on the monitor screen 17 as the full steering zone b. did. On the other hand, when the steering wheel 12 is held at the left and right maximum steering angles and the own vehicle 2 is turned to, for example, 60 degrees or 45 degrees, the parking section position that can be entered is monitored as a full steering section. You may draw on the screen 17.
[0047]
Further, as shown in FIG. 9, the vehicle 2 when the steering wheel 12 is held at the maximum steering angle so that the vehicle can be parked in a parking frame extending in an arbitrary direction with respect to the front-rear direction of the vehicle 2. The predicted rear end locus may be drawn on the monitor screen 17 as the full steering section g. In this case, as shown in FIG. 9A, the driver stops in an arbitrary direction with respect to the parking frame. Then, the host vehicle 2 is moved backward to a position where the full steering section g is substantially in contact with the parking section line 30. When the vehicle is retracted to the above position, as shown in FIG. 9B, the driver steers the steering wheel 12 to the maximum steering angle at that position and further retracts the host vehicle 2 in that state. Even in such a form, a smooth parking operation to the parking frame is possible. In the drawing, the full steering section g is drawn together with a plan view for convenience, but it is needless to say that it is actually drawn on the monitor screen 17 through the coordinate transformation. .
[0048]
In the embodiment described above, the parking zone position that can be entered when the steering wheel 12 is steered at the maximum left and right steering angles and the host vehicle 2 is turned approximately 90 degrees is drawn on the monitor screen 17 as the full steering zone b. did. On the other hand, for example, the parking zone position that can be entered when the steering wheel 12 is steered approximately one or two turns in the required direction from the neutral state and the host vehicle 2 is turned approximately 90 degrees is defined as a full steering zone. You may draw on the monitor screen 17.
[0049]
In the embodiment described above, the steering angle sensor 13 detects that the driver has steered to the vicinity of the maximum steering angle. On the other hand, instead of performing such exact detection, the driver's steering may be determined only by the elapsed time detected by the timer. Further, the steering angle sensor 13 and a timer may be combined to detect that the driver has steered to the vicinity of the maximum steering angle. In this case, the detection accuracy of the fact that the driver has steered to the vicinity of the maximum steering angle can be improved, and the parking guidance switching determination with high robustness can be performed.
[0050]
In the embodiment, the start or stop of the movement of the host vehicle 2 is detected via the yaw rate sensor 16 and the parking guidance is switched. On the other hand, a wheel speed sensor may be provided instead of the yaw rate sensor 16 or in addition to the yaw rate sensor 16, and the movement start or stop of the host vehicle 2 may be detected in the same manner. Furthermore, instead of the yaw rate sensor 16 or in addition to the yaw rate sensor 16, an acceleration sensor may be provided to detect the start or stop of movement of the host vehicle 2 in the same manner. Furthermore, the movement start or stop of the host vehicle 2 may be detected by performing an image recognition process on the rear image by the camera 11. Furthermore, instead of performing such a strict detection, the time for which the steering wheel 12 is held may be detected by a timer to determine the start or stop of the movement of the host vehicle 2. Furthermore, the movement start or stop of the host vehicle 2 may be detected by combining these arbitrary plural numbers. In this case, it is possible to improve the detection accuracy of the start or stop of the movement of the host vehicle 2 and to perform the parking guidance switching determination with high robustness.
[0051]
In the embodiment described above, the relative position between the host vehicle 2 and the parking frame (the turning amount of the vehicle 2) is detected via the yaw rate sensor 16, and the parking guidance is switched. On the other hand, the relative position between the host vehicle 2 and the parking frame may be detected by referring to the steering angle sensor 13 and the yaw rate sensor 16 together. A wheel speed sensor may be provided in place of the yaw rate sensor 16 or in addition to the yaw rate sensor 16, and the relative position between the host vehicle 2 and the parking frame may be detected in the same manner. Further, instead of the yaw rate sensor 16 or in addition to the yaw rate sensor 16, an acceleration sensor may be provided to detect the relative position between the host vehicle 2 and the parking frame in the same manner. Furthermore, you may make it detect the relative position of the own vehicle 2 and a parking frame by performing the image recognition process with respect to the back image by the camera 11, for example. Further, instead of performing such exact detection, the relative position between the host vehicle 2 and the parking frame may be determined only by the elapsed time detected by the timer. Furthermore, you may make it detect the relative position of the own vehicle 2 and a parking frame combining these arbitrary plural. In this case, it is possible to improve the detection accuracy of the relative position, and to perform the parking guidance switching determination with high robustness.
[0052]
The voice guidance function and the screen switching function in the above embodiment are not necessarily required uniformly for all drivers, and may be unnecessary depending on the driver's proficiency with respect to the present apparatus. Therefore, the voice guidance function and the screen switching function may be provided with a function that can be individually stopped by the driver.
[0053]
In the above-described embodiment, the camera 11 is provided behind the vehicle 2, and the parking assist device in the case where the vehicle 2 is moved backward to park is described. On the other hand, it may be a parking assist device in the case where a camera is provided in front of the vehicle 2 and the vehicle 2 is moved forward to park.
[0054]
In the above embodiment, the system completed in the vehicle has been described. However, the present invention is not limited to this, and an external signal related to parking is obtained from outside the vehicle, and parking assistance is performed based on the external signal. It can also be applied to the system.
[0055]
【The invention's effect】
As described in detail above, according to the first aspect of the present invention, the driver can be informed of the steering start position of the steering device during parking, and the operation burden on the driver can be reduced.
[0057]
  Claim2According to the invention described in 3, the steering of the steering deviceButstartWasVisibility of the monitor screen can be improved by deleting the steering start position that will be unnecessary later from the monitor screen.
[0058]
  Claim3According to the invention described in (4), it is possible to avoid the vehicle entering the wrong position due to an erroneous operation by the driver.
  Claim4According to the invention described in (1), the predetermined rudder angle of the steering device can be set to a substantially maximum rudder angle whose rudder angle adjustment is extremely simple.
[Brief description of the drawings]
FIG. 1 is a schematic view showing a vehicle equipped with an embodiment of the present invention.
FIG. 2 is a system configuration diagram of the embodiment.
FIG. 3 is a side view showing a mounting state of the camera of the embodiment.
FIG. 4 is a plan view showing a detection range of the camera of the embodiment.
FIG. 5 is an exemplary view showing display areas of a camera and a monitor screen according to the embodiment;
FIG. 6 is a plan view showing a state of the vehicle when parking in parallel in the parking frame.
FIG. 7 is a stage diagram showing a processing mode of the CPU corresponding to the state of the vehicle.
FIG. 8 is a stage diagram showing a processing mode of the CPU corresponding to the state of the vehicle.
FIG. 9 is a plan view showing the state of the vehicle when parking in parallel with the parking frame in another example of the embodiment;
[Explanation of symbols]
1 Parking assistance device
2 Vehicle
11 Camera
12 Steering wheel constituting the steering device
13 Rudder angle sensor as rudder angle detection means
16 Yaw rate sensor as relative position detection means
17 Monitor screen
20 controller

Claims (4)

In the parking assistance device that captures the field of view of the traveling direction of the vehicle by the image acquisition means and displays it on the monitor screen provided in the passenger compartment, assisting the driver in parking operation
Steering start position of the steering device when the steering device is allowed to proceed with the vehicle while steering hold a predetermined steering angle to park the vehicle in the parking space extending in a direction having a predetermined angle with respect to the longitudinal direction of the vehicle Steering start position display means for displaying on the monitor screen ,
A relative position detecting means for detecting a relative position of the vehicle and the parking frame;
Determining means for determining, based on the relative position, whether or not the turning of the vehicle in the state where the steering device is maintained at a predetermined steering angle is nearing an end;
Superimposing display means for superimposing and displaying the vehicle width extension line on the monitor screen when the determining means determines that the turning of the vehicle is nearing the end. Parking assistance device to do. The parking assistance device according to claim 1,
Steering start detection means for detecting that steering of the steering device is started;
A parking assist device, further comprising: steering start position erasing means for erasing a steering start position displayed on the monitor screen based on detection of the start of steering . In the parking assistance device according to claim 1 or 2,
Rudder angle detecting means for detecting the rudder angle of the steering device;
Route departure determination means for determining departure of the route from the vehicle to the parking frame based on the detected steering angle and the predetermined steering angle;
A parking assistance device , further comprising: The parking assist device according to any one of claims 1 to 3,
The parking assist device according to claim 1, wherein the predetermined steering angle is a substantially maximum steering angle of the steering device .

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