JP6115296B2 - Driving assistance device - Google Patents

Description

  The present invention relates to a driving support device that supports driving operation of a vehicle.

  In recent years, development of driving support technology that supports driving operation of a driver has been actively performed. For example, a driving support technology has been developed that enables a person who is unfamiliar with driving by presenting a steering wheel operation such as garage parking or parallel parking to the driver (for example, Patent Document 1). Recently, it has been proposed to go further and automate these steering operations.

JP 2011-131715 A

  However, the driving support technology as described above has a problem that it may hinder the improvement of the driving technology of the driver. This is because even if it is difficult driving such as garage parking or parallel parking, you can drive if you operate the steering wheel as shown, so your willingness to drive with your own power will fade Because. However, unless a steering wheel operation is presented, it is difficult for a novice driver to enter a garage without touching an obstacle such as a building.

  The present invention has been made in view of the above-described problems of conventional technology, and can improve driving technology while suppressing the possibility of a vehicle coming into contact with an obstacle such as a building around the vehicle. A driving assistance device is provided.

To solve the problems described above, in the driving support apparatus of the present invention, the periphery of the vehicle, the left oblique front direction from the vehicle, right oblique front direction, the left oblique rear direction, the right oblique rear direction four large Makana Set the area. Further , the avoidance route is stored in advance so that the avoidance route can be determined when the region where the obstacle exists is determined by associating these four regions with the avoidance route for avoiding the obstacle. Further, when detecting an obstacle around the vehicle, it is detected in which of the four areas the obstacle exists. When an area where an obstacle exists is detected, an avoidance route stored in advance for the area is read out and output to the vehicle driver (for example, a sound is reproduced or an image is displayed).

The avoidance route is stored in association with four regions roughly set around the vehicle, and is not stored for the position where the obstacle exists. Therefore, the avoidance route that is output to the driver is not a specific avoidance route that avoids the vehicle from an obstacle. For example, it is rough that the steering wheel is turned to the right and then moved forward and then returned to the original position. The content must be correct. For this reason, the driver does not blindly follow the presented avoidance route, but refers to the presented avoidance route, taking into account the position of the obstacle and the surrounding situation, and using his own judgment Will be decided. For this reason, the driving skill of the driver can be improved. Of course, even if it is a rough content, the avoidance route is shown, so even a beginner of driving will not take a completely wrong avoidance route, so there is a possibility of bringing the vehicle into contact with an obstacle Can be suppressed.

  In the above-described driving assistance device of the present invention, the avoidance route is stored in advance in association with the combination of the area where the obstacle exists and the state of the vehicle (either the forward state or the reverse state). And it is good also as outputting the avoidance path | route corresponding to the combination of the area | region where an obstruction exists, and the state (either forward or reverse) of the vehicle at the time of detecting this area.

  For example, there is a case where the front of the vehicle approaches an obstacle because the steering wheel is greatly cut during reverse travel. The avoidance route in this case is different from the avoidance route when the vehicle is moving forward even if the front of the vehicle approaches the obstacle. Therefore, more appropriate avoidance can be achieved by detecting whether the state of the vehicle at the time when the area where the obstacle is present is forward or backward and outputting an avoidance route according to the result. A route can be output.

  In the driving support device of the present invention described above, when an area where an obstacle exists is detected, the avoidance route may be output after detecting that the vehicle has stopped.

  If it is a normal driver, it seems that the vehicle is stopped to avoid contact with the obstacle when the obstacle is detected. However, if the driver is used to operating the vehicle, the vehicle is stopped. Avoid contact with obstacles. If an avoidance route is output to a driver who is used to operating such a vehicle, the driver may feel annoying. Therefore, if the avoidance route is output after the vehicle stops, it can be suppressed that the driver who is used to operating the vehicle feels bothersome.

  Moreover, in the driving assistance device of the present invention described above, the following may be performed. First, it is possible to detect a predetermined operation (support request operation) performed by the driver when the driver requests support for the driving operation. The avoidance route may be output when a region where an obstacle exists is detected and a support request operation is detected.

  By doing so, the avoidance route is not output while the driver is considering the avoidance route with his own power, and when the driver determines that the avoidance route is necessary, the avoidance route can be output. Can be output.

It is explanatory drawing which shows the structure of the driving assistance apparatus 100 of a present Example. It is a flowchart of the driving operation presentation process performed by the control apparatus 140 of a present Example. It is explanatory drawing which illustrated the avoidance path | route memorize | stored in the memory | storage part 142 of a present Example. 6 is an explanatory diagram illustrating an avoidance route and support information output to a display 160. FIG. It is explanatory drawing which illustrated a mode that the vehicle 1 was operated using the driving assistance device 100 of a present Example. 10 is an explanatory diagram illustrating an avoidance route stored in a storage unit 142 according to Modification 1. FIG. FIG. 10 is an explanatory diagram illustrating an avoidance path of Modification 1 output to the display 160. FIG. 4 is an explanatory diagram illustrating a state in which an obstacle is detected in a left rear region of the vehicle 1 during forward movement. FIG. 10 is an explanatory diagram illustrating a recommended route of modification 2 output to the display 160. FIG. 10 is a flowchart of a driving operation presentation process of a third modification in which an avoidance route is presented when driving assistance is requested from a driver. It is explanatory drawing which illustrated the case where the area | region where an obstruction exists is detected based on the position of an obstruction. FIG. 6 is an explanatory diagram illustrating another aspect of dividing the front and rear regions of the vehicle 1.

Hereinafter, examples will be described in order to clarify the contents of the present invention described above.
A. Device configuration :
FIG. 1 shows the configuration of the driving support apparatus 100 of this embodiment. FIG. 1A shows an arrangement position of an ultrasonic sonar that constitutes the driving support apparatus 100, and FIG. 1B shows an electrical configuration of the driving support apparatus 100.
As shown in FIG. 1 (a), the driving support apparatus 100 of this embodiment mounted on a vehicle 1 includes ultrasonic sonars 110a, 110b, 110c, and 110d that detect objects around the vehicle 1 and the steering angle of a steering wheel. A steering angle sensor 120 that detects the position of the shift lever, a shift position detection unit 130 that detects the position of the shift lever, a control device 140 that executes a process of presenting a driving operation, a speaker 150, a display 160, and the like.

  The ultrasonic sonars 110a and 110b are respectively provided on the left and right of the front portion of the vehicle 1 (for example, both ends of the front bumper), and the ultrasonic sonars 110c and 110d are respectively provided on the left and right of the rear portion of the vehicle 1 (for example, both ends of the rear bumper). It has been. For this reason, when an obstacle exists around the vehicle 1, it can be detected by any of the ultrasonic sonars 110a to 110d. The result of the obstacle detected by the ultrasonic sonars 110a to 110d is output to the control device 140 (see FIG. 1B), and the control device 140 informs the driver using the speaker 150 that the obstacle exists. Warning.

Moreover, the control apparatus 140 is provided with the memory | storage part 142 as FIG.1 (b) shows. The storage unit 142 stores driving operations for avoiding contact between the detected obstacle and the vehicle 1 in advance. For this reason, not only the speaker 150 warns that there is an obstacle, but also a driving operation for avoiding contact with the obstacle can be displayed on the display 160. Note that a steering angle sensor 120 and a shift position detection unit 130 are connected to the control device 140, and information regarding the steering angle of the steering wheel and the position of the shift lever detected using these is also displayed on the display 160. The
However, as a result of displaying the driving operation for avoiding the obstacle on the display 160, the driver relies on the display, and if it is not displayed, it becomes a problem that the driver cannot drive. Therefore, in the vehicle 1 of the present embodiment, the following driving operation presentation process is performed.

B. Driving operation presentation process:
FIG. 2 shows a flowchart of the driving operation presentation process executed by the control device 140 of the present embodiment. This process is started when the engine of the vehicle 1 is started. When the driving operation presentation process is started, the control device 140 first determines whether or not the vehicle 1 is traveling (S100). Whether or not the vehicle 1 is traveling is determined by detecting whether or not the vehicle speed is zero using a vehicle speed sensor (not shown) provided in the vehicle 1.

As a result, when it is determined that the vehicle 1 is not traveling, that is, when the vehicle 1 is stopped (S100: no), the vehicle 1 does not approach the obstacle, so that the top of the process ( Return to S100). On the other hand, when it is determined that the vehicle 1 is traveling (S100: yes), it is determined whether any obstacle is detected by any of the ultrasonic sonars 110a to 110d (S102).
As a result, when no obstacle is detected (S102: no), the process returns to the top of the process (S100). On the other hand, when an obstacle is detected (S102: yes), a warning sound is generated using the speaker 150 to warn the driver that the obstacle has been detected (S104).

  Subsequently, it is determined whether or not the vehicle 1 has stopped within a predetermined time after the warning sound is generated (S106). As a result, when it is determined that the vehicle 1 is not stopped (S106: no), the process returns to the top process (S100) as it is, and the above-described process is repeated. The reason that the time from the generation of the warning sound to the stop of the vehicle 1 is limited within a predetermined time is to ensure that the vehicle 1 is stopped by the generation of the warning sound. Accordingly, the predetermined time can be several seconds (for example, 5 seconds).

On the other hand, when the vehicle 1 stops within a predetermined time after generating the warning sound (S106: yes), an area where an obstacle exists is detected (S108). In other words, based on which ultrasonic sonar (110a to 110d) the obstacle is detected, it is detected in which of the plurality of areas set around the vehicle 1 the obstacle is present. And according to the area | region where an obstruction exists, the "avoidance path | route" memorize | stored previously is read from the memory | storage part 142 (S110). Here, the “avoidance route” is a movement route of the vehicle 1 presented to the driver by the driving support device 100 of this embodiment in order to avoid contact with an obstacle. Then, the read avoidance route is output to the display 160 (S112).
In the present embodiment, the avoidance route is described as being presented on the display 160 in the form of an image, but may be output from the speaker 150 in the form of sound instead of the form of an image.

  In addition, the driver usually stops the vehicle 1 when a warning sound is generated. However, in the case of a driver who is proficient in driving operation or when a warning sound is predicted to be generated, the vehicle 1 may not be stopped. In this regard, in the present embodiment, as described above, when the vehicle 1 stops within a predetermined time from the generation of the warning sound (S106: yes), an avoidance route is output. In other words, since the avoidance route is output after the vehicle 1 is stopped, it is possible to avoid the possibility that the avoidance route is presented to the driver who does not need to present the avoidance route and the driver feels troublesome to present. it can.

FIG. 3 illustrates an avoidance route stored in the storage unit 142. As illustrated, the avoidance route is stored in advance for each of a plurality of regions around the vehicle 1 (that is, ultrasonic sonars 110a to 110d for detecting an obstacle). In the present embodiment, an image of an arrow representing a movement route for moving the vehicle 1 away from an obstacle is stored as an avoidance route.
For example, as shown in FIG. 3, for the left front area of the vehicle 1, “an image indicating the backward movement of the vehicle 1 with an arrow” is stored as an avoidance route. For the rear left area of the vehicle 1, “an image indicating the movement of the vehicle 1 forward to the right with an arrow” is stored.
Note that the avoidance route for the “left front region” is “move backward”, whereas the avoidance route for the “left rear region” is “move forward (not forward)”. This is because the steering operation is easier at the time of forward travel than at the time of reverse travel, and “move to the right front”, which can move away from the obstacle more efficiently than just the forward travel, is set as the avoidance route.
Similarly, for the area on the right front side of the vehicle 1, “an image indicating the backward movement of the vehicle 1 with an arrow” is stored as an avoidance route, and for the area on the right rear side of the vehicle 1, “vehicle 1 is stored as an avoidance route.

In addition, an obstacle may be detected simultaneously by the two ultrasonic sonars 110a and 110b in front of the vehicle 1. Alternatively, an obstacle may be detected simultaneously by the two rear ultrasonic sonars 110c and 110d. Considering such a case, for the case where the vehicle 1 is detected simultaneously in the left front area and the right front area, “an image indicating the backward movement of the vehicle 1 with an arrow” is stored as an avoidance route. . Further, in the case where the vehicle 1 is detected simultaneously in the left rear and right rear regions, “an image indicating the forward movement of the vehicle 1 with an arrow” is stored as an avoidance route.
In S110 and S112 of the driving operation presentation process shown in FIG. 2, the image of the avoidance route stored in association with the area in this way is read from the storage unit 142 and output to the display 160.

  Further, in the driving operation presentation process of the present embodiment, not only the avoidance route is presented, but also information that assists the driver in order to perform an appropriate operation according to the presented avoidance route (hereinafter referred to as “support information”). Is read from the storage unit 142 (S114) and output to the display 160 (S116). Details of the support information will be described later.

  FIG. 4 illustrates the avoidance route output to the display 160. In the illustrated example, a case where an obstacle is detected in the left rear area of the vehicle 1 is shown, and the avoidance route output at this time is an image (Fig. The image of the arrow shown with diagonal lines in FIG. In the illustrated example, an area where an obstacle exists is displayed. As a result, the driver can grasp the rough position of the obstacle.

In addition, the display 160 includes information indicating the steering state (how much it is turned in which direction on the left and right) and information indicating the position where the shift lever is set as “support information”. Is output (see FIG. 4). For example, for the information indicating the steering state, the steering angle of the steering wheel is detected using the steering angle sensor 120, and the image of the place where the tire is displayed on the display 160 is changed to an image corresponding to the steering angle. If the tire image indicating the steering state is displayed in this way, the driver can know whether or not the steering wheel is operated in the traveling direction indicated by the avoidance path.
As for the shift lever, when the position of the shift lever is detected by the shift position detector 130, an image showing the position of the shift lever on the display 160 is displayed according to the position of the shift lever detected by the shift position detector 130. Change to

  Furthermore, the route when the vehicle travels as it is without following the avoidance route is also output as support information. That is, the avoidance route is presented to a driver who is not accustomed to driving, and such a driver often cannot clearly recognize the course when traveling with the current steering wheel operation. Therefore, not only the avoidance route is presented on the display 160, but also the route (hereinafter referred to as “the route in the current state”) when traveling with the current steering wheel operation is presented. Whether the vehicle 1 is moving forward or backward can be determined from the position of the shift lever, so if the steering angle of the steering wheel and the position of the shift lever are known, the current course can be estimated. it can. In the example shown in FIG. 4, since the position of the shift lever is R (reverse) and the handle is turned to the left, a “current course” indicating that the vehicle moves to the left rear is displayed. In the present embodiment, it has been described that the “current path” is displayed when an area where an obstacle exists is detected. However, the “current path” is an area where an obstacle exists. It may be displayed regardless of whether or not it has been detected. For example, the display may be started when the position of the shift lever is set to R (reverse).

  As described above, the driving assistance apparatus 100 according to the present embodiment stores each detected area when an area where an obstacle exists is detected from a plurality of areas around the vehicle 1. Present an avoidance route. Since the operation indicated by this avoidance route is an operation stored in advance according to the area where the obstacle exists, the rough content is compared with the operation shown when the detailed position of the obstacle is specified. Become. In other words, the avoidance path of the present embodiment presents whether to move forward, reverse, or to turn the handle, but how much forward (or reverse) the handle should be I don't give specific details about how much I should cut. Therefore, the driver needs to think about the specific operation content by himself / herself based on the presented content as a hint in accordance with obstacles present in the vicinity and the surrounding situation. Of course, hints are given even if you think about it yourself, so you can reduce the risk of contact with obstacles unlike when you drive on your own. As described above, driving is performed by one's own power while referring to the presented avoidance route, so that driving technology can be improved.

  In addition, since the driving support device 100 according to the present embodiment only grasps a rough position with respect to the detected obstacle, it does not require complicated processing when detecting the obstacle. Furthermore, since the avoidance route is stored in advance for each area where the obstacle exists, complicated processing is not required when outputting the avoidance route. From these things, the processing burden of the control apparatus 140 can be reduced.

  FIG. 5 illustrates a state in which the vehicle 1 is operated using the driving support device 100 of the present embodiment. In the example shown in the figure, when the vehicle 1 is moved backward to enter the garage, an obstacle (garage wall) is detected in the left rear area of the vehicle 1 (FIG. 5 ( a)). In this case, the operation indicated by the avoidance route is an operation of moving the vehicle 1 to the right front as described above with reference to FIG. Therefore, when the driver has a wall (an obstacle different from the detected obstacle) near the front of the vehicle 1 as shown in FIG. 5B, the driver indicates with an arrow referring to the presented avoidance route. Do the correct operation. That is, since there is a wall near the front of the vehicle 1, the vehicle 1 is moved small so as not to contact the wall.

  On the other hand, when there is a large space in front of the vehicle 1 as shown in FIG. 5C, an operation indicated by an arrow is performed with reference to the presented avoidance route. That is, since there is a wide space in front of the vehicle 1, the vehicle 1 can be moved greatly. In this case, the vehicle 1 is more likely to be moved to a state where the garage entry operation can be performed without turning the handle greatly (a state close to the direction of entering the garage) than when the garage entry is started. For this reason, it is possible to easily enter the garage.

  As described above, when using the driving support apparatus 100 according to the present embodiment, the driver drives the vehicle 1 while considering an appropriate operation according to the situation around the driver while referring to the presented avoidance route. As a result, the driving skill of the driver can be improved.

C. Modified example:
There are several modifications to the driving support device 100 of the above-described embodiment. In the following, these modified examples will be described focusing on the differences from the embodiments. In the modification described below, the same components as those in the above-described embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

C-1. Modification 1
In the above-described embodiments, description has been made assuming that an avoidance route corresponding to “an area where an obstacle exists” is presented. On the other hand, an avoidance route may be presented based on “the area where the obstacle exists” and “the state of the vehicle 1 (whether the vehicle is in the forward state or the reverse state)”.

FIG. 6 illustrates an avoidance route stored in the storage unit 142 of the first modification. As shown in the figure, the avoidance path includes an area where an obstacle exists and a traveling direction of the vehicle 1 at the time when the area where the obstacle exists is detected (that is, whether the obstacle is detected while moving forward, or Stored in advance). For example, as an avoidance route when the area where the obstacle exists is “left rear of the vehicle 1” and the traveling direction of the vehicle 1 is “reversing” at that time, “the movement of the vehicle 1 to the right front” Is stored "(see FIG. 6).
Further, the detection of the obstacle at “the left rear of the vehicle 1 (or the right rear)” is not limited to the case where the vehicle 1 is moving backward. For example, when the vehicle is moving forward with the steering wheel turned to the left, the rear left side of the vehicle 1 may approach an obstacle due to the so-called inner wheel difference. Therefore, as an avoidance route in which the area where the obstacle exists is “left rear of the vehicle 1” and the traveling direction of the vehicle 1 is “forward”, “an image indicating movement of the vehicle 1 to the left rear by an arrow” is It is stored (see FIG. 6).
Whether the state of the vehicle 1 is forward or reverse when an area where an obstacle exists is detected is determined based on the position of the shift lever detected by the shift position detection unit 130. Judgment.

FIG. 7 illustrates an avoidance route of Modification 1 output to the display 160. In the illustrated example, the avoidance route described above with reference to FIG. 6 (that is, the avoidance route when an obstacle is detected in the left rear region of the vehicle 1) is output. Of these, FIG. 7A shows a case where an obstacle is detected during reverse travel, and the operation indicated by the avoidance route at this time is an operation of moving the vehicle 1 to the right front as described above. It becomes.
Further, FIG. 7B shows a case where an obstacle is detected during forward movement, and the operation indicated by the avoidance route at this time is an operation for moving the vehicle 1 to the left rear as described above. Become. This operation will be supplementarily described.

  FIG. 8A illustrates a case where an obstacle is detected in the left rear area of the vehicle 1 during forward movement. In the illustrated example, the case where the garage is put in while moving the steering wheel largely left is shown. When the steering wheel is largely turned to the left, the left rear portion of the vehicle 1 approaches an obstacle (in the illustrated example, the wall of the garage) due to a so-called inner wheel difference. As a result, as shown in FIG. 8A, during the “advance” of the vehicle 1, an obstacle is detected in the region “left rear of the vehicle 1”.

As described above, when an obstacle is detected in the left rear area of the vehicle 1 during forward movement, the operation indicated by the avoidance route of the first modification is an operation for moving the vehicle 1 to the left rear (FIG. 7 ( b)). Of course, the steering wheel at this time is largely cut to the left, but the driver's point about whether to move backward while returning the steering wheel that has been turned to the left or to move backward without returning the steering wheel It is up to the judgment. Therefore, the driver can learn the appropriate driving operation little by little by operating the steering wheel by his / her own judgment while checking the situation around the vehicle 1 and moving the vehicle 1 backward.
For example, as illustrated in FIG. 8B, in a state where the garage is wide open and there are no other obstacles, the vehicle is moved backward while slowly returning the wheel in FIG. 8B. If the vehicle 1 is moved along the route indicated by the arrow, it can be naturally learned that the next garage can be easily placed.
Alternatively, as illustrated in FIG. 8C, in a state where there is a wall on the opposite side of the garage, when the vehicle is moved backward while returning the handle, the right rear side of the vehicle 1 approaches the wall, and the vehicle moves backward without returning the handle. Thus, it can be naturally learned that the vehicle 1 may be moved along the route indicated by the arrow in FIG.

  In the above, the case where the vehicle 1 is moved forward with the steering wheel turned to the left has been described, but the same thing can occur when the vehicle is advanced with the steering wheel turned to the right. Alternatively, when the vehicle 1 is moved backward by turning the steering wheel to the left, an obstacle is detected in front of the vehicle 1 or when the vehicle 1 is moved backward by turning the steering wheel to the right, an obstacle is detected at the left front of the vehicle 1. An object may be detected. In the driving support device 100 according to the first modification, an avoidance route is presented depending on whether the vehicle 1 is moving forward or backward when an obstacle is detected. Therefore, appropriate avoidance for keeping the vehicle 1 away from the obstacle. A route can be presented.

C-2. Modification 2
In the above description, it is assumed that when an obstacle is detected, an avoidance route for avoiding contact with the obstacle is presented. On the other hand, a recommended travel route (hereinafter referred to as “recommended route”) may be presented as the next operation following the avoidance route.
That is, the driver can move the vehicle 1 away from the obstacle by operating with reference to the avoidance route, but in the case of a driver unfamiliar with driving, the driver may bring the vehicle 1 closer to the same obstacle again. There is. Therefore, not only the avoidance route but also the recommended route corresponding to the combination of “the area where the obstacle is detected” and “the state of the vehicle (forward / reverse)” is stored in the storage unit 142. Then, the recommended route may be output to the driver when the avoidance route is output to the driver and a predetermined time elapses.

As an example, a case where an obstacle is detected in the left rear region of the vehicle 1 while the vehicle 1 is moving forward will be described. In this case, an avoidance route for moving the vehicle 1 to the left rear is displayed on the display 160 (see FIG. 9A). The driver moves the vehicle 1 in the direction away from the obstacle by moving the vehicle 1 to the left rear according to the avoidance route.
When a predetermined time elapses after displaying the avoidance route, an image of the recommended route is displayed on the display 160 as shown in FIG. Then, since the driver drives with reference to the recommended route, the vehicle 1 passes the route on the right side of the previous route (route away from the obstacle), and the vehicle 1 is again detected by the detected obstacle. It is possible to suppress the possibility that the
In the above description, the display 160 is changed from the avoidance route to the recommended route when a predetermined time has elapsed after the avoidance route is displayed. However, after detecting that the shift lever is switched from the reverse drive position to the forward drive position after the vehicle is moved backward according to the avoidance route, the display on the display 160 may be changed from the avoidance route to the recommended route.

C-3. Modification 3
Further, in the above-described embodiments and modifications, it has been described that the avoidance route (and the recommended route) are displayed when the vehicle 1 stops and a predetermined time has elapsed. However, it is not limited to such an embodiment. For example, the avoidance route may be displayed on the display 160 when the driver performs a predetermined operation requesting the display of the avoidance route.

  FIG. 10 shows a flowchart of the driving operation presentation process of the third modification that presents an avoidance route in response to a request from the driver. First, processes S200 to S204 performed first are the same as the processes of S100 to S104 described above with reference to FIG. That is, it is determined whether or not the vehicle 1 is traveling (S200). If the vehicle 1 is not traveling (S200: no), the process directly returns to S200. On the other hand, when it is determined that the vehicle is traveling (S200: yes), it is determined whether an obstacle is detected (S202). As a result, when no obstacle is detected (S202) S202: no), the process returns to the first process S200. On the other hand, when an obstacle is detected (S202: yes), a warning sound is generated using the speaker 150 (S204).

  Subsequently, it is determined whether or not a help button (not shown) provided near the driver's seat has been operated by the driver within a predetermined time after the warning sound is generated (S206). A driver who is proficient in driving can perform an operation for avoiding an obstacle with his own power after a warning sound is generated. Further, even a driver who is unfamiliar with driving may be able to execute an operation for avoiding an obstacle by himself / herself. As described above, when the driver does not need to present the avoidance route, the help button is not operated (S206: no), and the process returns to the first process S200 without outputting the avoidance route. The reason that the help button is operated within a predetermined time from the generation of the warning sound is that the help button is not operated even after a certain period of time (for example, about several seconds to 10 seconds). This is because the driver is considered to have performed the avoidance operation with his own power.

  On the other hand, when the help button is operated by the driver within a predetermined time after the warning sound is generated (S206: yes), an area where an obstacle exists is detected in order to present an avoidance route ( In S208, the avoidance route stored in advance according to the area is read (S210) and output to the display 160 (S212). Further, the support information is also read (S214) and output to the display 160 (S216).

  As described above, when it is detected that a help button for requesting driving assistance is operated by the driver while an obstacle is detected, an avoidance route is output. In this way, since the avoidance route is not output while the driver is considering an operation for avoiding the obstacle, it can be avoided that the driver feels bothersome. On the other hand, when the driver needs, an avoidance route can be output.

In the embodiment and the modification described above, the control device 140 detects an area where an obstacle exists from among a plurality of areas set in different directions from the vehicle 1 using an ultrasonic sonar. Therefore, the control device 140 corresponds to “region detection means” in the present invention. In addition, the storage unit 142 stores in advance an avoidance route for avoiding obstacles existing in the plurality of areas. Therefore, the storage unit 142 corresponds to the “storage unit” in the present invention. In addition, when a region where an obstacle exists is detected, the control device 140 reads an avoidance route corresponding to the region from the storage unit 142 and outputs it to the display 160 (output device). Therefore, the control device 140 corresponds to “avoidance route output means” in the present invention.
Further, since the ultrasonic sonars 110a to 110d detect obstacles around the vehicle 1, the ultrasonic sonars 110a to 110d correspond to the “obstacle detection means” in the present invention.
In addition, the control device 140 uses the shift position detection unit 130 to determine whether the state of the vehicle 1 at the time when an area where an obstacle exists is detected is a forward state or a reverse state. Therefore, the control device 140 corresponds to “determination means” in the present invention. Furthermore, the control device 140 detects that the vehicle 1 has stopped using a vehicle speed sensor. Therefore, the control device 140 corresponds to the “stop detection unit” in the present invention.
“Help button operation” corresponds to “support request operation” in the present invention. The control device 140 that detects the operation of the help button corresponds to the “operation detection unit” in the present invention.

  The driving support device 100 according to the embodiment and the modification has been described above, but the present invention is not limited to the above embodiment and the modification, and can be implemented in various modes without departing from the gist thereof. .

  For example, in the above-described embodiment and modification, it has been described that four ultrasonic sonars (110a to 110d) are used to detect an obstacle, but the number is not limited to four. That is, if it is possible to detect a region where an obstacle exists, the number of ultrasonic sonars may be three or less, or five or more.

  Further, in the above-described embodiments and modifications, it has been described that the region where the obstacle exists is detected based on which ultrasonic sonar 110a to 110d the obstacle is detected. However, the detection method is not limited to such a method as long as an area where an obstacle exists can be detected. For example, a detailed position of an obstacle may be detected, and an area where the obstacle exists may be detected based on the position.

  For example, the vehicle 1 shown in FIG. 11 includes an ultrasonic sonar 110e that detects an obstacle while scanning the front area left and right, and an ultrasonic wave that detects the obstacle while scanning the rear area left and right. A sonar 110f is mounted. These ultrasonic sonars 110e and 110f can detect the position of an obstacle based on the direction scanned when the obstacle is detected and the distance to the obstacle. Even in such a case, if an area where an obstacle exists is obtained from the position of the obstacle, an avoidance route can be output to the driver.

  In the above-described embodiments and modifications, the area where the obstacle exists is divided into four areas (the left front, right front, left rear, and right rear areas of the vehicle 1). However, as long as the periphery of the vehicle 1 can be roughly divided into regions in a plurality of directions, the method is not limited to such a method. For example, as shown to Fig.12 (a), the area | region of the front side and the rear side of the vehicle 1 may each be divided into three, the left direction, the front direction (or rear direction), and the right direction from the vehicle. . Or as shown in FIG.12 (b), the magnitude | size of each area | region may differ.

  Further, in the above-described embodiments and modifications, as an example of a method for presenting the avoidance route to the driver, an image indicating the avoidance route is output to the display 160. In addition, the content of the avoidance route may be output by voice using the speaker 150.

DESCRIPTION OF SYMBOLS 1 ... Vehicle, 100 ... Driving assistance apparatus,
110a-f ... ultrasonic sonar, 120 ... steering angle sensor,
130: Shift position detection unit, 140 ... Control device, 142 ... Storage unit,
150 ... speaker, 160 ... display.

Claims (4)

A driving support device that is mounted on a vehicle and supports driving operation of the vehicle,
If an obstacle is detected, a region in which the obstacle is present, the vehicle obliquely from the left front direction, the right oblique front direction, the left oblique rear direction, in any of the four areas set to the right oblique rear direction Area detecting means for detecting whether there is,
The avoidance path for avoiding from the obstacle is associated with each of the four areas, and when the area where the obstacle exists is determined, the avoidance path can be determined in a state where the avoidance path corresponding to the area can be determined. Storage means for storing the route in advance;
A driving support device comprising: an avoidance route output unit that reads out the avoidance route corresponding to the region from the storage unit and outputs the avoidance route to the driver of the vehicle when the region where the obstacle exists is detected . The driving support device according to claim 1,
A determination means for determining whether the state of the vehicle at the time when the region where the obstacle exists is detected is a forward state or a reverse state;
Said storage means, said a region where an obstacle is present in correspondence to the combination of the state of the vehicle, the avoidance path is a means that has been stored,
The avoidance route output unit is a driving support device that is a unit that outputs the avoidance route corresponding to a combination of the area where the obstacle exists and the state of the vehicle. The driving support device according to claim 1 or 2, wherein
Comprising stop detection means for detecting that the vehicle has stopped,
The avoidance route output means is a driving support device that is means for outputting the avoidance route after the vehicle stops. The driving support device according to claim 1 or 2, wherein
An operation detecting means for detecting a support request operation performed by the driver when the driver requests support for the driving operation;
The avoidance route output means is means for outputting the avoidance route when the support request operation is detected in a state where the area where the obstacle exists is detected.

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