JP6229531B2 - Attention guidance system, method and program - Google Patents

Description

  The present invention relates to an attention guidance system, method, and program for guiding an attention event.

  An information processing system that receives slip detection information from a vehicle and monitors the number and type of vehicles that have detected the slip is known (see Patent Document 1). In Patent Document 1, when the number of vehicles that have detected slip in the target area exceeds a predetermined value, the target area is recognized as a road surface condition that is likely to slip, and attention is paid to the driver of the vehicle that passes through the target area. Prompt.

JP 2011-146064 A

However, there are cases where slip occurs even though the road surface condition is good, and there is a problem that it cannot be determined that the road surface condition is prone to slip due to the large number of vehicles that have detected the slip. In particular, when a slip and another event occur continuously, the slip may occur inseparably from the other event, and it cannot be determined that the road surface condition is simply the cause of the occurrence of the slip.
The present invention has been made in view of the above problems, and an object of the present invention is to provide a technique capable of appropriately guiding continuous attention events.

  In order to achieve the above object, the attention guidance system of the present invention is a guidance guidance system for performing guidance on attention events that may occur in a vehicle. The attention event and the attention event occur. The event event acquisition means for acquiring the event event information indicating the event vehicle, and when a plurality of event events occur continuously in the same event vehicle, Guidance control means for guiding.

  In order to achieve the above object, the caution guidance method of the present invention is a caution guidance method for performing guidance on a caution event that can occur in a vehicle. The attention event information acquisition process for acquiring the attention event information indicating the event vehicle in which the event occurred, and when a plurality of attention events occur continuously in the same event vehicle, the plurality of attention events are associated with each other and the vehicle And a guidance control step for guiding.

  Furthermore, in order to achieve the above object, the attention guidance program of the present invention is a attention guidance program for performing guidance on a warning event that may occur in a vehicle. The attention event information acquisition function for acquiring the attention event information indicating the event vehicle in which the event occurred, and the vehicle in which the plurality of attention events are associated with each other when a plurality of attention events occur continuously in the same event vehicle. The computer implements a guidance control function that guides the user with the computer.

  In the above attention guidance system, method, and program, when one attention event and another attention event occur continuously in the same event vehicle, each of these attention events is not individually guided. , Can be associated with each other. Therefore, appropriate guidance can be provided for attention events that occur continuously.

It is a block diagram of an attention guidance system. (2A) is a flowchart of attention event information transmission processing, and (2B) is a flowchart of attention guidance processing.

Here, embodiments of the present invention will be described in the following order.
(1) Configuration of attention guidance system:
(1-1) Configuration of navigation terminal:
(1-2) Configuration of attention guidance system:
(2) Caution event information transmission processing:
(3) Attention guidance processing:
(4) Other embodiments:

(1) Configuration of attention guidance system:
FIG. 1 is a block diagram showing the configuration of the attention guidance system according to the present embodiment. The attention guidance system 10 in this embodiment cooperates with the navigation terminal 100 provided in the vehicle.

(1-1) Configuration of navigation terminal:
The navigation terminal 100 is mounted on a plurality of vehicles traveling on the road. The navigation terminal 100 includes a control unit 200 including a CPU, RAM, ROM, and the like, and a recording medium 300. The control unit 200 executes a program stored in the recording medium 300 or the ROM. In the present embodiment, the control unit 200 executes the navigation program 210 as one of the programs.

  The vehicle includes a communication unit 220, a GPS reception unit 410, a vehicle speed sensor 420, a gyro sensor 430, an ECU (Electronic Control Unit) 440, a camera 450, and a user I / F unit 460. The communication unit 220 includes a circuit for performing wireless communication, and the control unit 200 controls the communication unit 220 to communicate with the attention guidance system 10. The GPS receiving unit 410 receives radio waves from GPS satellites and outputs a signal for calculating the current position of the vehicle to the control unit 200 via an interface (not shown). The vehicle speed sensor 420 outputs a signal corresponding to the rotational speed of the wheels provided in the vehicle. The control unit 200 acquires this signal via an interface (not shown) and acquires the vehicle speed. The gyro sensor 430 detects angular acceleration about turning in the horizontal plane of the vehicle, and outputs a signal corresponding to the direction of the vehicle. The control unit 200 acquires this signal and acquires the traveling direction of the vehicle.

  In the recording medium 300, map information 300a is recorded. The map information 300a includes node data indicating the position of a node set on the road on which the vehicle travels, shape interpolation data indicating the position of a shape interpolation point for specifying the shape of the road section between the nodes, and the road section. Link data indicating various types of information is included. The link data indicates the link direction that is the direction in which the vehicle should travel in the road section. Further, the link data is associated with feature information indicating the positions of various features provided on the road section. The various features are temporary stop lines, traffic lights, railroad crossings, and the like.

  The control unit 200 obtains a travel locus of the vehicle based on output signals from the vehicle speed sensor 420, the gyro sensor 430, the GPS reception unit 410, and the like, and determines the shape of the road section based on the node data and link data of the map information 300a. get. Then, the control unit 200 identifies the road section having a shape that matches the traveling locus of the vehicle as the traveling road section on which the vehicle is traveling, and identifies the current position of the vehicle on the traveling road section.

  ECU 440 is a circuit for controlling the vehicle. The ECU 440 according to the present embodiment acquires a signal indicating the depression amount of the brake pedal from the brake control circuit. In addition, the vehicle is equipped with a TCS (Traction Control System), ESC (Electronic Stability Control), and ABS (Antilock Brake System) as behavior stabilization devices (not shown), and the ECU 440 has operated these behavior stabilization devices. A signal indicating whether or not is acquired. Further, the vehicle includes a suspension (not shown), and the ECU 440 acquires a signal indicating the amount of expansion / contraction of the suspension. Various signals acquired by the ECU 440 are output to the control unit 20.

  The camera 450 is an image sensor that captures a road surface ahead of the vehicle. The control unit 200 determines the presence or absence of an obstacle ahead of the vehicle by performing known template matching on the image captured by the camera 450. Moreover, the control part 200 acquires the positional relationship between the division line formed on the road surface, and a vehicle by performing a well-known line recognition process with respect to the image image | photographed with the camera 450. FIG. A lane marking is a line that divides the end of a road or the end of a lane on the road surface. The control unit 20 determines whether or not the vehicle straddles the lane marking based on the positional relationship between the vehicle and the lane marking.

  The user I / F unit 460 is an interface unit for inputting a driver's instruction and providing various information to the driver, such as a display unit or a speaker that also serves as an input unit including a touch panel display (not shown). An output sound output unit is provided. With the function of the navigation program 210, the control unit 200 displays the current position of the vehicle and a map around the current position on the user I / F unit 460. That is, the control unit 200 acquires the current position of the vehicle, generates an image indicating a map around the current position based on the map information 300a, and outputs the image to the user I / F unit 460. As a result, the display unit of the user I / F unit 460 displays a map including the current position.

The navigation program 210 includes an attention event information transmission unit 210a and an attention guide unit 210b.
The attention event information transmission unit 210a transmits the attention event information indicating the attention event (contents of the attention event) and the vehicle (vehicle identification information) to the attention guidance system 10 when the attention event occurs in the vehicle. Is a module that causes the control unit 200 to realize the above. Hereinafter, a vehicle that transmits attention event information, that is, a vehicle in which an attention event has occurred may be referred to as an event vehicle. The event vehicle identification information is a unique character / numeric string for each vehicle, and may be, for example, the manufacturing number of the navigation terminal 100, the manufacturing number of the vehicle, or the user ID of the driver. Etc.

表１の縦軸方向および横軸方向において、各注意事象の内容が一覧化されている。制御部２００は、各センサ４１０〜４５０およびＥＣＵ４４０から出力された信号に基づいて、以下に説明する各注意事象を検出する。

The contents of each attention event are listed in the vertical axis direction and horizontal axis direction of Table 1. Control unit 200 detects each attention event described below based on signals output from sensors 410 to 450 and ECU 440.

“Reverse running” means that the link direction of the traveling road section in which the vehicle is traveling is opposite to the traveling direction of the vehicle specified based on the output signal of the gyro sensor 430 (within a predetermined angle from 180 degrees). Means that
“Slip” means that one of the behavior stabilization devices (TCS, ESC, ABS) is activated.

“Fluctuation” means that the distance between the vehicle and the lane marking becomes unstable on a straight traveling road section.
Specifically, it means that the state where the vehicle straddles the lane line and the state where the vehicle does not straddle the lane line are repeated a predetermined number of times or more. A straight traveling road section means a traveling road section having a radius of curvature equal to or greater than a threshold, and means that the radius of an approximate circle that approximates a shape interpolation point is equal to or greater than the threshold.
“Step” means that the amount of expansion or contraction of the suspension is equal to or greater than a threshold value.
“One-sided road closure” means that an obstacle is present in front of the vehicle on a traveling road section having only one lane on one side, and then the vehicle straddles a lane line within a predetermined period.

A “general road U-turn” refers to a traveling road section from one road section to another road section (so-called opposite lane road section) whose link direction is opposite (within a predetermined angle from 180 degrees). It means to switch directly. Further, the general road U-turn may be that the traveling direction of the vehicle is reversed (within a predetermined angle from 180 degrees) within a predetermined period.
“Oversight of regulation” means that the vehicle speed in front of the stop regulation point such as a temporary stop line or a railroad crossing is equal to or higher than a threshold value. When the vehicle speed at a point in front of a predetermined distance (for example, 20 m) from the stop point is greater than or equal to a threshold value (for example, 40 km), the control unit 200 may detect a regulatory oversight.

“Sudden deceleration” means that the amount of depression of the brake pedal is equal to or greater than a threshold value.
“Danger curve” means that a vehicle crosses a lane marking on a curved road section. The curved traveling road section means a traveling road section having a curvature radius less than a threshold value, and means that the radius of an approximate circle approximating a shape interpolation point is less than the threshold value.

  When the control unit 20 detects the above-described attention event by the function of the attention event information transmission unit 210a, the control unit 20 acquires the current position at the generation time that is the time when the attention event is detected as the generation point. And the control part 20 produces | generates the caution event information which shows the content of the caution event, the generation | occurrence | production location, generation | occurrence | production time, and the identification information of the own vehicle (event vehicle in which the caution event has occurred), and the caution event information 10 to send. As a result, the attention event information is transmitted to the attention guidance system 10 via the communication unit 220. Although not shown, attention event information is transmitted from a large number of vehicles to the attention guidance system 10, and the attention guidance system 10 can collect the attention event information.

  With the function of the caution guidance unit 210b, the control unit 200 performs caution guidance based on the guidance information transmitted from the caution guidance system 10. The control unit 200 transmits a guide information acquisition request to the caution guide system 10 by the function of the caution guide unit 210b. In this acquisition request, information indicating the traveling road section where the vehicle is traveling and the current position is attached. The attention guidance system 10 transmits guidance information about the front of the current position on the traveling road section to the navigation terminal 100 as a response to the acquisition request. The control unit 200 outputs a guidance message through the speaker of the user I / F unit 460 based on the guidance information by the function of the caution guidance unit 210b. Hereinafter, a vehicle that has transmitted a guide information acquisition request, that is, a vehicle for which guidance is performed may be referred to as a request vehicle.

(1-2) Configuration of attention guidance system:
Next, the attention guidance system 10 will be described. The attention guidance system 10 is configured to perform guidance on attention events that may occur in the requesting vehicle using the requesting vehicle. For this purpose, the attention guidance system 10 includes a control unit 20 including a CPU, a RAM, a ROM, and the like, a communication unit 22, and a recording medium 30. The control unit 20 executes a program recorded in the recording medium 30 or the ROM. The communication unit 22 is configured by a circuit for performing wireless communication, and the control unit 20 controls the communication unit 22 to communicate with the vehicle. The control unit 20 executes the attention guidance program 21.

  Map information 30 a is recorded on the recording medium 30. The map information 30a is the same as the map information 300a of the navigation terminal 100. The recording medium 30 stores a caution event information DB (database) 30b. The attention event information DB 30b is data in which attention event information indicating contents of an attention event, an occurrence point, an occurrence time, and identification information of an event vehicle in which the attention event has occurred is accumulated. In the attention event information DB 30b, attention event information transmitted from a plurality of event vehicles is accumulated.

  In addition, related information 30 c is recorded on the recording medium 30. The related information 30c is information that defines whether or not there is a relationship between the attention event that has occurred first and the attention event that has occurred later. Note that the caution event that occurred first means the caution event that occurred earlier among the two caution events that occurred in succession. The attention event that occurred later refers to the attention event that occurred later in time among the two attention events that occurred in succession. Table 1 described above shows the related information 30c. The contents of attention events that occurred earlier in the vertical axis direction of Table 1 are listed, and the contents of attention events that occurred later in the horizontal axis direction of Table 1 are listed. In the related information 30c, for each combination of the content of the attention event that occurred earlier and the content of the attention event that occurred later, the guidance content that associates the attention event that occurred earlier and the attention event that occurred later is defined. . Further, in the related information 30c, a combination in which “-” is described means that the attention event that has occurred first and the attention event that has occurred later are not related.

The attention guidance program 21 includes an attention event information acquisition unit 21a, a guidance control unit 21b, and a guidance information transmission unit 21c.
The attention event information acquisition unit 21a is a module that causes the control unit 20 to realize a function of acquiring attention event information indicating an attention event and an event vehicle in which the attention event has occurred.
That is, the control unit 20 acquires the attention event information stored in the attention event information DB 30b by the function of the attention event information acquisition unit 21a. Then, the control unit 20 acquires a front section that is a section ahead of the current position on the traveling road section on which the requesting vehicle that has requested acquisition of guidance information is traveling, and determines the position in the front section as a generation point. The attention event information is extracted. The front section is a section from the current position to a position ahead of a predetermined distance (for example, 500 m) in the traveling road section. In addition, when there is an intersection at the end point of the traveling road section in front of a position that is a predetermined distance ahead of the current position, the control unit 20 determines whether the current position is in front of the planned traveling route or a route that is a road from the current position. A section that is within a predetermined distance from the end may be acquired as a forward section. The planned travel route is a route to a destination searched by a known route search method. The route along the road may be a route in which the amount of change in the traveling direction at the intersection of the end points of the traveling road section is equal to or less than a threshold, or the same route or the same scale (number of lanes, width, etc.) as the traveling road section It may be a route composed of road sections.

  The guidance control unit 21b is a module that causes the control unit 20 to realize a function of associating a plurality of caution events with each other and guiding them in the vehicle when a plurality of caution events occur continuously in the same event vehicle. . First, by the function of the guidance control unit 21b, the control unit 20 causes the identification information of the event vehicle to be the same among the attention events where the occurrence point exists in the front section of the requested vehicle, and the difference in the generation time is a predetermined period. A plurality of attention events within (for example, 30 seconds) are acquired as a plurality of attention events that occur successively. Note that the control unit 20 may acquire a plurality of attention events having the same identification information of the event vehicle and having an occurrence point within a predetermined distance (for example, 100 m) as a plurality of consecutive attention events. Good. Although three or more attention events can be a plurality of attention events that occur in succession, in this embodiment, two attention events that have the closest occurrence times or occurrence points are the plurality of attention events that have occurred in succession. It will be acquired.

  By the function of the guidance control unit 21b, the control unit 20 determines whether or not there is a relationship between the plurality of attention events when a plurality of attention events occur continuously in the same event vehicle, When there is a relationship between the plurality of attention events, the plurality of attention events are associated with each other and guided by the vehicle. Specifically, by the function of the guidance control unit 21b, when a plurality of attention events occur continuously in the same event vehicle, the control unit 20 corresponds to the occurrence order of the plurality of attention events. Determine whether there is a relationship between attention events. Whether the content of the guidance corresponding to the combination of the content of the attention event that occurred first and the content of the attention event that occurred later is specified in the related information 30c shown in Table 1 by the function of the guidance control unit 21b Determine whether or not. When the guidance content corresponding to the combination of the content of the attention event that has occurred first and the content of the attention event that has occurred later is not defined (when “-” is described), the control unit 20 first It is determined that there is no relationship between the generated attention event and the subsequent attention event. On the other hand, when the guidance content corresponding to the combination of the content of the attention event that has occurred first and the content of the attention event that has occurred later is specified, the control unit 20 determines the attention event that has occurred first and the attention event that has occurred later. Is determined to be related.

  When it is determined that there is a relationship between the attention event that has occurred first and the attention event that has occurred later, the control unit 20 determines the combination of the content of the attention event that has occurred first and the content of the attention event that has occurred later. Guidance information for guiding the corresponding guidance content is generated. The guidance information is information for causing the user I / F unit 460 of the requesting vehicle to perform guidance about the attention event, and is information transmitted to the navigation terminal 100 of the requesting vehicle that has transmitted the acquisition request for the guidance information. is there. In this embodiment, the control part 20 produces | generates the information for carrying out the audio | voice output of the message of the guidance content prescribed | regulated to the relevant information 30c in the user I / F part 460 as guidance information.

  Here, as a type in the case where there is a relationship between one attention event and another attention event, a type in which another attention event is caused by one attention event, and one attention event and another attention event are both For example, there may be a type that can be presumed to have been caused by a common cause and a type in which a series of behavior patterns of a driver can be derived by a series of one attention event and another attention event.

  As shown in Table 1, with the function of the guidance control unit 21b, the control unit 20 causes the step between the passage of the step and the slip when the step and the slip as the attention event occur in order in the same event vehicle. It is determined that there is a relevance to the vehicle, and the guide vehicle guides that a slip has occurred due to a step. When the passage of a step as an attention event and a slip occur in order, this corresponds to a type in which another attention event occurs due to a certain attention event. In such a case, the control unit 20 provides at least a guidance for notifying the contents of the causative attention event or preventing the attention event as a guidance in which a plurality of attention events are associated with each other. What is necessary is just to guide in the part 460.

  Further, the function of the guidance control unit 21b allows the control unit 20 to have a relationship between sudden deceleration and reverse running when sudden deceleration and reverse running as an attention event occur in order in the same event vehicle. And the guidance vehicle guides that the point is easy to mistake the branch direction. When sudden deceleration and reverse running as attention events occur in order, this corresponds to a type in which a series of behavior patterns of the driver can be derived. As shown in Table 1, even when reverse running and rapid deceleration occur in order, it can be estimated that a series of action patterns that are highly likely to be performed by the driver when recognizing reverse running are performed. In such a case, the control unit 20 provides guidance indicating that a series of behavior patterns of the driver may occur as guidance associated with a plurality of attention events, and guidance for preventing the behavior patterns of the requesting vehicle. The user I / F unit 460 may guide the user.

  If there is a slip or sudden deceleration after a regulatory oversight as a caution event before the stop regulation point, a type that can be presumed that one caution event and another caution event were caused by a common cause It corresponds to. In other words, if there was a slip or sudden deceleration after an oversight of a regulation, it was difficult to find a stop regulation point (road sign, paint, etc.) in the first place. It can be estimated that Similarly, when there was a step, one-way closed, or a general road U-turn after sudden deceleration, it was difficult to find obstacles in the first place. It can be estimated that it was the cause. Furthermore, even when there is a one-sided road closure after slipping, it can be presumed that the difficulty in finding obstacles in the first place was the cause of these attention events occurring continuously. On the other hand, if there is a danger curve after a slip or sudden deceleration, it can be estimated that the fact that the curve was inferior in the first place was the cause of these attention events occurring continuously. In such a case, the control part 20 should just guide the user I / F part 460 of a request | requirement vehicle to show the guidance which shows a common cause as guidance which linked | related several attention events.

  On the other hand, if it is not determined that there is a relationship between the attention event that has occurred first and the attention event that has occurred later, the control unit 20 may include the content of the attention event that has occurred first and the content of the attention event that has occurred later. Guidance information for individually guiding the guidance contents corresponding to each of and is generated. For example, when the attention event that has occurred first and the attention event that has occurred later are reverse running and slip, respectively, the control unit 20 indicates a message indicating that attention should be paid to reverse running and that attention should be paid to slip. Guidance information for outputting voice messages individually is generated.

  The guidance information transmission unit 21c is a module that causes the control unit 20 to realize a function of transmitting guidance information to the navigation terminal 100 mounted on the requesting vehicle. That is, when the control unit 20 generates the guide information in response to the guide information acquisition request, the control unit 20 returns the guide information to the navigation terminal 100. As a result, the user I / F unit 460 of the requesting vehicle can output a message representing the guidance content. Note that the control unit 20 may instruct a guide point where the user I / F unit 460 of the requesting vehicle provides guidance based on the guide information. For example, among the plurality of caution events that occur continuously in the same event vehicle, A point a predetermined distance before the point of occurrence of the earliest attention event may be indicated as the guide point.

  In the present embodiment described above, when one caution event and another caution event occur successively in the same event vehicle, each of these caution events is not individually guided but associated with each other. Can guide. Therefore, appropriate guidance can be provided for attention events that occur continuously. For example, when passing of a step as a caution event and slip occur in order, the user is likely to be able to prevent slip if he / she first pays attention to the step by guiding the occurrence of slip due to the step. I can recognize that. Furthermore, when sudden deceleration and reverse running as attention events occur in order, it can be estimated that sudden deceleration and reverse running were performed in order after recognizing a mistake after entering the wrong branch road. In such a case, if the rapid deceleration and the reverse running are guided separately, it becomes difficult for the user to intuitively understand what is the problem. On the other hand, the user can pay attention to a sign or the like indicating the branch direction at the branch point by guiding the point where the branch direction is easily mistaken. As a result, both rapid deceleration and reverse running can be prevented.

  Here, even if one attention event and another attention event occur continuously in the same event vehicle, these attention events may occur independently of each other. In such a case, it may be more appropriate to guide each attention event, rather than associating one attention event with another attention event. Therefore, only when it is determined that the plurality of attention events are related by the function of the guidance control unit 21b, the control unit 20 guides the plurality of attention events in association with each other. That is, when there is no relevance between the plurality of attention events, the control unit 20 guides the guidance contents corresponding to each of the plurality of attention events individually by the requesting vehicle.

  Further, the function of the guidance control unit 21b allows the control unit 20 to perform the plurality of attention events according to the occurrence order of the plurality of attention events when a plurality of attention events occur continuously in the same event vehicle. It is determined whether there is a relationship between them. There is a relation when another attention event occurs after a certain attention event, but there is a case where there is no relation when another attention event occurs before a certain attention event. For example, if one attention event (eg, the passage of a step) causes another attention event (eg slip), even if another attention event occurs before one attention event, It cannot be determined that there is sex. Therefore, by determining whether or not there is a relationship between the plurality of attention events according to the occurrence order of the plurality of attention events, it is possible to appropriately determine whether or not there is a relationship between the attention events.

(2) Caution event information transmission processing:
Next, attention event information transmission processing executed in the vehicle will be described. FIG. 2A is a flowchart of attention event information transmission processing. The attention event information transmission process is a process executed every predetermined time period or mileage period. First, the control unit 200 of the navigation terminal 100 acquires vehicle information (step S100). The vehicle information is information that can be derived from signals output from the sensors 410 to 450 and the ECU 440. That is, the vehicle information is information for the control unit 200 to detect the occurrence of each caution event listed in the vertical axis direction and the horizontal axis direction of Table 1.

  Next, by the function of the caution event information transmission unit 210a, the control unit 200 determines whether a caution event has occurred in the vehicle (step S110). That is, the control unit 200 determines whether any of the caution events listed in the vertical axis direction and the horizontal axis direction of Table 1 has occurred based on the vehicle information.

When it is not determined that a caution event has occurred in the vehicle (step S110: N), the control unit 200 returns to the beginning of the caution event information transmission process (step S100). That is, it waits until vehicle information is acquired in the next cycle.
On the other hand, when it is determined that an attention event has occurred in the vehicle (step S110: Y), the control unit 200 determines the content of the attention event, the occurrence point, the occurrence time, and the own vehicle (the event vehicle in which the attention event has occurred). Identification information is acquired (step S120).

  Next, the control part 200 produces | generates attention event information by the function of the attention event information transmission part 210a (step S130). The caution event information is information indicating the content of the caution event acquired at step S120, the occurrence point, the occurrence time, and the identification information of the host vehicle. Next, the control part 200 transmits attention event information to the attention guidance system 10 by the function of the attention event information transmission part 210a (step S140). The attention guidance system 10 can collect attention event information by executing the attention event information transmission processing described above in each vehicle traveling on the road.

(3) Attention guidance processing:
Next, attention guidance processing executed by the attention guidance system 10 will be described. FIG. 2B is a flowchart of the attention guidance process. The attention guidance process is a process executed when a guidance information acquisition request is received from the navigation terminal 100 of the requesting vehicle. In the acquisition request, information indicating the traveling road section where the requested vehicle is traveling and the current position is attached. The attention guidance system 10 executes attention guidance processing to transmit guidance information about the front of the current position on the traveling road section as a response to the acquisition request.

  First, the control unit 20 of the attention guidance system 10 receives an acquisition request for guidance information (step S200). Next, the control unit 20 extracts the attention event information stored in the attention event information DB 30b by the function of the attention event information acquisition unit 21a (step S210). Specifically, the control unit 20 acquires a forward section that is a section ahead of the current position on the traveling road section on which the requested vehicle is traveling, and displays caution event information that uses the position in the forward section as the occurrence point. Extract. The front section is a section from the current position to a position ahead of a predetermined distance (for example, 500 m) in the traveling road section.

  Next, by the function of the guidance control unit 21b, the control unit 20 determines whether or not even one piece of attention event information has been extracted (step S220). When it is not determined that at least one piece of attention event information has been extracted (step S220: N), the control unit 20 uses the function of the guidance control unit 21b to send information indicating that guidance for the attention event is not performed to the requesting vehicle. It transmits to the navigation terminal 100 (step S230), and attention guidance processing is complete | finished. That is, it is assumed that the attention event has never occurred in the front section of the requested vehicle, and the requested vehicle is not alerted to the attention event.

  When it is determined that even one piece of attention event information has been extracted (step S220: Y), the control unit 20 uses the function of the guidance control unit 21b to determine whether or not a plurality of attention events have occurred continuously in the same event vehicle. Is determined (step S240). That is, the control unit 20 has the same identification information of the event vehicle among the attention events in which the occurrence point exists in the front section of the request vehicle, and the difference in the occurrence time is within a predetermined period (for example, 30 seconds). When a plurality of attention events can be extracted in step S220, it is determined that attention events have continuously occurred in the same event vehicle. Note that even when there is only one piece of attention event information that can be extracted in step S220, that is, when there is only one piece of attention event occurring in the front section of the requested vehicle, the control unit 20 determines that the same event vehicle is used. Therefore, it is not determined whether multiple attention events occur consecutively. Further, in the present embodiment, it is assumed that two attention events having the closest occurrence times or occurrence points are acquired as a plurality of attention events that have occurred in succession.

  Here, in some event vehicles, a plurality of attention events occurred continuously in the front section, but in other vehicles, a plurality of attention events with different combinations and different orders may occur continuously. Furthermore, although a plurality of attention events occurred continuously in a forward section in a certain event vehicle, there may be a case where no attention event has occurred in another vehicle. Therefore, when the number or ratio of event vehicles in which a plurality of attention events having the same order as the combination are generated is greater than or equal to the threshold value, the control unit 20 continues the plurality of attention events in the same event vehicle. It may be determined that the error occurred. That is, the control unit 20 considers that a plurality of attention events are not continuously generated in the same event vehicle when the number or the ratio of event vehicles in which a plurality of attention events are continuously generated is less than the threshold value. Also good.

  For example, for each combination of a plurality of attention events that have occurred successively, the control unit 20 acquires the number of consecutive occurrences that is the number of event vehicles in which the combination has occurred in order, and the maximum value of the number of consecutive occurrences is greater than or equal to a threshold value In this case, it may be determined that a plurality of attention events have occurred successively. And control part 20 may acquire a combination of a plurality of attention events with the maximum number of consecutive occurrences as a plurality of attention events which arose continuously in the same vehicle. In addition, instead of the above-described maximum value of the continuously generated number, the control unit 20 determines that the same event occurs when the ratio obtained by dividing the maximum value of the continuously generated number by the total number of passing vehicles in the front section is equal to or greater than the threshold value. It may be determined that a plurality of attention events occur continuously in the vehicle.

  When it is determined that attention events occur continuously in the same event vehicle (step S240: Y), the control unit 20 uses the function of the guidance control unit 21b to cause the control unit 20 to continuously generate a plurality of attention events. It is determined whether there is a relationship between them (step S260). That is, when the guidance information corresponding to the combination of the content of the attention event that occurred first and the content of the attention event that occurred later is specified in the related information 30c shown in Table 1, It is determined that there is a relationship between the generated attention event and the subsequent attention event.

When it is determined that there is a relationship between a plurality of caution events that occur continuously in the same vehicle (step S260: Y), the control unit 20 continuously occurs in the same vehicle by the function of the guidance control unit 21b. A guidance content in which a plurality of attention events are associated with each other is acquired (step S270).
That is, in the related information 30c shown in Table 1, guidance contents corresponding to a plurality of attention events that occur continuously in the same vehicle are acquired.

  On the other hand, when it is not determined whether or not a plurality of attention events have occurred continuously in the same event vehicle (step S240: N), and between a plurality of attention events that have occurred continuously in the same vehicle If it is not determined that there is a relationship (step S260: N), the control unit 20 acquires guidance contents individually corresponding to the attention event (single or plural) by the function of the guidance control unit 21b (step S250). ). For example, if it is not determined that there is a relevance between a plurality of attention events that occur continuously in the same vehicle, the control unit 20 acquires the guidance content corresponding to each of the plurality of relevance attention events. May be. Moreover, the control part 20 may acquire the guidance content corresponding to the attention event with the highest frequency of occurrence among the attention events that have occurred in the forward section.

  As described above, when the guidance content is acquired in step S250 or step S270, the control unit 20 generates guidance information indicating the guidance content by the function of the guidance control unit 21b, and transmits a guidance information acquisition request. It transmits to the navigation terminal 100 of the requesting vehicle (step S280). That is, when the guidance content is acquired in step S250, the control unit 20 uses the user I / F unit 460 of the requesting vehicle to provide guidance content in which a plurality of attention events that have occurred continuously in the same vehicle are associated with each other. Guidance information for guiding is transmitted to the navigation terminal 100. On the other hand, when the guidance content is acquired in step S270, the control unit 20 provides the navigation terminal 100 with guidance information for guiding the guidance content individually corresponding to the attention event by the user I / F unit 460 of the requesting vehicle. Send. Thereby, the navigation terminal 100 of a request | requirement vehicle can output the message corresponding to a caution event in the user I / F part 460 based on guidance information.

(4) Other embodiments:
In the above-described embodiment, the control unit 20 performs the guidance in which the plurality of attention events are related when the plurality of continuous attention events are related by the function of the guidance control unit 21b. Regardless, guidance associated with the plurality of attention events may be performed. For example, when the preceding attention event A and the subsequent attention event B occur consecutively, the control unit 20 determines that “the cause of the attention event B” regardless of whether or not the relationship is true. Therefore, guidance information indicating a message “Please pay attention to attention event A” may be generated. In addition, the guidance content for associating and guiding a plurality of attention events is not limited to the example shown in Table 1.

  The above embodiment is an example for carrying out the present invention, and various other embodiments can be adopted. The attention event information acquisition means only needs to acquire the attention event information indicating the attention event and the event vehicle, may receive the attention event information from the vehicle, or the attention event information from the recording medium storing the attention event information. May be obtained. The attention event information acquisition unit may acquire a plurality of pieces of attention event information from the same event vehicle so that it can be determined whether or not a plurality of attention events have continuously occurred in the same event vehicle. The attention event information may be information indicating at least the attention event (content of the attention event) and the event vehicle (vehicle identification information), and other information of the attention event (occurrence point, occurrence time, attention event) Degree, etc.). An attention event is an event that can occur in a vehicle, and may be an operation state of a predetermined vehicle, a movement state of a predetermined vehicle, or an environment (obstacle) of a region where the vehicle travels. Weather, traffic jams, etc.). The attention event may not be an event that occurs mainly by the vehicle, but may be an event in which the vehicle is involved.

  When a plurality of attention events occur continuously in the same event vehicle, the guidance control means may relate the plurality of attention events to each other and guide the vehicle, and associates the plurality of attention events. Guidance information for performing guidance may be generated. Thereby, guidance about an attention event can be performed in the vehicle which received guidance information. A plurality of attention events may occur continuously when the occurrence points of the plurality of attention events are within a predetermined distance or when the occurrence times of the plurality of attention events are within a predetermined period. There may be. Of course, the case where a plurality of attention events occur continuously includes the case where three or more attention events occur continuously. Guidance of a plurality of attention events in association with a vehicle may be guidance of an event that can be derived by associating a plurality of attention events. That is, the guidance control means may guide an event that can be derived for the first time by associating a plurality of attention events, and may guide an event that cannot be derived by each individual attention event.

  Here, the attention guidance system may be a server that is communicably connected to an in-vehicle terminal mounted on the vehicle. That is, the attention event information acquisition unit may be provided in the server, and the attention event information acquisition unit may acquire the attention event information indicating the attention event and the event vehicle in which the attention event has occurred from the in-vehicle terminal. In addition, the guidance control means is provided in the server, and when the plurality of attention events occur continuously in the same event vehicle, the guidance control means associates the plurality of attention events with each other and provides guidance on the vehicle. Guidance information may be generated and the guidance information may be transmitted to the in-vehicle terminal. Of course, the attention event information acquisition means and the guidance control means may be provided in the in-vehicle terminal, or the attention event information acquisition means and the guidance control means may be provided separately in the in-vehicle terminal and the server.

  In addition, when a plurality of attention events occur continuously in the same event vehicle, the guidance control means determines whether or not there is a relationship between the plurality of attention events, and the plurality of attention events. When there is a relationship between them, the plurality of attention events may be associated with each other and guided by the vehicle. Here, even if one attention event and another attention event occur continuously in the same event vehicle, these attention events may occur independently of each other. In such a case, it may be more appropriate to guide each attention event, rather than associating one attention event with another attention event. Therefore, only when it is determined that there is a relationship between a plurality of attention events, the guidance control means may relate and guide the plurality of attention events.

  Here, as a type in the case where there is a relationship between one attention event and another attention event, another attention event occurs due to one attention event, or one attention event and another attention event both Both cases are caused by a common cause, or it can be estimated that a driver has performed a series of behavior patterns due to a continuation of one attention event and another attention event.

  Further, the guidance control means determines whether there is a relationship between the plurality of attention events according to the occurrence order of the plurality of attention events when a plurality of attention events occur continuously in the same event vehicle. It may be determined whether or not. There is a relation when another attention event occurs after a certain attention event, but there is a case where there is no relation when another attention event occurs before a certain attention event. For example, when a certain attention event causes another attention event, even if another attention event occurs before one attention event, it cannot be determined that these attention events are related. In addition, if a certain attention event occurs first is a condition that another attention event will occur next, even if another attention event occurs before one attention event, these attention events It cannot be determined that there is a relationship between them. Therefore, by determining whether or not there is a relationship between the plurality of attention events according to the occurrence order of the plurality of attention events, it is possible to appropriately determine whether or not there is a relationship between the attention events.

  In addition, in the same event vehicle, the guidance control means determines that there is a relationship between the passage of the step and the slip when the passage of the step as a caution event and the slip occur in order, and the step The vehicle may be used to guide that slip has occurred. By guiding the occurrence of the slip due to the step, the user can recognize that it is highly possible to prevent the slip if paying attention to the step.

  Further, the guidance control means determines that there is a relationship between the sudden deceleration and the reverse running when the sudden deceleration and the reverse running as the caution event occur in order in the same event vehicle, and the branch direction. You may make it guide | invade with a vehicle that it is a point which is easy to mistake. If there is a sudden deceleration and reverse run at the branch point at the entrance of the interchange, it can be estimated that sudden deceleration and reverse run were performed in order after recognizing the mistake after entering the wrong branch road. In such a case, if the rapid deceleration and the reverse running are guided separately, it becomes difficult for the user to intuitively understand what is the problem. On the other hand, the user can pay attention to a sign or the like indicating the branch direction at the branch point by guiding the point where the branch direction is easily mistaken. As a result, both rapid deceleration and reverse running can be prevented.

  Furthermore, as in the present invention, a method for guiding an attention event can also be applied as a program or method. In addition, the system, program, and method as described above may be realized as a single device, or may be realized using components shared with each part of the vehicle, and include various aspects. It is a waste. For example, it is possible to provide a navigation system, a travel history information management system and method, and a program that include the above-described devices. Further, some changes may be made as appropriate, such as a part of software and a part of hardware. Furthermore, the invention is also established as a recording medium for a program for controlling the apparatus. Of course, the software recording medium may be a magnetic recording medium, a magneto-optical recording medium, or any recording medium to be developed in the future.

  DESCRIPTION OF SYMBOLS 10 ... Attention guidance system, 20 ... Control part, 21 ... Attention guidance program, 21a ... Attention event information acquisition part, 21b ... Guidance control part, 21c ... Guidance information transmission part, 22 ... Communication part, 30 ... Recording medium, 30a ... Map information, 30b ... Attention event information DB, 30c ... Related information, 100 ... Navigation terminal, 200 ... Control unit, 210 ... Navigation program, 210a ... Attention event information transmission unit, 210b ... Attention guidance unit, 220 ... Communication unit, 300 ... recording medium, 300a ... map information, 410 ... GPS receiver, 420 ... vehicle speed sensor, 430 ... gyro sensor, 440 ... ECU, 450 ... camera, 460 ... user I / F part.

Claims (5)

A caution guidance system for performing guidance on caution events that may occur in a vehicle by the vehicle,
Attention event information acquisition means for acquiring attention event information indicating the attention event and an event vehicle in which the attention event has occurred;
Guidance control means for associating the plurality of caution events with each other and guiding them in the vehicle when a plurality of the caution events occur continuously in the same event vehicle;
Bei to give a,
When the plurality of the caution events occur continuously in the same event vehicle, the guidance control means is arranged between the plurality of caution events according to the occurrence order of the plurality of caution events. It is determined whether or not there is a relationship, and when there is a relationship between the plurality of attention events, the plurality of attention events are associated with each other and guided in the vehicle.
Attention guidance system. The guidance control means determines that there is a relation between the passage of the step and the slip when the passage of the step and the slip as the caution event occur in order in the same event vehicle. And causing the vehicle to guide that the slip has occurred due to the step.
The attention guidance system according to claim 1 . In the same event vehicle, the guide control means determines that there is a relationship between the sudden deceleration and the reverse running when the sudden deceleration and the reverse running as the attention event occur in order. In addition, the vehicle guides that it is a point where the branch direction is easily mistaken,
The attention guidance system according to claim 1 or 2 . An attention guidance method for performing guidance on a caution event that may occur in a vehicle by the vehicle,
Attention event information acquisition step for acquiring attention event information indicating the attention event and the event vehicle in which the attention event has occurred;
When a plurality of the caution events occur continuously in the same event vehicle, a guidance control step of associating the plurality of caution events with each other and guiding the vehicle,
Only including,
In the guidance control step, when the plurality of caution events occur continuously in the same event vehicle, the plurality of caution events are generated according to the occurrence order of the plurality of caution events. It is determined whether or not there is a relationship, and when there is a relationship between the plurality of attention events, the plurality of attention events are associated with each other and guided in the vehicle.
Attention guide method. A caution guidance program for performing guidance on a caution event that may occur in a vehicle by the vehicle,
Attention event information acquisition function for acquiring attention event information indicating the attention event and the event vehicle in which the attention event has occurred;
When a plurality of the caution events occur continuously in the same event vehicle, a guidance control function for associating the plurality of caution events with each other and guiding the vehicle,
Is realized on a computer ,
When the plurality of attention events occur continuously in the same event vehicle, the computer controls the plurality of attention events according to the occurrence order of the plurality of attention events. Determining whether or not there is a relationship between the plurality of the caution events, and if there is a relationship between the plurality of the caution events, the plurality of the caution events are associated with each other and guided in the vehicle.
Attention guidance program.

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