JP2015184110A - Navigation device and vehicle control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To guide a route that can reduce a driver's driving load during congestion in a vehicle having a preceding vehicle tracking function.SOLUTION: A vehicle control ECU 3 selects a preceding vehicle as a tracking target to execute a preceding vehicle tracking function by controlling automatic tracking travel for the preceding vehicle when an instruction is given to start execution of automatic tracking travel. Navigation ECU 11 searches a route by prioritizing a high travelling volume section when the high travelling volume section is present from a viewpoint of enabling a stable execution of the automatic tracking travel (automatic driving) at the high travelling volume section, according to road traffic information obtained by a communication device when a route search is executed.

Description

  The present invention includes a navigation device capable of searching for a recommended route to a designated destination in a vehicle having a preceding vehicle tracking function and performing route guidance of the recommended route, and the navigation device. The present invention relates to a vehicle control system configured.

  In recent years, automatic driving technology has been developed in the field of automobiles. For example, the technologies described in Patent Documents 1 and 2 are considered. Among them, in Patent Document 1, steering is performed based on the provision of an automatic travel route in which a signal transmitter is embedded at a predetermined interval on a dedicated road for a vehicle, and a receiver on the vehicle side to receive a signal from the signal transmitter. An automatic traveling system that controls an accelerator and a brake is disclosed. Moreover, in this patent document 1, in a car navigation apparatus, an automatic travel route is preferentially selected when searching for a route to a destination.

  However, the technique of Patent Document 1 is based on the premise that infrastructure development is performed on an automobile-only road and an automatic traveling route is provided, and automatic driving in an automobile is possible only on the automatic traveling route. Therefore, even if it is realized, it will be limited to the use of only the section of the automatic driving route with infrastructure, and it will take a long time to realize it widely.

  Patent Document 2 discloses an automobile having an automatic driving function for automatically controlling the speed and brake so as to keep the distance between the vehicle and the preceding vehicle constant. And in this patent document 2, the vehicle ahead and a traffic light are image | photographed with the camera mounted in the own vehicle, The length of a traffic congestion area is determined based on the image, A traffic congestion area is more than predetermined value (1 km). If it is short, control is performed so that automatic operation is not started (manual operation of the driver is performed). However, this Patent Document 2 does not recommend automatic driving, but rather is a technology that takes away the opportunity to perform automatic driving.

JP 2004-125726 A JP 2005-324661 A

  By the way, on roads where automobiles travel, for example, there is a traffic jam at leisure such as skiing or traveling, or at homecoming (U-turn). When a driver is driving for a long distance and is involved in a traffic jam, the driver's driving load increases, and the driver often gets tired or frustrated. Therefore, at present, the driver makes various efforts, for example, leaving in the middle of the night or early in the morning so as to avoid the traffic jam as much as possible.

  In other words, in the past, the general idea was that traffic jams were not good, and it was a common idea to try to avoid traffic jams as much as possible. However, under the present circumstances, it is difficult to eliminate the traffic jam itself. Rather, even if there is a traffic jam, it is necessary to change the way of thinking such as reducing the driving load on the driver and minimizing frustration and fatigue.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a navigation device capable of guiding a route that can reduce a driver's driving load in a traffic jam in a vehicle having a preceding vehicle tracking function. And providing a vehicle control system.

  In order to achieve the above object, the navigation device (2) of the present invention searches for a recommended route to a designated destination in a vehicle (A) having a preceding vehicle tracking function, and provides route guidance for the recommended route. A road information acquisition means (15) for acquiring road traffic information including information on a high travel amount section in which a plurality of vehicles are continuously traveling among roads. And a high travel amount route search means (11) for searching for a route so that the high travel amount section is prioritized based on the road traffic information when the route search is executed. (Invention of Claim 1)

  In a vehicle having a preceding vehicle tracking function, automatic driving is performed by performing automatic tracking control to track the preceding vehicle that is traveling ahead on the road on which the host vehicle is to travel, so that the driver's driving The load can be reduced. In order to realize such a preceding vehicle tracking function, it is a requirement that the preceding vehicle stably exists on the road where the host vehicle wants to go.

  According to the navigation device (2) of the present invention, the road information acquisition means (15) acquires road traffic information including information on a high travel distance section in which a plurality of vehicles are continuously traveling in the road. Is done. At this time, it can be said that the high travel amount section is a road on which a plurality of vehicles are continuously traveling and the preceding vehicle is stably present. For example, a traffic jam section corresponds to the high travel amount section. Accordingly, the route is searched while the route capable of realizing the preceding vehicle tracking function is prioritized by searching for the route so that the high travel amount section is prioritized by the high travel amount route search means (11). Become so. Therefore, in the vehicle (A) having the preceding vehicle tracking function, it is possible to guide a route that can reduce the driving load on the driver in a traffic jam.

  In addition, the vehicle control system (1) of the present invention includes a tracking travel control device (3) that controls automatic tracking traveling for a preceding vehicle selected as a tracking destination and executes a preceding vehicle tracking function, and A vehicle control system including the navigation device (2) according to any one of the above, wherein automatic tracking travel is possible when traveling in the high travel distance section during route guidance by the navigation device (2). Judgment means (3) for determining whether or not, and notification means (10) for notifying the user that automatic tracking traveling by the tracking traveling control device (3) is possible according to the determination of the determination means. (Invention of claim 5)

  According to the vehicle control system (1) of the present invention, since the navigation device (2) according to any one of claims 1 to 4 is included, the route is searched so that priority is given to the high travel distance section. In addition, it is possible to perform a route search giving priority to a route that can realize the preceding vehicle tracking function. Then, when the vehicle travels in the high travel amount section, it is determined by the determining means (3) whether or not automatic tracking traveling is possible, and the tracking travel control device (3) is notified by the notification means (10) according to the determination. The user is informed that automatic tracking traveling by is possible. Therefore, the user (driver) can know that the automatic tracking traveling is possible by the notification, and can execute the automatic tracking traveling at an appropriate timing.

1 is a block diagram schematically showing an electrical configuration of a vehicle control system according to an embodiment of the present invention. Block diagram schematically showing the electrical configuration of the navigation device A flowchart schematically showing a procedure of route search processing in the navigation ECU The figure which shows a mode that a preceding vehicle is changed typically The figure which shows two types of patterns (a) and (b) in the case of searching a route so that a high travel amount section is given priority.

  Hereinafter, an embodiment embodying the present invention will be described with reference to the drawings. FIG. 1 schematically shows an electrical configuration of a vehicle control system 1 according to this embodiment mounted on a vehicle A (see FIG. 4; hereinafter referred to as “own vehicle A”). In this embodiment, The vehicle control system 1 is configured as a system including a navigation device 2 (see FIG. 2). FIG. 2 is a block diagram schematically showing an electrical configuration of the navigation device 2 according to the present embodiment.

  As shown in FIG. 1, the vehicle control system 1 includes a vehicle control ECU 3 as a tracking travel control device for realizing a well-known preceding vehicle tracking function. The vehicle control ECU 3 is mainly composed of a microcomputer. The vehicle control ECU 3 includes an engine ECU 5, a transmission ECU 6, a brake ECU 7, a steering ECU 8, various sensors 9, a display device 10, a navigation ECU 11, a wireless communication device 12, and the like via an in-vehicle LAN 4 such as a CAN (Car Area Network). Are connected to each other. The various sensors 9 include a G sensor, a yaw rate sensor, a vehicle speed sensor, and the like mounted on the host vehicle A.

  Further, a laser radar 13 and an operation switch 14 are connected to the vehicle control ECU 3. The laser radar 13 irradiates the front of the host vehicle A with a laser beam and receives the reflected light, so that the distance between the preceding vehicles B and B ′ (see FIG. 4) and the preceding vehicles B and B ′ is increased. The distance, the relative speed with respect to the preceding vehicles B and B ′, the amount of lateral deviation with respect to the preceding vehicles B and B ′, and the like can be detected. A plurality of laser radars 13 may be provided, or a vehicle-mounted camera may be used in place of the laser radar 13.

  The operation switch 14 includes a switch for the user (driver) to instruct the start and end of execution of the automatic tracking travel. The display device 10 is provided at a position where the driver can visually recognize, for example, an instrument panel (meter unit), for example, and functions as a notification unit that notifies the user whether or not automatic tracking traveling is possible, as will be described later. To do. The display device 10 is provided separately from the display device of the navigation device 2 to be described later, but may also be used as the display device of the navigation device 2.

  The vehicle control ECU 3 selects the preceding vehicle B as the tracking destination when an instruction to start execution of the automatic tracking travel is given from the operation switch 14, and controls the automatic tracking traveling for the preceding vehicle B to control the preceding vehicle. Execute the tracking function. The control of this automatic tracking travel is based on signals from the laser radar 13 and signals from the various sensors 9 to the engine ECU 5, transmission ECU 6, brake ECU 7, and steering ECU 8 via the in-vehicle LAN 4. This is done by sending Thus, automatic tracking traveling is performed in which the own vehicle A automatically tracks at a predetermined traveling speed with a certain distance between the vehicles behind the selected preceding vehicle B.

  At this time, the vehicle control ECU 3 determines, for example, whether or not automatic tracking traveling is possible based on an instruction from the user, and when it is possible, starts the automatic tracking traveling by operating the operation switch 14 of the user. As will be described in detail later, the vehicle control ECU 3 determines whether or not automatic tracking travel is possible even when traveling in a high travel distance section described later, and determines that automatic tracking traveling is possible. In addition, the display device 10 informs the user accordingly. Therefore, the vehicle control ECU 3 functions as a determination unit, and constitutes a notification unit together with the display device 10 and the like. Furthermore, in the present embodiment, as will be described later, the vehicle control ECU 3 also functions as a tracking destination changing unit.

  On the other hand, as shown in FIG. 2, the navigation device 2 includes the navigation ECU 11 and is connected to the navigation ECU 11 for wireless communication with the outside, a position for detecting the position of the vehicle. The detection unit 16, the display device 17, the operation switch group 18, the sound output device 19, the map database 20, and the like are provided. The navigation ECU 11 is mainly configured by a computer having a CPU, a ROM, a RAM, and the like, and controls the entire navigation device 2 according to a program stored in the ROM or the like.

  The position detection unit 16 includes a GPS receiver 21 that receives a transmission radio wave from a GPS (Global Positioning System) satellite for vehicle position measurement by radio navigation. At the same time, the position detection unit 16 detects the direction of the host vehicle A, the gyro sensor 23 detects the turning angle of the host vehicle A, and the host vehicle A to estimate the vehicle position by the self-contained navigation. A distance sensor 24 for detecting the travel distance is included. The navigation ECU 11 detects the current position (absolute position), traveling direction, speed, travel distance, current time, etc. of the host vehicle A based on inputs from the sensors 21 to 24 constituting the position detection unit 16. It is like that.

  The map database 20 stores, for example, road map data all over Japan, facility data such as various facilities and stores, map matching data, and the like that accompany it. The road map data is given as link data in which a road on a map is divided into a plurality of parts using intersections as nodes and the parts between the nodes are defined as links. This link data includes data such as link-specific link ID (identifier), link length, link start point, end point (node) position data (longitude, latitude), angle (direction) data, road width, road type, and the like. Consists of. Data for reproducing (drawing) the road map on the screen of the display device 17 is also included.

  The operation switch unit 18 includes a touch panel provided on the screen of the display device 17 and a mechanical switch arranged around the touch panel. The display device 17 is composed of, for example, a liquid crystal display capable of color display, and is provided, for example, at the center of an instrument panel in the passenger compartment. On the screen of the display device 17, for example, a menu screen or a map screen when using the navigation function is displayed. The audio output device 19 includes a speaker or the like, and outputs music or guide audio.

  Further, the communication device 15 is a navigation function such as road traffic information (information on traffic jams, accidents, construction, lane regulations, traffic regulations, etc.) transmitted by radio communication from an information center such as a VICS (registered trademark) center, for example. Receive up-to-date data that is useful to you. At this time, in this embodiment, the communication device 15 can acquire information on a high travel amount section (including a traffic jam section) in which a plurality of vehicles are continuously traveling on the road. Accordingly, the communication device 15 functions as a road information acquisition unit.

  Thus, as is well known, the navigation device 2 (the navigation ECU 11) displays a location function for displaying the detected position of the host vehicle A together with the road map on the screen of the display device 17, and a destination specified by the user. A recommended route is searched and a navigation process such as a route guidance function for guiding the route is executed. At this time, in realizing the location function, in order to put the position of the own vehicle A on the road on the electronic map to be displayed, an error is considered between the movement locus of the own vehicle A and the road shape in the road map data. Then, a map matching process is performed to compare and collate and estimate the road that is currently running. The route search is performed using, for example, a well-known Dijkstra method. As is well known, the route guidance is performed by outputting necessary guidance voice by the voice output device 19 together with the screen display of the display device 17.

  Here, the Dijkstra method generally used in route search will be briefly described. In the route search, from the starting point (current location) to the destination, the search for the road (link) to the next reachable intersection (node) and the cost (evaluation value) are sequentially performed until the destination. Is obtained by obtaining a route (link string) having the minimum cost. The cost of the link and the cost of the node are road length, road type, number of lanes, road width, sharp curve, undulation (gradient), signal, presence / absence of temporary stop and level crossing, lane regulation, congestion degree, road surface condition For example, when other conditions are the same road (link), the value is almost proportional to the road length. In addition, when making a right or left turn at an intersection (node), the cost is higher than when going straight.

  In this embodiment, from the viewpoint that the above-described automatic tracking traveling (automatic driving) can be stably performed in the high travel amount section, the navigation ECU 11 performs the communication device when performing the route search. On the basis of the road traffic information acquired by 15, when there is a high travel amount section, the route is searched so that the high travel amount section is given priority. Therefore, the navigation ECU 11 functions as a high travel amount route search means.

  Specifically, a predetermined (reference) cost is given in advance to the road data (link data, node data) for route search in the map database 20, but route search (cost calculation). In order to travel over a long distance as much as possible (execute automatic operation at a long distance as much as possible), the cost change (weighting) is made so as to reduce the cost for the high travel distance section. It has been made.

  Further, in this embodiment, when searching for a route so as to give priority to the high travel amount section, the route can be searched in two patterns as shown in FIG. As a first pattern, as shown in FIG. 5 (a), in the route from the departure point S to the destination G, the distance over which the high travel distance section (indicated by a bold line) continues is the longest. The route can be searched. Further, as a second pattern, as shown in FIG. 5B, the ratio of the total distance of a plurality of high travel distance sections (represented by bold lines) in the entire route from the departure point S to the destination G is The route can be searched so as to be the largest. In FIG. 5, a thick dotted line represents a road other than the high travel amount section (a road on which manual driving is performed). In the present embodiment, the user sets in advance which pattern the route is searched for (prioritized).

  Further, in the present embodiment, the vehicle control ECU 3 is at the time of executing the route guidance of the recommended route by the navigation device 2 and at the time of executing the preceding vehicle tracking function, and as shown in FIG. When the preceding vehicle B is off the recommended route (for example, when exiting an expressway), automatic tracking traveling is performed while reselecting another preceding vehicle B ′ traveling (preceding) on the recommended route as a tracking destination. Is to continue to run. Therefore, the vehicle control ECU 3 also has a function as tracking destination changing means.

  Next, the operation of the above configuration will be described with reference to FIG. The flowchart in FIG. 3 schematically shows a processing procedure for searching for a route that prioritizes the high travel amount section when the navigation ECU 11 searches for a recommended route. Here, for example, in the initial setting of the navigation apparatus 2, the user sets in advance which of the two patterns shown in FIG. 5 is better according to his / her preference (step S0).

  In this case, in the first pattern (see FIG. 5A) in which the route having the longest distance in which the high travel amount section (automatic operation section) continues is selected, the user can set the sharpness by setting this. It is possible to drive with. On the other hand, in the second pattern (see FIG. 5B) in which the route with the largest total distance ratio of the high travel amount section (automatic operation section) is selected, switching between automatic operation and manual operation is performed. Since the number of times tends to increase (becomes frequent), if it is a user who is not particular about continuity, if this is set, the time for manual operation as a whole can be reduced as much as possible.

  In performing the route search, first, the destination G is set in step S1. In the next step S2, candidate routes from the current location (departure location S) to the destination G are searched. In step S3, road traffic information is acquired by the communication device 15, and information on a high travel amount section (congested section) around the candidate route is acquired. In the next step S4, a route is determined so as to give priority to the high travel amount section (run as long as possible) while considering a preset route selection priority pattern. In step S5, the searched route is presented to the user as the minimum driving load route.

  Thereafter, route guidance is started by the user's guidance start operation. Although not shown, the recommended route information is also sent from the navigation ECU 11 to the vehicle control ECU 3. Then, when the route guidance is started and the vehicle A enters the high travel amount section where the own vehicle A enters (immediately before entering), the vehicle control ECU 3 determines whether the automatic tracking travel is possible (whether the preceding vehicle B exists). Etc.). When it is determined that automatic tracking traveling is possible, the display device 10 displays that automatic tracking traveling is possible.

  Therefore, when the user (driver) wants to switch to automatic driving, he / she operates the operation switch 14 to instruct automatic tracking driving, thereby automatically tracking the preceding vehicle B under the control of the vehicle control ECU 3 (automatic driving). Is started. As a result, automatic driving along the recommended path is performed without the driver operating the accelerator, brake, steering, etc., and the driving load on the driver is greatly reduced. In this case, the congested section on the road becomes a high travel amount section, and the driver does not have to drive by driving automatically in such a congested section in long-distance travel, for example. It becomes possible to reduce frustration and fatigue.

  At this time, as described above, as long as the own vehicle A is traveling in the high travel amount section of the recommended route, as shown in FIG. 4, the preceding vehicle B that has been selected so far is off the route. In such a case, the preceding vehicle B is not followed, and the automatic tracking traveling is continuously executed while reselecting another preceding vehicle B ′ as the tracking destination instead of the preceding preceding vehicle B. Then, when it is difficult to continue the automatic tracking travel, such as when the high travel distance section ends, the display device 10 displays that the automatic tracking travel is no longer possible, and can be manually operated by the user or automatically. Switch to operation.

  As described above, according to the navigation device 2 of the present embodiment, in the vehicle A having the preceding vehicle tracking function, the traffic communication device 15 allows a plurality of vehicles such as a traffic jam section to continuously travel on the road. It is possible to obtain road traffic information including information on the travel amount section and perform a route search that gives priority to the high travel amount section. In this high travel distance section, automatic tracking travel can be executed stably, so that it is possible to provide an excellent effect that it is possible to guide a route that can reduce the driving load of the driver in a traffic jam Can do.

  Moreover, according to the vehicle control system 1 of the present embodiment, the vehicle control ECU 3 that controls the automatic tracking traveling with respect to the preceding vehicle B selected as the tracking destination and executes the preceding vehicle tracking function, and the navigation device 2 described above are provided. Therefore, in the vehicle A having the preceding vehicle tracking function, it is possible to guide a route that can reduce the driving load of the driver in a traffic jam. At this time, the tracking travel control device 3 determines whether or not automatic tracking travel is possible when traveling in the high travel amount section during route guidance by the navigation device 2 and informs the user, so that the user (driver) Can know that automatic tracking traveling is possible by the notification, and can easily execute automatic tracking traveling at an appropriate timing.

  In the above-described embodiment, the user selects one of the two patterns when the route is searched with priority on the high travel distance section. While searching for a plurality of routes to the destination, a plurality of routes including both of these patterns may be searched, and at the start of route guidance, the user may select one of the routes.

  In addition, various modifications can be made to the hardware configuration and software configuration of the vehicle control system 1 (vehicle A) for realizing the preceding vehicle tracking function. In addition, the navigation device is not limited to a vehicle-mounted type, but may be a portable type (including a smartphone) or a so-called center calculation type. The present invention is described above and shown in the drawings. However, the present invention is not limited to the embodiments, and can be implemented with appropriate modifications within a range not departing from the gist.

  In the drawings, 1 is a vehicle control system, 2 is a navigation device, 3 is a vehicle control ECU (tracking travel control device, determination means, tracking destination changing means), 4 is an in-vehicle LAN, 10 is a display device (notification means), 11 is Navi ECU (high travel amount route search means), 14 is an operation switch, 15 is a communication device (road information acquisition means), 16 is a position detection unit, 20 is a map database, A is its own vehicle, B and B 'are preceding vehicles Indicates.

Claims (6)

A navigation device (2) capable of searching for a recommended route to a designated destination in a vehicle (A) having a preceding vehicle tracking function and performing route guidance of the recommended route,
A road information acquisition means (15) for acquiring road traffic information including information on a high travel amount section in which a plurality of vehicles are continuously traveling on the road is provided.
A navigation apparatus comprising high travel route search means (11) for searching for a route so that the high travel amount section is given priority based on the road traffic information when the route search is executed.   The high travel route search means (11) searches for a route so that a distance in which the high travel interval continues is longest in a route from a starting point to a destination. The navigation device according to 1.   The high travel amount route searching means (11) searches for a route so that a ratio of the total distance of the plurality of high travel amount sections in the entire route from the starting point to the destination is the largest. The navigation device according to claim 1.   4. The road information acquisition means (15) according to any one of claims 1 to 3, wherein the congested section is set as the high travel amount section based on the congested information obtained by wireless communication from the outside. The navigation device described. A tracking travel control device (3) that controls automatic tracking travel for a preceding vehicle selected as a tracking destination to execute a preceding vehicle tracking function; and a navigation device (2) according to any one of claims 1 to 4; A vehicle control system (1) comprising:
Determination means (3) for determining whether or not automatic tracking travel is possible when traveling in the high travel distance section during route guidance by the navigation device (2);
A vehicle control system comprising: notification means (10) for notifying a user that automatic tracking traveling by the tracking traveling control device (3) is possible according to the determination by the determining means. At the time of execution of route guidance of the recommended route by the navigation device (2) and at the time of execution of the preceding vehicle tracking function,
When the preceding vehicle that is the tracking destination deviates from the recommended route, the tracking traveling control device (3) re-selects another preceding vehicle that travels on the recommended route as the tracking destination. 6. The vehicle control system according to claim 5, further comprising:

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