JPWO2017159662A1 - Route learning system and route learning program - Google Patents

Abstract

Provided is a technique for preventing a break history from being learned. A planned travel route acquisition unit that acquires a planned travel route, a travel history acquisition unit that acquires a travel history of a vehicle, and a route that acquires an off-route section in which the travel history is different from the planned travel route. An outer section acquisition unit, a section between the branch point from the main line to the facility and the return point from the facility to the main line is excluded from the section outside the route, and the facility between the branch point and the return point A path learning system is provided that includes an out-of-path section correction unit that performs correction for connection in a section that does not include a path, and a learning unit that learns the out-of-path section after correction.

Description

  The present invention relates to a route learning system and a route learning program that support driving of a vehicle.

  2. Description of the Related Art Conventionally, a technique for performing driving support in accordance with a traveling state of a vehicle is known. For example, Patent Literature 1 discloses a technique of learning a history of traveling on a link outside a route, and replacing a section on the route with a learned route when the number of travels of the learned route is large.

JP2012-208052A

In the conventional technology, learning is performed when the number of times the link outside the route travels is large, and when the route is learned, the section on the route is replaced with the learned route. However, even if the route passes frequently, it may be inappropriate that the route is a guidance target. For example, when a user uses a facility existing around a route a plurality of times, if the facility is guided as a route to be traveled, the user feels uncomfortable. That is, even if a specific facility has been used in the past, the facility is not always used in all cases. Therefore, even if a route that always stops at a facility is guided, it is not always the guidance that the user desires.
This invention is made | formed in view of the said subject, and it aims at providing the technique which prevents that the log | history which stopped at the facility is learned.

  In order to achieve the above object, a planned travel route acquisition unit that acquires a planned travel route, a travel history acquisition unit that acquires a travel history of a vehicle, and an off-route section in which the travel history is different from the planned travel route A route learning system is provided that includes an off-route section acquisition unit that acquires the information and a learning unit that learns by removing the section for stopping at the facility from the off-route section.

  Furthermore, in order to achieve the above object, the computer includes a planned travel route acquisition unit that acquires a planned travel route, a travel history acquisition unit that acquires a travel history of a vehicle, and the travel history is a section different from the planned travel route. A route learning program is configured to function as an off-route section acquisition unit that acquires an off-route section and a learning unit that learns by removing a section for stopping at a facility from the off-route section.

  That is, in the route learning system and program, when a section outside the route different from the planned traveling route is traveled by the vehicle, the traveling section for stopping at the facility is excluded from the section outside the learning. As a result, it is possible to prevent the history of visiting the facility from being learned.

It is a block diagram of a navigation system including a route learning system. 2A is a flowchart of route guidance processing, and FIG. 2B is a flowchart of route learning processing. 3A, 3B, 3C, and 3D are diagrams schematically showing roads around the SAPA.

Here, embodiments of the present invention will be described in the following order.
(1) Configuration of navigation system:
(2) Route guidance processing:
(2-1) Route learning process:
(3) Other embodiments:

(1) Configuration of navigation system:
FIG. 1 is a block diagram showing a configuration of a navigation system 10 including a route learning system according to the present invention. The navigation system 10 includes a control unit 20 including a CPU, a RAM, a ROM, and the like, and a recording medium 30, and the control unit 20 can execute a program stored in the recording medium 30 and the ROM. In the present embodiment, a navigation program can be implemented as one of the programs, and the navigation program includes a route learning program 21 as one of the program modules.

  Map information 30a is recorded in the recording medium 30 in advance. The map information 30a is information used for specifying the current location of the vehicle, node data indicating the position of the node set on the road on which the vehicle travels, and the shape for specifying the shape of the road between the nodes. Interpolation point data, link data indicating connection between nodes, facility data indicating the position and type of facilities existing on the road and its surroundings, and the like are included.

  The facility includes a service area (hereinafter referred to as “SA”) and a parking area (hereinafter referred to as “PA”). Information indicating the presence in the PA is associated. Further, the map information 30a includes information capable of distinguishing smart interchanges that can exit to other roads without returning to the original road from the SA or PA. Such information can be expressed in various ways, and in this embodiment, information indicating that it is a smart interchange corresponds to a link exiting from SA or PA to another road different from the original road. It is attached.

  The vehicle in this embodiment (a vehicle equipped with the navigation system 10) includes a GPS receiver 41, a vehicle speed sensor 42, a gyro sensor 43, and a user I / F unit 44 in order to realize a function based on the navigation program. The functions of the navigation program including the route learning program 21 are realized by the cooperation of these units and the control unit 20.

  The GPS receiver 41 receives radio waves from GPS satellites and outputs a signal for calculating the current location of the vehicle via an interface (not shown). The control unit 20 acquires this signal and acquires the current location of the vehicle. The vehicle speed sensor 42 outputs a signal corresponding to the rotational speed of the wheels provided in the vehicle. The control unit 20 acquires this signal via an interface (not shown) and acquires the vehicle speed. The gyro sensor 43 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 20 acquires this signal and acquires the traveling direction of the vehicle. The vehicle speed sensor 42, the gyro sensor 43, and the like are used to specify the travel locus of the vehicle. In the present embodiment, the current location is specified based on the departure position and the travel locus of the vehicle, and the departure position and the travel locus. Based on the output signal of the GPS receiver 41, the current location of the vehicle specified based on the above is corrected.

  The user I / F unit 44 includes an output device that outputs various guides based on a control signal output from the control unit 20 and an input device that inputs instructions from both. The output device of the user I / F unit 44 of the present embodiment includes a speaker that outputs guidance by voice and a touch panel display that outputs guidance by image. In addition, the input device of the user I / F unit 44 of the present embodiment includes a touch panel display that detects a user's touch position and the like, a button that detects a user's push-in operation, and the like.

  The control unit 20 receives the destination designated by the user by executing the navigation program, and searches for a planned travel route from the current location to the destination. In addition, the control unit 20 can perform route guidance for guiding the vehicle along the planned travel route by executing a navigation program. In the present embodiment, the control unit 20 learns an out-of-route section when the vehicle travels through an out-of-route section that is a route outside the planned travel route by the processing of the route learning program 21.

  However, the control part 20 correct | amends an off-route area, when the path | route for stopping at a facility is contained in the off-route area. In order to perform such processing, the route learning program 21 includes a planned travel route acquisition unit 21a, a travel history acquisition unit 21b, an out-of-route section acquisition unit 21c, an out-of-route section correction unit 21d, and a learning unit 21e.

  The planned travel route acquisition unit 21a is a program module that causes the control unit 20 to realize the function of acquiring the planned travel route. That is, the control unit 20 outputs a control signal to the user I / F unit 44 to display a screen for allowing the user to specify a destination. When the user designates the destination on the screen, the control unit 20 acquires the destination. Further, the control unit 20 specifies the current location based on output signals from the GPS receiving unit 41, the vehicle speed sensor 42, and the gyro sensor 43. And the control part 20 searches the path | route from the present location to the destination with the Dijkstra method etc. with reference to the map information 30a. When the planned travel route is searched, the control unit 20 records the planned travel route information 30b indicating the planned travel route on the recording medium 30.

  The travel history acquisition unit 21b is a program module that causes the control unit 20 to realize a function of acquiring a travel history of the vehicle. In the present embodiment, the control unit 20 identifies the current location based on the output signals of the GPS receiving unit 41, the vehicle speed sensor 42, and the gyro sensor 43, and every certain period (or every certain distance) while the vehicle is traveling. The current location and time are associated with each other as a travel history. The control unit 20 records the travel history information 30c indicating the travel history in the recording medium 30, and adds a travel history to the travel history information 30c when the current location is newly specified as the travel history.

  The off-route section acquisition unit 21c is a program module that causes the control unit 20 to realize a function of acquiring an off-route section whose travel history is different from the planned travel route. Specifically, the control unit 20 acquires the latest planned travel route information 30b by the processing of the planned travel route acquisition unit 21a at a predetermined timing (for example, when the vehicle arrives at the destination), and the travel history acquisition unit 21b. The latest traveling history information 30c is acquired by the process. Then, the control unit 20 compares the latest planned travel route information 30b and the latest travel history information 30c, and if there is a different section, the control section 20 extracts the section from the travel history as an off-route section.

  The off-path section correction unit 21d excludes the section between the branch point from the main line to the facility and the return point from the facility to the main line from the off-route section, and does not include the facility between the branch point and the return point. It is a program module that causes the control unit 20 to realize a function of performing correction connected in a section. That is, in this embodiment, the control unit 20 excludes the stop-by route to the facility from the off-route section as a section that should not be learned. In addition, when the stop route to the facility is not included in the section outside the route, the correction is not performed.

  The rest area in this embodiment is SA or PA. In order to stop at the SA or PA, the vehicle needs to enter the SA or PA via an approach path to stop at the SA or PA, and exit from the SA or PA via an exit path. The approach and exit routes are connected to the main line, the intersection as the connection point between the approach route and the main line is a branch point to SA or PA, and the intersection as the connection point between the exit route and the main line is SA or This is the return point from PA.

  Therefore, the control unit 20 refers to the map information 30a and determines whether there is an SA or PA along the off-route section. When SA or PA exists, the control unit 20 specifies a branch point to SA or PA and a return point from SA or PA based on the map information 30a. Furthermore, the control unit 20 excludes the section between the branch point and the return point (stopping path to the SA or PA) from the off-path section. Furthermore, the control unit 20 corrects the excluded extra-route sections that are excluded and discontinuous. In the present embodiment, the control unit 20 complements the discontinuous section by searching for a route from the branch point to the return point in a state where the stop route to the SA or PA is excluded based on the map information 30a. . When correction by such complementation is performed, in many cases, both points are connected by a main line connecting the branch point and the return point.

  The learning unit 21e is a program module that causes the control unit 20 to realize the function of learning the corrected off-path section. That is, when the correction is performed on the off-path section, the control unit 20 records information indicating the corrected off-path section on the recording medium 30 as the learning information 30d. When all the sections outside the route are deleted by the correction, the control unit 20 does not add to the learning information 30d. When the correction is not performed on the non-route section, the control unit 20 records information indicating the non-route section acquired by the process of the non-route section acquisition unit 21c on the recording medium 30 as the learning information 30d. According to the above configuration, it is possible to prevent a break history from being learned.

  In the present embodiment, the learning information 30d is generated by extracting a section outside the route when a section outside the route that is different from the planned travel route is traveled in a state where the planned travel route is set. Then, when the learning information 30d is recorded in the recording medium 30, the control unit 20 refers to the learning information 30d when searching for the planned travel route after the next time. That is, when the same out-of-route section is recorded a predetermined number of times or more in the learning information 30d, the control unit 20 searches for a new route so that the out-of-route section is likely to be a planned travel route.

  Such a search may be realized by various configurations, and the control unit 20 performs the route search in a state where the cost is set so that the cost of the section outside the path recorded more than the predetermined number of times is smaller than the other sections. The structure to perform etc. are mentioned. In addition, the control unit 20 specifies the start point and end point of the off-route section recorded more than the predetermined number of times, performs a route search without using the learning information 30d, and adds the off-route section to the searched route. When the start point and the end point are included, a configuration in which a route search is performed by regarding the section outside the route between the start point and the end point as a route after the search may be used.

  In any case, since the break history is not learned in this embodiment, even if the user frequently uses SA or PA when searching for a planned travel route reflecting the learning information 30d, the SA or PA is used. There is no possibility that a route to stop by is obtained as a search result.

(2) Route guidance processing:
Next, the navigation system 10 is implemented in the above configuration. FIG. 2A is a flowchart showing route guidance processing. The route guidance process is executed by the control unit 20 when the user instructs the user I / F unit 44 to start route guidance. When the route guidance process is started, the control unit 20 acquires the planned travel route acquisition unit 21a by the processing of the planned travel route acquisition unit 21a (step S100). That is, the control unit 20 displays a screen for designating a destination on the user I / F unit 44, and receives the destination designated by the user via the screen.

  And the control part 20 searches the path | route from the present location specified based on the output signal of the GPS receiving part 41, the vehicle speed sensor 42, and the gyro sensor 43 with reference to the map information 30a. At this time, the control unit 20 determines the link cost of each link with reference to the map information 30a and the learning information 30d. That is, a default link cost is defined in the map information 30a, and the control unit 20 normally regards the default link cost as a link cost.

  However, when the same out-of-route section is recorded in the learning information 30d more than the predetermined number of times, the control unit 20 sets the link cost of the link included in the out-of-route section to a value smaller than the default link cost. To do. The value can be set, for example, by the process in which the control unit 20 subtracts the predetermined amount from the default link cost, or by multiplying by a positive coefficient smaller than 1. In the state where the link cost is set in this way, the control unit 20 searches for a route from the departure place to the destination, and acquires the obtained route as a planned travel route. Therefore, when the same out-of-route section is recorded in the custom information 30d more than the predetermined number of times, roads included in the out-of-route section are easily adopted as the route search result.

  When the planned travel route is acquired, the control unit 20 starts to acquire the travel history through the processing of the travel history acquisition unit 21b (step S105). In other words, the control unit 20 specifies the current location of the vehicle every fixed period (or every fixed distance), and starts a process of recording the travel history information 30c in association with the time.

  Next, the control unit 20 determines whether or not the vehicle has arrived at the destination (step S110). That is, the control unit 20 specifies the current location based on the output signals of the GPS receiving unit 41, the vehicle speed sensor 42, and the gyro sensor 43, and the current location is within a predetermined distance from the destination acquired in step S100. In this case, it is determined that the vehicle has arrived at the destination. If it is not determined in step S110 that the destination has been reached, the control unit 20 repeats step S110. That is, the control unit 20 continues to acquire the travel history until it reaches the destination.

  When it determines with having arrived at the destination in step S110, the control part 20 acquires a non-route area by the process of the non-route area acquisition part 21c (step S115). That is, the control unit 20 refers to the planned travel route information 30b, acquires the planned travel route acquired in step S100, and refers to the travel history information 30c from the departure point acquired by the processing in step S105. Get the route to. Then, the control unit 20 compares the planned travel route with the route from the departure place to the destination, and if they are different, extracts a different section from the travel history and sets it as an off-route section. Next, the control unit 20 performs route learning processing (step S120).

(2-1) Route learning process:
FIG. 2B is a flowchart showing the route learning process shown in step S120. 3A to 3D are diagrams illustrating an example in the case where there is an off-route section related to SA or PA, where a solid-line arrow indicates a planned travel route, and a broken-line arrow indicates an off-route section. In the route learning process, the control unit 20 determines whether or not SA or PA is included in the extra-route section acquired in step S115 by the process of the extra-route section correction unit 21d (step S200). That is, the control unit 20 refers to the map information 30a, and determines whether or not a link associated with information indicating that it exists in the SA or PA is included in the link in the off-route section. When a link associated with information indicating that the information exists in the SA or PA is included, the control unit 20 determines that the SA or PA is included in the section outside the route.

FIG. 3A, FIG. 3B (FIG. 3C), and FIG. 3D show examples when the user leaves the planned travel route and stops at SA ₁ , PA ₁ , SA ₂ , respectively. Accordingly, in these examples, the control unit 20 determines in step S200 that SA or PA is included in the off-path section.

  In step S200, when it is not determined that SA or PA is included in the off-route section, the control unit 20 learns the out-of-route section by the processing of the learning unit 21e (step S225). That is, the control unit 20 considers that there is no need for correction when a break is not performed in the off-route section, and adds information indicating the off-route section acquired in step S115 to the learning information 30d.

  If it is determined in step S200 that SA or PA is included in the off-route section, the control unit 20 determines whether the smart interchange has been used by the processing of the out-of-route section acquisition unit 21c (step S200). S205). That is, the control unit 20 refers to the map information 30a and determines whether or not information indicating a smart interchange is associated with the link in the off-route section. When a link associated with information indicating that it is a smart interchange is included, the control unit 20 determines that the smart interchange has been used.

For example, in the example shown in FIG. 3D, SA ₂ has an exit route Re and a smart interchange Ri as roads that can exit the SA. The off-path section shows that has exited from the smart interchange Ri when the SA ₂ vehicle exits. Therefore, in the example illustrated in FIG. 3D, the control unit 20 determines that the smart interchange has been used in step S205. On the other hand, in the example shown in FIGS. 3A and 3B, SA ₁ and PA ₁ have only the exit route Re to the main line as exit routes from these areas, and do not have a smart interchange. Therefore, in these examples, the control unit 20 does not determine that the smart interchange has been used in step S205.

  When it is determined in step S205 that the smart interchange has been used, the control unit 20 learns the off-route section through the process of the learning unit 21e (step S225). In other words, if the facility does not return to the main line after stopping at a facility having a smart interchange, it is presumed that the facility was used not only for a break but also as a part of the route in the travel history. Therefore, in such a case, there is a learning value of a route that stops at the facility. Therefore, the control unit 20 considers that the use history of the smart interchange reflects the user's preference, and it is preferable that the route reflecting the preference is searched for in the next and subsequent route guidance. Then, the control unit 20 considers that there is no need for correction in such a case, and adds information indicating the off-route section acquired in step S115 to the learning information 30d.

  If it is not determined in step S205 that the smart interchange has been used, the control unit 20 determines whether or not the non-route section is configured only by a stop-by route to SAPA by the processing of the non-route section acquisition unit 21c. (Step S210). That is, the control unit 20 specifies the SA or PA determined to be included in the off-route section in step S200, refers to the map information 30a, and the approach path Ra to the SA or PA and the SA or PA. The exit route Re from is specified.

  Then, the control unit 20 refers to the map information 30a and identifies the main line side node (node on the opposite side of the SA or PA) of the approach path Ra as a branch point from the main line. Further, the control unit 20 refers to the map information 30a, and identifies the main line side node (node on the opposite side of SA or PA) of the exit route Re as a return point from the main line. When the branch point and the return point are present on the planned travel route, the control unit 20 determines that the section outside the route includes only a stop-by route to SAPA.

  For example, in the example shown in FIG. 3A, the branch point Pb and the return point Pr exist on the planned travel route indicated by the solid line. Therefore, in this case, the control unit 20 determines that the section outside the route indicated by the broken line is composed only of a stop-by route to SAPA. On the other hand, in the example shown in FIG. 3B, the branch point Pb and the return point Pr do not exist on the planned travel route indicated by the solid line. Therefore, in this case, the control unit 20 determines that the section outside the route indicated by the broken line is not composed only of a stop-by route to SAPA.

  When it is determined in step S210 that the off-route section is configured only by the stop-by route to SAPA, the control unit 20 deletes the out-of-route section by the processing of the out-of-route section correction unit 21d (step S230). Then, the route learning process is terminated. That is, when the off-route section is composed only of a stop-by route to SAPA, the control unit 20 considers that the off-route section should not be reflected in the search for the scheduled travel route from the next time onward. delete. In this case, new information is not added to the learning information 30d.

  On the other hand, if it is not determined in step S210 that the off-path section is configured only by the stop-by path to SAPA, the control unit 20 excludes the stop-path from the out-of-route section by the processing of the off-path section correction unit 21d. (Step S215). That is, the control unit 20 deletes the route from the branch point identified in step S210 to the return point from the off-route section. For example, in the example illustrated in FIG. 3B, the control unit 20 excludes the section Z from the branch point Pb to the return point Pr from the extra-route section indicated by the broken line.

Next, the control unit 20 connects the sections outside the path through a path different from the stop-by path (step S220). That is, the control unit 20 refers to the map information 30a, and searches for a route from the branch point specified in step S210 to the return point that is different from the route excluded from the off-route section. For example, in the example shown in FIG. 3B, the section different from the off-route section in the section from the branch point Pb to the return point Pr is only the road R ₁ shown in FIG. 3C. The off-route section is corrected so that the road R ₁ is connected to the return point Pr. As a result, the out-of-route section shown in FIG. 3B is corrected as shown by an arrow indicated by a broken line in FIG. 3C.

After the correction is performed, the control unit 20 executes Step S225. Therefore, an out-of-route section (such as a dashed arrow shown in FIG. 3C) from which the route for stopping at the facility is excluded is added to the learning information 30d. When the learning information 30d learned as described above is reflected in the search for the planned travel route, the broken-line section shown in FIG. 3C is easily searched as a route, but the return point from the branch point Pb through PA ₁ The route that reaches Pr is not easily searched. Accordingly, the user even when using well PA _1, never becomes likely pathways drop by PA ₁ is obtained as a result of the search.

(3) Other embodiments:
The above embodiment is an example for carrying out the present invention, and various other embodiments can be adopted as long as a technique for preventing a break history from being learned is provided. For example, the vehicle that moves together with the navigation system 10 is arbitrary, and may be an automobile, a bicycle, or the like, and various examples are assumed. The route learning system may be a device mounted on a vehicle or the like, or a device realized by a portable terminal.

  Further, the planned travel route acquisition unit 21a, the travel history acquisition unit 21b, the non-route segment acquisition unit 21c, the non-route segment correction unit 21d, and the learning unit 21e that constitute each system include a navigation system (client) as shown in FIG. ) And servers, or at least a part thereof may exist in a device different from FIG. For example, the configuration may be such that the travel history is recorded in the server, the planned travel route is transmitted to the server, and acquisition, correction, and learning of the section outside the route are performed in the server. Furthermore, a part of the configuration of the above-described embodiment may be omitted or a configuration may be added, or the processing order may be changed or omitted. For example, in the above-described embodiment, the acquisition of the off-route section may be sequentially performed before arrival at the destination.

  The planned travel route acquisition unit only needs to acquire the planned travel route. The planned travel route may be a route searched based on a condition (such as a destination) specified by the user, or estimated based on a travel history of the user, a current location (including changes in the current location), or the like. It may be a different route.

  The travel history acquisition unit only needs to be able to acquire the travel history of the vehicle. The travel history only needs to be defined so that it is possible to specify whether or not the vehicle travel history includes an out-of-route section that differs from the planned travel route. It can be configured depending on the ground.

  The off-route section acquisition unit only needs to be able to acquire an off-route section whose travel history is a section different from the planned travel route. That is, the off-route section acquisition unit compares the travel history and the planned travel route, and if there is a different section, extracts the section from the travel history and regards it as an out-of-route section. Here, when the user intentionally leaves the route expected as the scheduled travel route, it is only necessary that the section that has left can be acquired as the off-route section. Therefore, when a section outside the planned travel route is used more than a certain number of times, or when the distance of the section that has left is more than a certain value, statistical processing is performed such that the section becomes an off-route section. Also good.

  The off-route section correction unit excludes the section between the branch point from the main line to the facility and the return point from the facility to the main line from the off-route section and does not include the facility between the branch point and the return point It suffices if the connection correction can be performed. That is, the off-route section correction unit excludes the stop-by route to the facility from the out-of-route section as a section that should not be learned. In addition, when the stop route to the facility is not included in the section outside the route, the correction may not be performed.

  The main line is a road other than the road that can be used when stopping at the facility. In other words, there are roads to stop at the facility and a main line that passes without stopping around the facility, and at least one of the road to the facility and the main line can be selected on the main line. A point exists. Since there is a road for returning from the facility to the main line, the connection point between the road and the main line is a return point. Various configurations are assumed to connect between the branch point and the return point, and if there is only a road to stop at the main line and the facility in the section outside the route, connect the branch point and the return point. Both points are connected by the main line. When a road other than the main line exists between the branch point and the return point, the two points may be connected using a road other than the main line.

  The facility may be a facility of various modes that can be stopped from the main line, such as a facility where a user can take a break, a parking facility, and the like. More specifically, it may be a facility (called a service area or a parking area in Japan) that can be visited from a motorway or a main road, or a facility that can be visited from a general road (Japan). Then, it may be called drive-in, roadside station, etc.). Further, the approach road to the facility and the exit road from the facility may be a dedicated road. In any case, if it is preferable that the route is not learned based on the history of the route visited at the facility or not reproduced as a recommended route, the section for stopping at the facility is not learned. good.

  The learning unit only needs to be able to learn by excluding the section for stopping at the facility from the section outside the route. That is, the route outside the planned route is obtained as a learning result of the route outside the route, so that the route outside the route can be used later. It ’s fine. Various modes can be assumed as the usage mode of the section outside the route, and when a planned driving route is newly specified at an arbitrary timing, it is acquired by a predetermined method (search based on a predetermined cost, etc.). Examples include a configuration in which the planned travel route is corrected by the section outside the route, and a route search is performed by reducing the cost of the learned section outside the route from the normal cost.

  Even if the planned travel route to be corrected is a route (for example, a route having the same starting point, destination, etc.) generated based on an index common to the planned travel route when the off-route section is learned It may be a route searched under arbitrary conditions. As the latter, when the route searched under arbitrary conditions includes the start point and end point of the off-route section, the route from the start point to the end point is the same route as the off-route section. Examples include a configuration in which a route is set and a planned traveling route is generated. Various modes of learning results can be assumed, and may be configured to employ only learning results with high statistical reliability (for example, a reliable parameter is collected). A configuration in which the degree of reflection of the learning result is gradually increased according to an increase in the accumulation amount of the learning result or the like may be used, and various configurations can be employed.

  Furthermore, in the above-described embodiment, the control unit 20 excludes the section for stopping at the facility from the out-of-route section by the processing of the out-of-path section correction unit 21d, and connects the out-of-route section in the section not including the facility. However, the correction need not be performed. In this case, the off-path section correction unit 21d may be omitted. That is, even if the section outside the route is learned in a discontinuous state, the learning result can be used by, for example, a configuration in which the cost of the learned section is lower than the normal cost.

  Further, the section for stopping at the facility may be a section from the entrance path to the facility to the exit path of the facility. The approach path and the exit path are defined, for example, in the map information 30a by associating the link data indicating the approach path and the exit path with a flag indicating the approach path and the exit path to the facility. obtain. According to this configuration, when the road associated with the flag is included in the off-route section, the control unit 20 determines the section between the entry point to the entry path and the exit point from the exit path. It is possible to specify as a section to stop by. According to this configuration, it is possible to exclude a section for stopping at the facility from the off-path section with a simple configuration.

  Further, the section for stopping at the facility may be a section that exists in a predetermined range from the facility. For example, a configuration may be adopted in which roads existing within a predetermined distance from the facility and roads existing in a predetermined area including the facility are regarded as sections for stopping at the facility. According to this configuration, in order to specify the section for stopping at the facility, it is possible to exclude the section for stopping at the facility from the off-route section without performing detailed analysis of the branching point or the like.

  Further, the learning unit may be configured to learn an off-route section without excluding a section for stopping at the facility when the facility does not stop. If the non-route section correction unit is used, even if the facility does not return to the main line, correction is not performed, and the learning unit may be configured to learn the non-route section that has not been corrected. Good. In other words, there are various types of facilities, and there may be facilities that can stop at the facility from the main line and go to the original destination using other roads without returning to the main line. . For example, facilities that can leave outside without returning to the main line (smart ICs in Japan).

  If you do not return to the main line after stopping at such a facility, it is presumed that the facility was used not only as a part of the route but also as part of the route. Therefore, in such a case, there is a learning value of a route that stops at the facility. Therefore, the off-path section correction unit does not perform correction when the facility does not return to the main line, and the learning unit learns the off-path section that has not been corrected. In this case, various modes can be adopted as the usage mode of the section outside the route. For example, when a newly planned travel route is specified, the travel acquired by a predetermined method (search based on a predetermined cost, etc.) A usage mode such as correcting the planned route in the section outside the route is exemplified.

  Furthermore, the method of learning by excluding the section for stopping at the facility from the section outside the route as in the present invention can also be applied as a program or method. In addition, the route learning system, program, and method as described above may be realized as a single route learning system or may be realized by using components shared with each part provided in the vehicle. The embodiment is included. For example, it is possible to provide a navigation system, method, and program including the route learning system as described above. 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 route learning system. 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 ... Navigation system, 20 ... Control part, 21 ... Route learning program, 21a ... Planned travel route acquisition part, 21b ... Travel history acquisition part, 21c ... Out-of-route section acquisition part, 21d ... Out-of-route section correction part, 21e ... Learning 30 ... Recording medium, 30a ... Map information, 30b ... Travel planned route information, 30c ... Travel history information, 30d ... Learning information, 41 ... GPS receiver, 42 ... Vehicle speed sensor, 43 ... Gyro sensor, 44 ... User I / F part

Claims (6)

A planned travel route acquisition unit for acquiring the planned travel route;
A travel history acquisition unit for acquiring a travel history of the vehicle;
An off-route section acquisition unit for acquiring an off-route section in which the travel history is a section different from the planned travel route;
A learning unit that learns by removing the section for stopping at the facility from the section outside the route,
A route learning system comprising: The section to stop at the facility is
It is a section from the approach path to the facility to the exit path of the facility.
The route learning system according to claim 1. The section to stop at the facility is
It is a section existing in a predetermined range from the facility,
The route learning system according to claim 1 or 2. A section where the facility is not included between the branch point and the return point by excluding a section between the branch point from the main line to the facility and the return point from the facility to the main line from the off-route section It is equipped with an off-path section correction unit that performs connection correction at
The learning unit learns the corrected off-path section;
The route learning system according to any one of claims 1 to 3. The learning unit
Learning the off-route section without excluding the section to stop at the facility when not stopping at the facility;
The route learning system according to any one of claims 1 to 4. A planned travel route acquisition unit for acquiring a planned travel route from the computer,
A travel history acquisition unit for acquiring a travel history of the vehicle;
An off-route section acquisition unit for acquiring an off-route section in which the travel history is a section different from the planned travel route;
A learning unit that learns by removing the section for stopping at the facility from the section outside the route,
Route learning program to function as.

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