JP3656964B2 - Navigation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a navigation device, and more particularly to a navigation device that displays information about facilities and the like around a user's position on a map.
[0002]
[Prior art]
The navigation device is intended to calculate a route to the destination and display the calculated route, but when displaying the route, in addition to the route to the destination, it is meaningful for the user. A device that displays various information is considered. For example, a navigation device that displays various facilities (for example, a gas station, a restaurant, etc.) around the current position of the vehicle has been proposed. In the following description, information regarding facilities around the vehicle displayed on the navigation device is referred to as facility information.
[0003]
As an example of the navigation device that displays the facility information, there is one that calculates a distance from the current position to the facility for a facility located along a predetermined road and creates a table including information on the facility ( For example, see Patent Document 1.) FIG. 22 is a diagram showing a display example in such a navigation device. As shown in FIG. 22, in the navigation device, facilities (C1, R1, G1, etc.) located along a predetermined road, distances to the facilities (2 km, 3 km, 5 km, etc.), and the facilities with respect to the road Information about the located side is displayed. According to this, the user can easily know the position, distance, and the like of the facility existing along the predetermined road.
[0004]
In addition, when a route is set, there is one that searches for facility information existing within a certain distance from the route and displays the facility information (see, for example, Patent Document 2). According to this, the user can easily confirm the facility information around the route.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-030931
[Patent Document 2]
JP-A-5-216404
[0006]
[Problems to be solved by the invention]
As described above, in the method of the display example shown in FIG. 22, information on facilities located along a predetermined road is displayed. However, in this example, only information on facilities adjacent to the predetermined road is obtained, and regarding roads other than the predetermined road, facility information cannot be obtained even if the road is in the destination direction. Therefore, the user cannot obtain facility information for other roads that branch from the predetermined road. For example, when a user tries to stop at a gas station while driving on a route to a destination, the navigation device displays information on the gas station if there is no adjacent gas station on the route to the destination. do not do. Therefore, even if there is a gas station ahead of the road branched from the route to the destination, the user cannot know the information.
[0007]
In addition, in the method of searching for facilities existing within a certain distance from the route, the search is performed based on the distance from the route and the searched facility information is displayed on a separate screen, so the user exists around the route. You can know the existence of facilities. However, for example, it is impossible to know detailed information about the facility such as the location of an intersection to be turned to go to the facility, the travel distance to the facility, and the required time. Further, in this method, since it is assumed that a route is set, a search cannot be performed if a route is not set.
[0008]
As described above, the above two methods display information on the set road and its surroundings, but the user cannot always obtain sufficient information about the facility information existing in the destination direction. was there.
[0009]
Therefore, an object of the present invention is to provide a navigation device that displays information on facilities and the like existing in a wide range in the direction of the user's destination in an easy-to-understand manner for the user.
[0010]
[Means for Solving the Problems and Effects of the Invention]
1st invention is a navigation apparatus which displays a road map on a screen. The navigation device includes a map data storage unit that stores map data including point information relating to points on the map, a movement status acquisition unit that acquires a user's position and traveling direction, a reference intersection selection unit, a point information acquisition unit, And a map display unit. Here, the reference intersection selection unit selects at least one intersection included in the road network extending in the traveling direction from the user's position as the reference intersection among the intersections displayed on the screen. The user position is a concept including the user's current position as well as the user's virtual position. The point information acquisition unit uses at least a road connected to the reference intersection as a reference road other than a road extending from the reference intersection in the direction of the current position. A road extending from the reference intersection in the direction of the current position may be further set as a reference road. And the point information regarding the point which exists in the vicinity of the road contained in the road network extended ahead of the said reference road seeing from the said reference | standard intersection is acquired from a map storage part. As a result, the road map is displayed on the map display unit, and the point information acquired by the point information acquisition unit is displayed in association with the reference road related to the point information.
[0011]
According to the first aspect, the point information of a point existing ahead of the intersection (reference intersection) ahead of the user is displayed in association with the road (reference road) connected to the intersection ( (See FIG. 10). Here, the point information is information regarding points on the map, and is a concept including facility information regarding facilities, place name information, and the like. Therefore, the user can instantly grasp what exists ahead of each road connected to the intersection existing in front of the user. In other words, the user can instantly grasp which intersection should be turned in which direction with respect to the displayed point information. In addition, since it is possible to display point information for a plurality of roads connected to the reference intersection, the user can know the point information of points existing in a wide range in the user's destination direction.
[0012]
In the first invention, the navigation device may further include a network calculation unit that calculates a search network including roads included in a road network extending beyond the reference road as viewed from the reference intersection. At this time, a point information acquisition part acquires the point information regarding the point which exists in the vicinity of the road contained in a search network as point information relevant to a reference | standard road.
[0013]
In the first invention, the network calculation unit may use only a predetermined type of road included in the map data as a search network. According to this, for example, a search network can be configured by only main roads such as national roads and prefectural roads. In this case, only the point information regarding the points existing in the vicinity of the main road is displayed on the display device. Since it is generally considered that the user does not travel on roads other than the main road in an unknown area, if only the point information near the main road is displayed, the effect of displaying a wide range of point information is sufficient. It is. Further, by excluding roads other than main roads from the search network, search network calculation processing can be simplified. Therefore, the processing time for displaying the spot information can be shortened.
[0014]
In the first invention, the point information acquisition unit may include a condition determination unit. If the same point information is acquired in duplicate as a result of acquiring the respective point information related to the plurality of reference roads, the condition determination unit is different from the reference information related to the same acquired point information. It is determined whether or not a road satisfies a predetermined condition based on a search network. At this time, the map display unit displays the point information acquired redundantly by the point information acquisition unit in association with only the reference road determined to satisfy the predetermined condition by the condition determination unit.
[0015]
According to this, even if the same spot information is acquired in duplicate, not all acquired spot information is displayed. Here, in the method of acquiring point information using a search network, in particular, when there are a plurality of reference intersections, there is a possibility of acquiring the same point information in duplicate. In this case, if the point information regarding the same point is displayed in association with a plurality of reference roads, it is difficult for the user to determine which reference road to go through. Therefore, as described above, the number of pieces of point information displayed can be reduced by displaying the point information only on the reference road that satisfies the predetermined condition. Thereby, a user's judgment can be made easy. Moreover, since unnecessary point information is not displayed, the screen can be easily viewed.
[0016]
In addition, when the predetermined condition is a condition related to a route distance from the reference intersection to the point indicated by the point information via the reference road, the condition determination unit uses the search network to set the distance to a different reference road. By calculating for each, it may be determined whether or not a predetermined condition is satisfied for the different reference road. According to this, for example, when the predetermined condition is “a reference road included in a route with the shortest distance from the reference intersection to the point”, the point information is displayed only for the reference road that satisfies the condition, and is necessary. Point information is not displayed for other reference roads that are less likely. Therefore, the user can know the shortest route to the point without determining which reference road to pass.
[0017]
Further, when the predetermined condition is a condition related to a required time of a route from the reference intersection to the point indicated by the point information via the reference road, the condition determination unit uses the search network to set the required time to a different reference By calculating each of the roads, it may be determined whether or not a predetermined condition is satisfied for the different reference roads. According to this, for example, when the predetermined condition is “a reference road included in a route having the shortest required time from the reference intersection to the point”, the point information is displayed only for the reference road that satisfies the condition, Point information is not displayed for other reference roads that are less necessary. Therefore, the user can know the route that can be reached in the shortest time without determining which reference road to pass.
[0018]
In addition, when the condition determination unit is provided, the navigation device may further include a road history storage unit that stores a history of roads that have passed in the past. Further, when the predetermined condition is a condition related to a road history, the condition determination unit determines whether the predetermined condition for different reference roads is based on the relationship between the search network and the road history stored in the road history storage unit. It may be determined whether or not the above is satisfied.
[0019]
According to this, the point information is displayed only for the reference road included in the route including the road that has passed before, and the point information is not displayed for the other reference roads. If the road has been passed before, it is unlikely that the user will get lost, and the target point will be less likely to be lost. Accordingly, by displaying the point information only for the reference road that has passed before, it is possible to present only the route that is highly necessary (highly likely to be selected) for the user.
[0020]
In the first invention, the map data storage unit may store map data in which the spot information is associated with a road near the spot indicated by the spot information. At this time, a point information acquisition part makes the point information matched with the road in map data the point information regarding the point which exists in the vicinity of the said road.
[0021]
According to this, since the point information can be acquired by referring to the road associated therewith, it is possible to easily acquire the point information regarding the points existing around the road network.
[0022]
In the first invention, the map data storage unit may store map data including location information of points. At this time, the point information acquisition unit sets the point information regarding the point where the distance between the road and the point included in the search network is within the predetermined distance as the point information regarding the point existing in the vicinity of the road.
[0023]
According to this, it is possible to specify the point information where the point is included in the road network as the point information to be acquired using the position information of the point. In this case, it is possible to acquire point information regarding points existing around the road network without preparing map data in which the point information and the road are associated with each other.
[0024]
In the first invention, the navigation device may further include a predicted road specifying unit that specifies a predicted road predicted to advance by the user among roads displayed on the screen. At this time, a reference | standard intersection selection part selects a reference | standard intersection from the intersection on a prediction road.
[0025]
When the predicted road specifying unit is provided, the predicted road specifying unit may specify a route from the departure place to the destination as the predicted road. According to this, since the route to the destination is a predicted road, it is possible to accurately determine the road that the user is predicted to travel.
[0026]
In addition, when the predicted road specifying unit is provided, the predicted road specifying unit specifies a road existing in the user's traveling direction and belonging to a predetermined road type as the predicted road based on the user's position and traveling direction. It may be. According to this, for example, a large road such as a national road or a prefectural road can be used as a predicted road. In general, it is highly likely that the road on which the user travels is a large road. Therefore, even when a route is not selected, it is possible to accurately determine the road that the user is predicted to travel by specifying the predicted road according to the predetermined road type.
[0027]
In addition, when the predicted road specifying unit is provided, the reference intersection selection unit may select an intersection on the predicted road that is closest to the user position as the reference intersection based on the user's position and traveling direction. Good. The intersection closest to the current position on the predicted road is very likely to be passed by the user. Therefore, the point information useful for the user can be displayed by setting the intersection as the reference intersection.
[0028]
In addition, when the prediction road specifying unit is provided, the reference intersection selection unit may select an intersection that is an intersection on the prediction road and a road that intersects the prediction road belongs to a predetermined type as a reference intersection. Good. According to this, a road that belongs to a predetermined type, for example, an intersection where a main road such as a national road or a prefectural road intersects with a predicted road becomes a reference intersection. Since main roads such as national roads and prefectural roads generally have a high possibility of a user traveling, it is considered that a user is highly likely to turn at an intersection that intersects with the main road. Therefore, the point information useful for the user can be displayed by setting the intersection as the reference intersection.
[0029]
When the predicted road specifying unit is provided, the navigation device may further include a road history storage unit that stores a history of roads that have passed in the past. At this time, the reference intersection selection unit is an intersection on the predicted road based on the road stored in the road history storage unit, and the predicted road intersects the road stored in the road history storage unit. Select the intersection as the reference intersection. According to this, the intersection where the road with the history that has passed before and the predicted road intersect becomes the reference intersection. It is considered that there is a high possibility that the user will travel on a road that the user has passed before. Therefore, the point information useful for the user can be displayed by setting the intersection as the reference intersection.
[0030]
In the first invention, the point information acquisition unit may acquire only predetermined types of predetermined point information among the point information included in the map data.
[0031]
According to this, only predetermined type of spot information that is determined in advance is displayed. Accordingly, by setting information to be displayed according to some condition, such as a user setting information to be displayed in advance, a necessary type of information can be selected and displayed.
[0032]
In the first invention, the map display unit may display the spot information with an arrow shape indicating a direction opposite to the reference intersection. Thereby, the traveling direction can be shown to the user. Moreover, when a point information acquisition part acquires several types of point information from which a kind differs, a map display part may display a point information by changing a display form according to the kind of point information. Thereby, the user can easily grasp different types of point information.
[0033]
A second invention is a point information display method for displaying point information on a road map displayed on a screen of a display device. In this method, among the intersections displayed on the screen, at least one intersection included in the road network extending in the traveling direction from the user's position is set as the reference intersection. A road that is connected to the reference intersection and that extends from the reference intersection in the direction of the user's position is at least a reference road. A road extending from the reference intersection in the direction of the current position may be further set as a reference road. And the point information regarding the point existing in the vicinity of the road included in the road network extending beyond the reference road as viewed from the reference intersection is displayed in association with the reference road. By the above method, the same effect as that of the first invention can be obtained.
[0034]
A third invention is a program executed by a computer to display a road map on a screen of a display device. Here, the computer stores map data including point information regarding points on the map. The program causes the computer to execute a movement status acquisition step, a reference intersection selection step, a point information acquisition step, and a map display step. In the movement status acquisition step, the position and traveling direction of the user are acquired. In the reference intersection selection step, at least one intersection included in the road network extending in the traveling direction from the user's position is selected as the reference intersection among the intersections displayed on the screen. In the point information acquisition step, at least a road connected to the reference intersection and extending from the reference intersection in the direction of the user's position is defined as at least a reference road, and extends beyond the reference road as viewed from the reference intersection. The point information regarding the points existing in the vicinity of the road included in the road network is acquired from the map data. In the map display step, the road map is displayed on the display device, and the spot information acquired in the spot information acquisition step is displayed in association with the reference road related to the spot information. By causing the computer to execute the above program, the same effect as that of the first invention can be obtained.
[0035]
As described above, the present invention can be realized by a program, and can be easily implemented by another independent computer system by recording it on a recording medium and transferring it.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration of a navigation device according to the first embodiment of the present invention. In addition, although the navigation apparatus which concerns on the following 1st Embodiment is aimed at a vehicle use, in other embodiment, the use of a navigation apparatus is not restricted to a vehicle use. In FIG. 1, the navigation device includes an input unit 1, a movement status detection unit 2, a communication unit 3, an information processing unit 4, a history storage unit 5, a map data storage unit 6, an output unit 7, an environment, And an information acquisition unit 8. Hereinafter, each part of the navigation device will be described.
[0037]
The input unit 1 includes a cross pad, a mouse, a keyboard, and the like operated by the user, and is used to input information set by the user. Details of the information set by the user will be described in the operation of the navigation device described later. Information input using the input unit 1 is output to the information processing unit 4.
[0038]
The movement state detection unit 2 is typically composed of a GPS (Global Positioning System) receiver, a direction sensor, and a vehicle speed sensor, and detects the current position and traveling direction of the own vehicle (user), Current position information indicating the coordinates of the position and information on the traveling direction are generated. The generated information is output to the information processing unit 4.
[0039]
The communication unit 3 is typically configured by a device that can communicate with the Internet, and acquires information on facilities existing near the vehicle from outside the vehicle. Information acquired by the communication unit 3 is output to the information processing unit 4.
[0040]
The information processing unit 4 includes a CPU, a ROM, a RAM, and the like. Based on information input from each unit of the navigation device by the CPU executing a program in the ROM while using the RAM as a work area. Create image data to display facility information about maps and facilities. The facility information includes, for example, name information indicating the name of the facility and distance information indicating the distance to the facility. The facility information is displayed in the vicinity of the host vehicle in the direction of the destination of the host vehicle, for example, a restaurant, a convenience store, a sightseeing spot, etc. existing in the vicinity. The detailed operation of the information processing unit 4 will be described with reference to a flowchart described later. The image data created by the information processing unit 4 is output to the output unit 7.
[0041]
The history storage unit 5 stores history information related to the history of the vehicle traveling in the past. The history storage unit 5 stores, for example, a history of roads on which the vehicle has traveled in the past and a history of facilities visited by the user in the past. The history storage unit 5 may be configured inside the information processing unit 4. In other words, the information processing unit 4 may be configured by a RAM. The history information stored in the history storage unit 5 is output to the information processing unit 4.
[0042]
The map data storage unit 6 is configured by a mass storage device including, for example, a CD-ROM, DVD, or HDD as a storage medium, and stores map data. The map data includes node data indicating intersections and link data indicating roads, and also includes network data representing connection relationships between roads and intersections on the map. In the first embodiment, various types of data are stored in association with the link data included in the map data. Specifically, facility information, road type information, and display position information are stored in association with the link data. Here, it is assumed that name information indicating the name of the facility is stored in the map data storage unit 6 as the facility information. The facility information associated with the link is the facility information of the facility located near the road indicated by the link. In addition to the facility information, a facility ID for identifying the facility is stored. The road type information is information indicating the type of road (for example, a national road or a prefectural road) indicated by a link. The data structure associating the link, facility information, facility ID, and road type as described above is the same as conventional map data. The display position information is information indicating a display position when facility information is displayed in association with a road. Thus, in the first embodiment, display position information may be associated with link data in addition to the data structure of conventional map data. The map data stored in the map data storage unit 6 is output to the information processing unit 4.
[0043]
The output unit 7 typically includes a display device and a speaker, and displays the image data created by the information processing unit 4 on the display device. The output unit 7 may notify the user of the facility information that is to be emphasized among the facility information displayed on the display device by voice through a speaker.
[0044]
The environmental information acquisition unit 8 includes various sensors attached to the vehicle, and acquires environmental information. The environmental information refers to various types of information relating to the state of the vehicle, and includes, for example, the remaining amount of gasoline and the current time. For example, when the remaining amount of gasoline is acquired as environmental information, a sensor for detecting the remaining amount of gasoline is required for the vehicle. The environmental information acquired by the environmental information acquisition unit 8 is output to the information processing unit 4.
[0045]
Next, the operation of the navigation device will be described. After the navigation apparatus is powered on, the information processing unit 4 starts executing the program recorded in the ROM. Here, FIG. 2 is a flowchart showing a processing procedure of the information processing unit 4 described in the program.
[0046]
First, the information processing unit 4 obtains the movement status information of the own vehicle by inputting information detected by the movement status detection unit 2 (step S101). The movement status information is information including current position information indicating the current position of the host vehicle and traveling direction information indicating the traveling direction. Next, the information processing unit 4 acquires map data (link, node, and road network data) stored in the map data storage unit 6 (step S102), and displays a map image on the display device. Data is created (step S103). Here, the map data acquired in step S102 is the map data around the current position acquired in step S101. The map image data created in step S103 is map data around the current position.
[0047]
Next, the information processing section 4 performs a facility information image data creation process (step S104). Facility information image data is image data for displaying facility information. Details of step S104 will be described below. In the first embodiment, in the following step S104, facility information image data is created only for a specific type of facility required for the user among various facilities included in the map. Here, in the following description, a facility whose facility information is displayed on a map is referred to as a display target facility. Furthermore, in 1st Embodiment, the kind of facility used as a display object facility is made into a convenience store.
[0048]
FIG. 3 is a flowchart showing details of step S104 in FIG. First, the information processing unit 4 specifies the type of the display target facility (step S201). In the first embodiment, it is assumed that the type of the display target facility input from the input unit 1 is acquired in step S201. That is, in the first embodiment, as a result of the user performing an input to display convenience store information using the input unit 1, information of a convenience store is acquired as a display target facility in step S201. .
[0049]
Next, the information processing unit 4 identifies a predicted road among roads displayed on the map (step S202). A predicted road refers to a road that a user is predicted to pass through. In the first embodiment, it is assumed that the predicted road is a national road. Specifically, when the current position is on a national road, the national road is identified as a predicted road. When the current position is not on the national road, the national road that is in the direction of travel of the vehicle and is closest to the current position is identified as the predicted road. The prediction road specifying process may be performed as follows, for example. That is, a road network extending in the direction of the traveling direction from the current position is searched using the current position and the traveling direction detected by the movement status detection unit 2. At that time, the first searched national road is set as a predicted road. Further, the prediction road specifying process may be performed by setting the national road closest to the current position among the national roads displayed on the screen at that time as the predicted road. In the above, the determination as to whether or not the road is a national road is made using the road type information included in the map data.
[0050]
Next, the information processing unit 4 performs a reference intersection selection process (step S203). Here, the reference intersection means an intersection that is a starting point of a road network that is a target for searching for displayed facility information. A node indicating the reference intersection is called a reference node. Accordingly, the road network is calculated from the intersection indicated by the reference node as a starting point, and a search is performed for facilities near the calculated road network (see step S204 described later). In step S203, at least one of the intersections displayed on the screen is selected as a reference intersection. The reference intersection is selected from the intersections included in the road network extending in the traveling direction from the current position of the user. Details of step S203 will be described below.
[0051]
FIG. 4 is a flowchart showing details of step S203 in FIG. Here, before explaining the details of the flowchart, an outline of the reference intersection selection process in FIG. 4 will be explained. FIG. 5 is a diagram schematically illustrating an example of a road network in which a process of selecting a reference intersection is performed. In FIG. 5, 20 represents a current position, 21 to 24 represent nodes, and 25 to 36 represent links. In the selection process of the reference intersection, a reference intersection (reference node) is selected by determining whether or not each node connected to the link indicating the predicted road is a reference node. Referring to FIG. 5 as an example, when the links 25 to 27 are specified as predicted roads in step S202, it is determined whether or not the nodes 21 and 22 are reference nodes. Further, when the links 25, 33, and 34 are specified as predicted roads, it is determined whether or not the nodes 21 and 23 are reference nodes.
[0052]
Whether or not to become a reference node is determined by whether or not the node satisfies a predetermined condition. In the first embodiment, it is assumed that the predetermined condition is an intersection closest to the current position among intersections connected to a national road or prefectural road other than the predicted road. Referring to FIG. 5 as an example, when the links 25 to 27 are national roads and the links 31 to 34 are national roads or prefectural roads, the node 21 is selected as a reference node. On the other hand, when the links 25 to 27 are national roads and the links 32 and 33 are neither national roads nor prefectural roads, the node 21 is not selected as a reference node. In this case, the predetermined condition is further determined for the node 22, and when the links 35 and 36 are national roads or prefectural roads, the node 22 is selected as a reference node. In the first embodiment, whether or not a node is a reference node is determined in the order of nodes located closer to the current position. In the first embodiment, the reference node is selected by the above method. Details of the flowchart shown in FIG. 4 will be described below.
[0053]
First, the information processing unit 4 selects one node among the nodes displayed on the map and connected to the link indicating the predicted road (step S301). In the first embodiment, the selected node is a node that is in the traveling direction of the host vehicle and is the latest node from the current position. In the following description, the node selected in step S301 or step S305 is referred to as a selected node. Next, the information processing unit 4 stores the link where the current position is located (step S302). Further, the information processing unit 4 stores the selected node (step S303). In the second and subsequent steps S303, only the latest selected node is stored, and the previously stored selected node is discarded. That is, in step S303, the information processing unit 4 updates and stores the selected node.
[0054]
Next, the information processing unit 4 determines whether or not the condition that the selected node becomes the reference node is satisfied (step S304). As described above, in the first embodiment, the condition serving as the reference node is that the node closest to the current position among the nodes connected to the national road or prefectural road other than the predicted road. Therefore, the determination in step S305 is performed based on whether the road type of the link connected to the selected node is a national road or a prefectural road.
[0055]
If it is determined in step S304 that the selected node is not the reference node, the information processing unit 4 selects the next node (step S305). In step S305, the information processing unit 4 selects, as a next node, a node that is on the predicted road and is in a direction away from the current position among nodes connected to the node selected immediately before. . Referring to FIG. 5 as an example, when the node selected immediately before is the node 21, the node on the predicted road (links 25 to 27) and the node away from the current position 20 is the node 22. is there. Therefore, the node selected next after the node 21 is selected is the node 22. As a result, the determination as to whether or not the node is the reference node is performed in order from the node that is closer to the current position. As described above, the node selected in step S305 is referred to as a selected node.
[0056]
After step S305, the information processing section 4 stores a link between the node (previous selection node) stored in step S303 and the selection node (current selection node) selected in step S305 (step S305). S306), the process returns to step S303. In step S306 after the second time, as in step S303, the information processing unit 4 updates and stores the link. Further, when the link is stored in step S306, the link stored in step S302 is discarded.
[0057]
On the other hand, when the selected node is the reference node in step S304, the information processing section 4 determines the selected node, that is, the node stored in step S303 as the reference node (step S307), and the subroutine of step S203. The process ends. In step S307, the information processing unit 4 stores the link stored in step S302 or S306 in association with the reference node.
[0058]
Returning to FIG. 3, after step S203, the information processing section 4 performs a facility information acquisition process (step S204). In step S204, first, a reference road for calculating a road network is set. In the first embodiment, the reference road is a road that is connected to the reference intersection and is a road other than a road extending from the reference intersection in the direction of the current position. Further, the information processing unit 4 acquires facility information regarding facilities existing in the vicinity of the road included in the road network extending beyond the reference road as viewed from the reference intersection from the map data storage unit. Specifically, in step S204, a road network starting from the intersection indicated by the reference node determined in step S203 is calculated, and among the facilities existing near the road included in the road network, the display object Facility information about the facility is acquired. In the first embodiment, facility information acquired by other methods is displayed in addition to the facility information stored in the map data. Details of the facility information acquisition process will be described below.
[0059]
FIG. 6 is a flowchart showing details of step S204 in FIG. First, the information processing unit 4 selects one reference link (step S401). The reference link is a link indicating a reference road. In other words, a link extending in the direction of the current position is excluded from links connected to the reference node. That is, the reference link refers to a link excluding the link stored in step S307 illustrated in FIG. 4 among the links connected to the reference node. Referring to FIG. 5 as an example, when the reference node is the node 21, the reference links are links 26, 32 and 33. Accordingly, in this case, one of the links 26, 32, and 33 is selected in step S401. In the following description, the reference link selected in step S401 is referred to as a selected link.
[0060]
Next, the information processing unit 4 calculates a road network extending beyond the reference road as viewed from the reference intersection (step S402). In the first embodiment, the road network calculated in step S402 is referred to as a search network. In step S402, a search network including the selected link selected in the immediately preceding step S401 is calculated. Thereby, search network data including the road indicated by the selected link is created. Details of step S402 will be described below.
[0061]
FIG. 7 is a diagram showing the data structure of the search network data created in step S402 of FIG. As shown in FIG. 7, the search network data is configured by a list having a tree structure with a reference link as a vertex. In step S402, the information processing section 4 first sets the selected link selected in the immediately preceding step S401 as the apex of the tree structure shown in FIG. Here, the search network data shown in FIG. 7 includes link information indicating a link, and the link information includes a map data ID and a link ID. The map data ID is information for identifying each section of the map data divided for each section, and the link ID is information for identifying each link included in the section. Therefore, each link included in all map data can be uniquely expressed by the map data ID and the link ID.
[0062]
Next, the information processing unit 4 stores the link connected to the reference link as search network data. Here, the link connected to the reference link is a link connected to a node that is not the reference node among nodes at both ends of the reference link. Referring to FIG. 5 as an example, when the reference node is the node 21 and the selected link is the link 32, the link 32 becomes the reference link, and the link connected to the reference link becomes the link 31. That is, in the above example, the link A shown in FIG.
[0063]
Furthermore, the information processing unit 4 stores a link connected to the link stored as the search network data as the search network data. Here, when there are a plurality of links connected to one link, the tree is configured to have a plurality of branches in the search network data. For example, the search network data shown in FIG. 7 indicates that the link C and the link D are connected to the link B.
[0064]
As described above, links connected from the reference link as a starting point are searched in order, and the searched links are stored as search network data, whereby search network data is created. The search network spreads away from the reference node starting from the selected link. Here, the creation of the search network data ends when the search network is expanded to a predetermined range. The predetermined range is typically a range of links within a predetermined distance from the selected link. When the required time of the link can be calculated, the predetermined range may be a link that can pass within a predetermined time from the selected link. Moreover, when the number of links constituting the search network data reaches a predetermined number, the creation of the search network data may be terminated.
[0065]
Returning to the description of FIG. 6, after step S <b> 402, the information processing section 4 performs display data creation processing (step S <b> 403). The display data is data indicating information necessary for displaying facility information. In step S403, facilities are searched based on the search network, and one display data is created for one display target facility. The display data creation process will be described in detail below.
[0066]
FIG. 8 is a diagram showing the data structure of the display data created in step S403 of FIG. As shown in FIG. 8, the display data includes a facility ID, a reference node, a reference link, display position information, and facility information. Each information included in the display data is acquired as follows.
[0067]
FIG. 9 is a flowchart showing details of step S403 in FIG. First, the information processing unit 4 acquires the facility ID of the facility information to be displayed using the search network data created in step S402 (step S501). The facility ID is information for identifying the facility, and specifically, the name and type of the facility. Further, as the facility ID, for example, a facility type and an ID such as “convenience store-001” may be used. The facility ID is stored in advance in the map data and acquired from the map data storage unit 6. Hereinafter, the process of the information processing unit 4 when acquiring the facility ID will be described.
[0068]
The information processing unit 4 uses the facility ID for the facility information associated with the link included in the search network data and the same type of facility information as the type of the display target facility identified in step S201. To get. As described above, the display target facility is a facility where facility information image data is created. When the display target facility is set in the convenience store as in the first embodiment, the information processing unit 4 has the facility ID of the facility ID associated with the link included in the search network data. A facility ID indicating a convenience store is acquired. As described above, other information related to the facility is calculated for the facility for which the facility ID has been acquired. That is, the information processing unit 4 acquires the reference node ID, the reference link ID, the display position information, and the facility information for the facility that has acquired the facility ID.
[0069]
In the first embodiment, facility information associated with a link is determined using map data that stores a road and a facility in association with each other. As described above, in the first embodiment, the link indicating the road and the facility information of the facility adjacent to the road are stored in association with each other in the map data. Therefore, the facility ID corresponding to the link can be easily acquired by referring to the map data. When the link and facility ID are not associated with each other in the map data, the correspondence between the link and facility ID may be determined by another method. For example, the location information of the facility may be stored in the map data in association with the facility ID, and the facility ID indicating the facility located within a predetermined distance from the link may be determined to correspond to the link.
[0070]
Following step S501, the information processing unit 4 calculates a route from the reference intersection to the facility (step S502). Here, the facility is the facility indicated by the facility ID acquired in step S501. The route is calculated based on the search network calculated in step S402.
[0071]
In addition, the information processing unit 4 acquires a reference node and a reference link during the route calculation process. The reference node is a reference node determined at the time of creating display data. The reference node is the node determined in step S307 and is the information stored in step S303. The reference link is a selection link at the time of creating display data. Therefore, the reference link is the link selected in step S401.
[0072]
Next, the information processing unit 4 acquires display position information (step S503). The display position information is information indicating a display position when the facility information is displayed. The display position information is determined based on the reference link so that the facility information is displayed in the vicinity of the reference link. For example, as the contents of the display position information, “display at the center of the link”, “display at the other end of the link (the end opposite to the side connected to the reference intersection)” or the like can be considered. As described above, in the first embodiment, the display position information is stored in advance in the map data corresponding to each link included in the map data. Accordingly, the display position information is acquired from the map data storage unit 6. The acquired display position information is display position information stored in the map data in association with the selected link selected in the immediately preceding step S401.
[0073]
Next, the information processing unit 4 acquires facility information to be displayed on the map in steps S504 and S505. As shown in FIG. 8, in the first embodiment, distance information is acquired in addition to the name information included in the map data. That is, in the first embodiment, not only the facility information stored in advance in the map data storage unit 6 but also the facility information (here, distance information) acquired by another method is calculated and displayed. First, the information processing unit 4 acquires facility information included in the map data (step S504). The facility information included in the map data is associated with the link and the facility ID in the map data stored in the map data storage unit 6. Accordingly, in step S504, facility information corresponding to the facility ID acquired in step S501 is acquired from the map data storage unit 6. Here, the facility information included in the map data is assumed to be name information indicating the name of the facility.
[0074]
Next, the information processing unit 4 acquires distance information indicating the distance from the current position to the facility (step S505), and ends the process of subroutine step S403 shown in FIG. The distance information is calculated based on the route from the reference intersection calculated in step S502 to the facility. Specifically, the distance information is calculated as the sum of the distance of the route from the reference intersection to the facility and the distance from the current position to the reference intersection. In other embodiments, the required time information may be used instead of the distance information. The required time information is information indicating the required time from the current position to the facility indicated by the facility ID. Similar to the distance information, the required time information is calculated based on the route calculated in step S502.
[0075]
The facility information may include other information. For example, when the facility is a restaurant, the facility information may include business hours, parking space, etc. in addition to the restaurant name. In addition, when the facility is a gas station, information on the unit price of the charge is included. The facility information may be obtained by acquiring information stored in advance in map data, or may be acquired from the outside by the communication unit 3. For example, the facility information may be information obtained from the outside by the communication unit 3, such as the degree of crowded shops and the latest bargain information.
[0076]
Returning to FIG. 6 again, after step S403, the information processing section 4 determines whether or not all reference links have been selected as selected links in step S401 (step S404). If any one of the reference links is not selected, the information processing section 4 returns to step S401 and repeats a series of processing from step S401 to step S404. On the other hand, when all the reference links are selected, the search is performed for the search networks corresponding to all the reference links (one search network when there is one reference link). Here, it can be said that the road network extending from the reference intersection is a combination of search networks corresponding to each selected link. Therefore, searching for a search network corresponding to all reference links means searching for a predetermined range of road networks extending from the reference intersection. As described above, when all the reference links are selected, the information processing unit 4 ends the facility information acquisition process.
[0077]
Returning to the description of FIG. 3 again, after the facility information acquisition process is completed, the information processing section 4 creates facility information image data based on the display data created in step S204 (step S205). Specifically, the facility information image data is created so that the contents of the facility information are displayed at the display position indicated by the display position information included in the display data. Thus, the facility information image data creation process shown in FIG. 3 is completed.
[0078]
Returning to the description of FIG. 2, after step S104, the information processing unit 4 combines the map image data and the facility information image data (step S105). Further, the information processing unit 4 outputs the combined image data to the output unit 7 (step S106). The output image data is displayed on the display device of the output unit 7. In step S106, the road map is displayed, and the facility information acquired in the facility information acquisition process shown in step S204 is displayed on the display device in association with the road related to the facility information. After step S106, the information processing section 4 returns to the process of step S101 and repeats the processes of steps S101 to S106. As a result, the map on which the facility information is displayed is updated and displayed.
[0079]
FIG. 10 is a diagram illustrating an example of the display of the navigation device according to the first embodiment. In FIG. 10, it is assumed that a convenience store is set as the display target facility. The contents displayed as the facility information are the name of the convenience store and the distance from the current position. Further, in FIG. 10, the reference intersection is assumed to be intersection A (the letter “intersection A” is not actually displayed).
[0080]
As shown in FIG. 10, in the first embodiment, facility information is displayed for each road extending from the intersection A (excluding roads currently extending in one direction). As described above, the display position information that determines the display position of the facility information is determined so that the facility information is displayed in the vicinity of the reference link. Therefore, the user can immediately know which road (the convenience store here) the desired facility (here, the convenience store) should go through at the intersection where the user passes. Furthermore, in the example shown in FIG. 10, since the distance from the current position is displayed, even when a plurality of facility information is displayed, the user can easily determine which facility to stop by. .
[0081]
The reason why the road extending from the reference intersection in the direction of the current position is not a reference road is that it is not necessary to display what the road ahead is. That is, the road extending from the reference intersection in the direction of the current position is a road through which the user passes when traveling from the current position to the reference intersection, and therefore there is little need to search for facility information in the vicinity of the road. Conversely, displaying information that is less necessary for the user may make it difficult to see the map itself. As described above, by calculating the road network for roads other than the road extending from the reference intersection in the direction of the current position, only facility information useful for the user can be displayed.
[0082]
In the first embodiment, the information displayed on the map is the facility information, but the displayed information is not limited to this. The displayed information may be point information regarding points around the destination of the vehicle. The point information includes, for example, information on the names of surrounding places in addition to the facility information. The facility information includes facility information unique to the user (for example, the home of the user's acquaintance).
[0083]
In the first embodiment, the type of the display target facility is set by the user using the input unit 1. Here, in other embodiments, the type of the display target facility may be set by another method. For example, the type of facility to be displayed may be set based on the environment information acquired by the environment information acquisition unit 8. As a specific example in which the display target facility is determined based on the environmental information, the following embodiment can be considered. That is, when a sensor attached to the vehicle senses that the remaining amount of gasoline has decreased, the information processing unit 4 that has acquired information from the sensor sets information on the gas station as a display target facility. As a result, since the information on the gas station is displayed on the map, the user can know that the remaining amount of gasoline is low and information on the gas stations in the vicinity. Further, when the current time is used as the environment information, the information processing unit 4 may set information regarding the restaurant in the display target facility when the current time is a time zone for eating (for example, 12:00). .
[0084]
Further, the display target facility may be determined based on history information stored in the history storage unit 5. For example, when a history of displaying information related to a restaurant at a certain point is stored, the information processing unit 4 may set information related to the restaurant as a display target facility in the vicinity of the point.
[0085]
In the first embodiment, the predicted road is a national road or a prefectural road. However, in other embodiments, the predicted road may be determined according to other conditions. For example, when a route to the destination is calculated in the navigation device, the route may be a predicted road. When the predicted road is a route to the destination, the road through which the user passes can be reliably predicted. In addition to the route, a history of roads on which the vehicle has passed may be stored, and roads that have passed before may be used as predicted roads.
[0086]
In the first embodiment, the reference node is determined on the condition that it is the node closest to the current position among the nodes connected to the national or prefectural road other than the predicted road. Here, in other embodiments, the reference node may be determined using other conditions. For example, the history of the road on which the vehicle has passed may be stored in the history storage unit 5 and the reference node may be determined based on the history. For example, it may be determined based on the history whether the predicted road is a node indicating an intersection where the road stored in the history storage unit 5 is connected. If it is an intersection connected to a road that has passed before, it is considered that the user is likely to turn right or left at the intersection. Accordingly, by determining the reference node based on the history, facility information can be displayed for intersections where the user is likely to turn left or right, so that facility information that is likely to be used by the user can be displayed. it can.
[0087]
The search of the search network may be performed only on roads of a specific road type. For example, the search target link may be limited to a link indicating a national road or a prefectural road. In this case, even if the road is branched, only the main road is the target of the search, and other roads are not the target of the search. Thus, by reducing the links to be searched, the time required for the search process can be shortened. In general, it is considered that the user's psychology does not want to enter a road other than the main road such as a national road or a prefectural road in a place that is not well known. Therefore, even if facility information is acquired as a result of searching for roads other than the main road, it is considered that the possibility of actually using the facility is low. As described above, by setting only a specific road type as a search target, the search can be efficiently performed without performing a search with less necessity.
[0088]
Furthermore, in the first embodiment, the search network calculation process and the facility information search process are performed separately. That is, in the first embodiment, after creating search network data (step S402), facility information is acquired based on the created search network data (step S403). Here, in another embodiment, the search network calculation process and the facility information acquisition process may be alternately performed. Specifically, each time a link is searched in the search network calculation process, facility information associated with the searched link may be acquired.
[0089]
In the first embodiment, the number of facility information displayed is not limited, but the number of facility information displayed corresponding to one road may be limited. As a condition for limiting the number to be displayed, for example, a distance, a required time, and the like can be considered. For example, up to three items that are close to the current position may be displayed. Furthermore, when limiting the number of display of facility information, the search network calculation process and the facility information acquisition process may be alternately performed as described above. According to this, since the calculation of the search network can be completed when the number of displayable pieces of facility information is acquired, the time required for the entire process can be shortened.
[0090]
Further, in the first embodiment, the map display is a two-dimensional display when the map is viewed from directly above, but the map display method may be a three-dimensional display such as a bird's-eye view.
[0091]
In the above-described first embodiment, the search network is searched, and the number of intersections for which facility information is displayed, that is, the reference intersection is one. Even if a plurality of roads extend from the reference intersection, facility information is searched and displayed independently for each road. Therefore, in the first embodiment, the following situation may occur.
[0092]
FIG. 11 is a diagram illustrating another example of the display of the navigation device according to the first embodiment. In addition, in FIG. 11, the name (for example, "GS * A") and the distance from the current position of the gas station existing around the current position are displayed. In FIG. 11, intersection B is the reference intersection. First, in the display example shown in FIG. 11, “GS · B The information “1.3 km” is displayed. Corresponding to the road from intersection B to intersection D, “GS B The information “1.5 km” is displayed. As described above, in the first embodiment, since facility information is displayed independently for each reference road connected to the reference intersection, a plurality of display contents may overlap. Such overlapping display is not only unnecessary for the user, but rather difficult for the user to understand. Therefore, it is preferable not to display such overlapping display.
[0093]
Therefore, in the second embodiment, processing that does not perform unnecessary overlapping display is performed. In the second embodiment, a plurality of reference intersections may be selected. That is, the condition for the reference intersection in the second embodiment is an intersection connected to a national road or prefectural road other than the predicted road.
[0094]
Furthermore, in 2nd Embodiment, when predetermined | prescribed starting conditions are satisfy | filled, display of facility information shall be performed. The activation condition is a condition for displaying facility information. Specifically, it is assumed that the starting condition is “the remaining amount of gasoline has decreased”, and the facility information (gas station information) is displayed when the condition is satisfied. Hereinafter, a second embodiment according to the present invention will be described.
[0095]
Since the configuration of the navigation device according to the second embodiment is the same as that of the first embodiment shown in FIG. 1, FIG. 1 is used in the following description, and the illustration of the configuration of the navigation device is omitted. Hereinafter, the operation of the navigation device according to the second embodiment will be described with reference to FIGS.
[0096]
FIG. 12 is a flowchart illustrating a processing procedure of the information processing unit 4 according to the second embodiment. In FIG. 12, the processing of steps S601 and S602 is different from the operation of the first embodiment (see FIG. 2). First, the information processing unit 4 acquires activation information (step S601). Here, the activation information refers to information necessary for determining the activation condition. For example, when the activation condition is “gasoline has become low (the remaining amount of gasoline is equal to or less than a predetermined amount)”, the activation information is information on the remaining amount of gasoline. Information on the remaining amount of gasoline is acquired by a sensor that detects the remaining amount of gasoline, which is an example of the environment information acquisition unit 8.
[0097]
Next, the information processing unit 4 determines whether or not the activation condition is satisfied based on the activation information acquired in step S601 (step S602). In the case of the above example, when the remaining amount of gasoline indicated by the activation information is equal to or less than a predetermined amount, it is determined that the activation condition is satisfied. The activation conditions are stored in advance in the storage device of the information processing unit 4.
[0098]
If it is determined in step S602 that the activation condition is satisfied, the information processing unit 4 proceeds to the process of step S603. On the other hand, when it is determined that the activation condition is not satisfied, the information processing unit 4 returns to the process of step S601. The process in step S601 is preferably performed every predetermined time interval (for example, 5 minutes).
[0099]
In FIG. 12, the processing in steps S603 to S605 is the same as that in the first embodiment (steps S101 to S103 shown in FIG. 1), and thus the description thereof is omitted. Details of the facility information image data creation processing shown in step S606 are shown in FIG. Hereinafter, step S606 will be described with reference to FIG.
[0100]
FIG. 13 is a flowchart showing details of step S606 in the second embodiment. First, the information processing unit 4 specifies the type of facility to be displayed (step S701), and then specifies a predicted road among roads displayed on the map (step S702). Note that the processing in steps S701 and S702 is the same as the processing in steps S201 and S202 in the first embodiment. Here, in 2nd Embodiment, the kind of display object facility shall be a gas station. Further, the predicted road is assumed to be a national road or a prefectural road as in the first embodiment.
[0101]
Next, the information processing unit 4 performs a reference intersection selection process (step S703). The process of step S703 is substantially the same as the process of the reference intersection in the first embodiment shown in FIG. 4, but differs in the following points. That is, in the selection process of the reference intersection in the second embodiment, the selection node already determined as the reference node in the determination of whether or not the selection node is the reference node (step S304 shown in FIG. 4) is the reference node. It is determined that it is not. This is because the already determined reference node is not determined again as the reference node in the process of step S703 after the second time (when performed after step S704).
[0102]
After step S703, the information processing section 4 determines whether all the reference intersections have been selected (step S704). The determination in step S704 is specifically the intersection on the predicted road and whether or not the reference intersection has been determined for all of the intersections displayed on the screen (whether or not the selected node has been selected). Is done. If all the reference intersections have not been selected, the information processing section 4 repeats the processes of steps S703 and S704. On the other hand, when all the reference intersections are selected, the information processing unit 4 performs a facility information acquisition process (step S705). Details of the facility information acquisition process in the second embodiment will be described below with reference to FIG.
[0103]
FIG. 14 is a flowchart showing details of step S705 shown in FIG. First, the information processing unit 4 selects one reference node from the reference nodes selected in steps S703 and S704 (step S801). Next, the information processing unit 4 selects one reference link from the reference links connected to the reference node selected in step S801 (step S802). Here, as described in step S401 in the first embodiment, the reference link excludes links extending in the direction of the current position from the links connected to the reference node. In the following description, the reference link selected in step S802 is referred to as a selected link.
[0104]
Next, the information processing unit 4 calculates a search network including the selected link (step S803). The processing in step S803 is the same as the processing in step S402 in the first embodiment, and search network data similar to the search network data shown in FIG. 7 is created.
[0105]
Next, the information processing unit 4 searches for facilities based on the search network data calculated in step S803, and specifies a display target facility that matches the type of the display target facility specified in step S701 (step S804). . In Steps S803 and 804, when a plurality of display target facilities are selected, the information processing unit 4 specifies a plurality of display target facilities. Specifically, the facility is specified by storing the selected link selected in the immediately preceding step S802 in association with the facility ID.
[0106]
Next, the information processing unit 4 determines whether or not there is the same facility as the display target facility identified in step S804 (step S805). Specifically, the information processing unit 4 determines whether or not the same facility ID as the facility ID stored in step S804 has already been stored. That is, when it is stored, it is determined that there is the same facility as the display target facility identified in step S804. If not stored, it is determined that there is no same facility as the display target facility identified in step S804.
[0107]
If it is determined in step S805 that there is no facility that is the same as the display target facility specified in step S804, the information processing unit 4 creates display data for the display target facility (step S806). In step S806, processing similar to that in step S403 in the first embodiment is performed. Therefore, the same display data as the display data in the first embodiment shown in FIG. 8 is created as the display data.
[0108]
On the other hand, when it is determined in step S805 that there is the same facility as the display target facility specified in step S804, the information processing unit 4 determines whether to update already created display data. (Step S807). The case where there is the same facility as the display target facility specified in step S804 means that there is a display target facility for which display data has already been created in step S806. In other words, a plurality of reference roads are related to the same. This is a case where the facility information is specified in duplicate. In this case, in step S807, the reference road related to the same facility information specified in duplicate (that is, the reference road indicated by the selected link selected in step S802) satisfies a predetermined condition based on the search network. It is determined whether or not display data already created is to be updated. In the second embodiment, whether or not a predetermined condition is satisfied is determined based on the distance information included in the display data. Details of the determination process in step S807 will be described below.
[0109]
First, the information processing unit 4 calculates the distance from the current position to the display target facility based on the search network data calculated in the immediately preceding step S803. Thus, the distance of the route from the current position to the display target facility and passing through the reference road indicated by the selected link selected in step S802 is calculated. Next, the information processing unit 4 compares the calculated distance with the distance indicated by the distance information included in the already created display data. If the calculated distance is larger as a result of the comparison, it is determined that the display data is not updated. On the other hand, when the calculated distance is smaller, it is determined that the display data is updated. By performing the above processing every time a display target facility is identified in step S804, display data for the reference road included in the route with the shortest distance is finally created. .
[0110]
In the second embodiment, the reference road to be associated with the display target facility is determined by using the condition related to the distance of the route as the predetermined condition in step S807. In other embodiments, other conditions are set. It may be used. For example, a condition regarding the required time of the route may be used. Specifically, the display target facility may be associated only with the reference road included in the route having the shortest required time.
[0111]
Further, as the predetermined condition in step S807, for example, a condition relating to the road history stored in the history storage unit 5 is used, and based on the relationship between the search network and the road history stored in the history storage unit 5. It may be determined whether or not a predetermined condition is satisfied. Specifically, the display target facility may be associated only with the reference road included in the road history stored in the history storage unit 5.
[0112]
Further, for example, the predetermined condition in step S807 may be a condition regarding facility information other than distance information. For example, when the display target facility is a restaurant, the information processing unit 4 acquires parking lot information indicating the presence or absence of a parking lot as facility information regarding the restaurant, and determines whether or not a predetermined condition is satisfied by the parking lot information. You may make it do. Specifically, the predetermined condition in step S807 may be that the parking lot information indicates that there is a parking lot and that the distance information is the shortest. In addition to the parking lot information, the facility information used for the determination in step S807 can be congested store information, information indicating that a sale is in progress, and the like. Further, the facility information may be appropriately acquired from the communication unit 3 or the like at the time of determination in step S807. In this way, by using the facility information for the determination in step S807, it is possible to display appropriate facility information that matches the purpose of the user. For example, when the determination is made using only the distance information, the restaurant closest to the current position is displayed, but the user knows that there is no parking lot (the parking lot information is displayed as facility information, and the user (See.) After all, you can think of a situation where you don't go to the restaurant. By using facility information for the determination in step S807, such a situation can be avoided.
[0113]
If it is determined in step S807 that the display data is to be updated, the information processing unit 4 updates the display data (step S808), and the process proceeds to step S809. In step S808, specifically, the information processing unit 4 recreates display data based on the search network data created in the immediately preceding step S803. On the other hand, if it is determined not to update the display data, the information processing section 4 skips the process of step S808 and proceeds to the process of step S809.
[0114]
Next, the information processing section 4 determines whether or not all the reference links connected to the reference node selected in step S801 have been selected in step S802 (step S809). If any one of the reference links has not been selected, the information processing section 4 returns to step S802 and repeats a series of processes of steps S802 to S809. On the other hand, when all the reference links have been selected, the information processing unit 4 determines whether or not all the nodes determined as reference nodes have been selected in step S801 (step S810). If any one of the reference nodes is not selected, the information processing section 4 returns to step S801 and repeats a series of processes of steps S801 to S810. On the other hand, when all the reference nodes have been selected, the information processing section 4 ends the facility information acquisition process in step S705.
[0115]
Returning to FIG. 13, after step S705, the information processing section 4 creates facility information image data based on the display data created in step S705 (step S706), and ends the process of step S104. To do. Note that the processing in step S706 is the same as the processing in step S205 in the first embodiment.
[0116]
Returning to the description of FIG. 12, after step S <b> 606, the information processing section 4 performs the processes of steps S <b> 607 and S <b> 608. The process of step S607 is the same as step S105 shown in FIG. 2, and the process of step S608 is the same as step S106 shown in FIG.
[0117]
FIG. 15 is a diagram illustrating an example of a display of the navigation device according to the second embodiment. In FIG. 15, it is assumed that a gas station (GS) is set as the display target facility. The contents displayed as the facility information are the name of the gas station and the distance from the current position. Further, in FIG. 15, it is assumed that the reference node is a node indicating intersections B and C. As in FIG. 10, in FIG. 15, the characters “intersection B”, “intersection C”, and “intersection D” are not actually displayed.
[0118]
When FIG. 11 is compared with FIG. 15, in FIG. 11, on the road between the intersection B and the intersection D and the road between the intersection B and the intersection C, the gas station B (GS · B) is related. Information is displayed. On the other hand, in FIG. 15, the facility information of the gas station B (GS · B) is displayed on the road extending from the intersection C to the right of the screen. In the second embodiment, when the same facility is specified as a display target facility for a plurality of roads, the facility information of the facility is displayed only on the road having the smallest distance from the current position. This corresponds to steps S807 and S807 in FIG. 808 This is because the display data is updated so that the distance is minimized. That is, since the reference link and the reference node are updated to the reference link and the reference node when the distance is the minimum, the link stored as the display data represents a road that passes when the distance is the minimum. Also, the display position information is updated so as to correspond to the updated reference link. As described above, the information related to the gas station B is displayed on the road that passes when the distance is minimum. Further, information regarding the gas station B is not displayed on other roads.
[0119]
In addition, in FIG. 11, the gas station C (GS · C) is not displayed, but in FIG. 15, the facility information of the gas station C is displayed. This is because the intersection C is selected as the reference intersection in addition to the intersection B. Here, assuming that the intersection B is the reference intersection, the gas station C is not included in the range of the searched road network. As described above, more facility information can be displayed by selecting a plurality of reference intersections.
[0120]
The display form of the facility information to be displayed may be any form as long as it is displayed in association with the reference road. FIGS. 16-21 is a figure which shows the example of a display of the navigation apparatus in other embodiment. In another embodiment, facility information may be displayed for a plurality of types of facilities as shown in FIG. Further, the display form may be different for each different type of facility. Further, it may be displayed along a road like facility information of a convenience store shown in FIG. 16 (“convenience store A 1.2 km” shown in FIG. 16). In FIG. 16, when the latest information is acquired from outside the vehicle via the communication unit 3, the information acquired from the communication unit 3 is “8: 00 to 21:00 with parking lot” illustrated in FIG. 16. Like the information displayed, it is displayed in a form different from the normal display form. Information that changes in content with time, such as information acquired from the communication unit 3, is displayed in a display form different from fixed information (content does not change with time) obtained from map data. Also good.
[0121]
Furthermore, the following forms can be considered as examples of the display form of the facility information. For example, as shown in FIG. 17, the facility information may be displayed in a form associated with the reference road by a balloon shape. According to this, the facility information can be displayed at a place that does not interfere with the road map. Thus, the display position of the facility information does not necessarily have to be on the related reference road, and may be displayed so that the correspondence with the related reference road can be understood. Further, as shown in FIG. 18, the display shape of the facility information may be an arrow shape. By directing the arrow-shaped shape in the direction opposite to the reference intersection, that is, in the traveling direction of the user, the direction becomes easier to understand. Furthermore, the display form of the facility information may be a display like an actual sign as shown in FIG. 19, or may be a display like an arrow sign as shown in FIG. Further, as shown in FIG. 21, when the facility is a gas station, the shape of the facility information is the shape of a signboard at the actual gas station, and when the facility is a restaurant, the shape is different from the shape of the gas station. You may do it.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a navigation device according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing a processing procedure of the information processing unit 4 described in a program executed in the information processing unit 4 shown in FIG. 1;
FIG. 3 is a flowchart showing details of step S104 in FIG. 2;
4 is a flowchart showing details of step S203 in FIG. 3;
FIG. 5 is a diagram schematically illustrating an example of road network data on which a reference intersection selection process is performed in the first embodiment.
FIG. 6 is a flowchart showing details of step S204 in FIG. 3;
7 is a diagram showing a data structure of search network data created in step S402 of FIG.
FIG. 8 is a diagram showing a data structure of display data created in step S403 of FIG.
FIG. 9 is a flowchart showing details of step S403 in FIG. 6;
FIG. 10 is a diagram showing an example of display of the navigation device according to the first embodiment.
FIG. 11 is a diagram showing another example of the display of the navigation device according to the first embodiment.
FIG. 12 is a flowchart illustrating a processing procedure of the information processing unit 4 according to the second embodiment.
FIG. 13 is a flowchart showing details of step S606 in the second embodiment.
FIG. 14 is a flowchart showing details of step S705 shown in FIG. 13;
FIG. 15 is a diagram showing an example of a display of the navigation device according to the second embodiment.
FIG. 16 is a diagram showing a display example of a navigation device in another embodiment.
FIG. 17 is a diagram showing a display example of a navigation device in another embodiment.
FIG. 18 is a diagram showing a display example of a navigation device in another embodiment.
FIG. 19 is a diagram showing a display example of a navigation device in another embodiment.
FIG. 20 is a diagram showing a display example of a navigation device in another embodiment.
FIG. 21 is a diagram showing a display example of a navigation device in another embodiment.
FIG. 22 is a diagram showing a display example in a conventional navigation system.
[Explanation of symbols]
1 ... Input section
2 ... Movement status detector
3 ... Communication Department
4 Information processing department
5 ... History storage
6 ... Map data storage
7 ... Output section
20 ... Current position
21-24 ... Node
25-36 ... Link

Claims (23)

A navigation device that displays a road map on a screen,
A map data storage unit for storing map data including point information relating to points on the map;
A movement status acquisition unit for acquiring the user's position and traveling direction;
A reference intersection selection unit that selects, as a reference intersection, at least one intersection included in the road network extending in the traveling direction from the user's position among the intersections displayed on the screen;
A road connected to the reference intersection, which is a road other than a road extending from the reference intersection in the direction of the user's position, is at least a reference road, and is included in a road network extending beyond the reference road when viewed from the reference intersection. A point information acquisition unit that acquires point information about a point existing in the vicinity of the road from the map data storage unit, and displays the road map, and relates the point information acquired by the point information acquisition unit to the point information A navigation device comprising a map display unit that displays the reference road in association with the reference road. A network calculation unit for calculating a search network constituted by roads included in a road network extending beyond the reference road as viewed from the reference intersection;
The navigation device according to claim 1, wherein the point information acquisition unit acquires point information related to a point existing in the vicinity of a road included in the search network as point information related to the reference road. The navigation apparatus according to claim 2, wherein the network calculation unit uses only a predetermined type of road included in the map data as the search network. When the same spot information is acquired in duplicate as a result of acquiring the spot information related to the plurality of reference roads, the spot information acquisition unit relates to the same spot information acquired in duplicate. For different reference roads, including a condition determination unit for determining whether or not a predetermined condition based on the search network is satisfied,
The map display unit displays the point information obtained by duplication by the point information acquisition unit in association with only the reference road determined to satisfy the predetermined condition by the condition determination unit. 3. The navigation device according to 2. The predetermined condition is a condition related to a distance of a route from the reference intersection to a point indicated by the point information via a reference road,
The condition determination unit determines whether or not the predetermined condition is satisfied for the different reference roads by calculating the distance for each of the different reference roads using the search network. The navigation device described. The predetermined condition is a condition related to a required time of a route from the reference intersection to a point indicated by the point information via a reference road,
The condition determination unit determines whether or not the predetermined condition is satisfied for the different reference roads by calculating the required time for each of the different reference roads using the search network. The navigation device described in 1. A road history storage unit that stores a history of roads that have passed in the past;
The predetermined condition is a condition related to a history of a road,
The condition determination unit determines whether or not the predetermined condition is satisfied for the different reference roads based on a relationship between the search network and a road history stored in the road history storage unit. 5. The navigation device according to 4. The map data storage unit stores map data in which the location information and a road near the location indicated by the location information are associated with each other,
The navigation device according to claim 1, wherein the point information acquisition unit uses point information associated with a road in the map data as point information regarding a point existing in the vicinity of the road. The map data storage unit stores map data including location information of points,
2. The point information acquisition unit according to claim 1, wherein the point information regarding a point where a distance between a road and a point included in the search network is within a predetermined distance is set as point information regarding a point existing in the vicinity of the road. Navigation device. Of the roads displayed on the screen, further comprising a predicted road identifying unit that identifies a predicted road that the user is predicted to travel,
The navigation device according to claim 1, wherein the reference intersection selection unit selects the reference intersection from the intersections on the predicted road. The navigation device according to claim 10, wherein the predicted road specifying unit specifies a route from a departure place to a destination as the predicted road. The navigation device according to claim 10, wherein the predicted road specifying unit specifies, as the predicted road, a road that exists in a user's traveling direction and belongs to a predetermined road type based on the user's position and traveling direction. . The navigation device according to claim 10, wherein the reference intersection selection unit selects an intersection that is an intersection on the predicted road and is closest to the user's position as the reference intersection based on a user's position and traveling direction. . The navigation device according to claim 10, wherein the reference intersection selection unit selects an intersection that is an intersection on the predicted road and a road that intersects the predicted road belongs to a predetermined type as the reference intersection. . A road history storage unit that stores a history of roads that have passed in the past;
The reference intersection selection unit is an intersection on the predicted road based on a road stored in the road history storage unit, and the predicted road and a road stored in the road history storage unit intersect. The navigation apparatus according to claim 10, wherein an intersection to be selected is selected as the reference intersection. The navigation device according to claim 1, wherein the location information acquisition unit acquires only predetermined type of location information that is predetermined among the location information included in the map data. The navigation device according to claim 1, wherein the point information is facility information related to a facility. The navigation device according to claim 1, wherein the point information is place name information indicating a place name. The navigation device according to claim 1, wherein the map display unit displays point information with an arrow shape indicating a direction opposite to the reference intersection. The point information acquisition unit acquires a plurality of different types of point information,
The navigation device according to claim 1, wherein the map display unit displays the spot information by changing a display form according to the type of the spot information. A point information display method for displaying point information on a road map displayed on a screen of a display device,
Among the intersections displayed on the screen, at least one intersection included in the road network extending in the traveling direction from the user's position is set as a reference intersection,
A road connected to the reference intersection, and a road other than a road extending from the reference intersection in the direction of the user's position is at least a reference road,
A point information display method for displaying point information relating to a point existing in the vicinity of a road included in a road network extending beyond the reference road as viewed from the reference intersection in association with the reference road. A program executed by a computer to display a road map on a screen of a display device,
The computer stores map data including point information regarding points on the map,
A movement status acquisition step for acquiring the user's position and traveling direction;
A reference intersection selection step of selecting, as a reference intersection, at least one intersection included in a road network extending in the traveling direction from the user's position among the intersections displayed on the screen;
A road connected to the reference intersection, which is a road other than a road extending from the reference intersection in the direction of the user's position, is at least a reference road, and is included in a road network extending beyond the reference road when viewed from the reference intersection. A point information acquisition step for acquiring point information about a point existing in the vicinity of the road from the map data, and the display device displays the road map, and the point information acquired in the point information acquisition step is used as the point information. A program that causes the computer to execute a map display step that is displayed in association with a related reference road. A computer-readable recording medium on which the program according to claim 22 is recorded.

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