JP2004354292A - Route search reflecting point and point management - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for performing passage control by changing a link cost on the base of a point registered by an optional registrant. <P>SOLUTION: In a point registration system 300, a point registrant 310 registers 10p, 20p or the like to an optional local product, a road or the like into a registration point 130 in a server 100 on reference to information on map data stored in the map data 110 by using a client personal computer or the like connected to the Internet INT. As for the point, the point registered to the road is registered into a link showing the road, and the point registered to the local product is registered into a polygon showing the local product in the server 100. The server 100 receives starting place information, destination information or the like from a navigation device 200, searches for a route by reflecting the point registered by the point registration system 300 to the link cost which is a link evaluation value, and transmits the search result to the navigation device 200. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a route search method using map network data having a link evaluation value, and a point management method for giving a user points registered in the map network data.
[0002]
[Prior art]
2. Description of the Related Art In recent years, navigation devices that display maps, search for routes, and the like by using computerized map data that can be used by computers, so-called electronic map data, have become widespread. Navigation devices are widely used, for example, for in-vehicle use and portable use. The electronic map data includes route search data for performing a route search. The route search data includes link data indicating a road (path), node data indicating an end point of the road such as an intersection or a dead end, and landmark information. The link data includes a link ID for identifying each road, a link cost indicating an evaluation value of the road such as an average required time to pass, and the like. The link cost is determined by the road manager based on various factors such as the type of road, the presence or absence of a toll, the time zone, the congestion occurrence rate, and the navigation device generally uses the link cost based on the link cost. A route search is being performed.
[0003]
Further, in recent years, a system that promotes use of a user who uses a toll road, a facility, or the like by returning a service point according to the degree of use (see Patent Literature 1), or responding to traffic congestion conditions on a toll road. A system for refunding a fee (see Patent Document 2) is under study.
[0004]
[Patent Document 1]
JP 2002-216187 A
[Patent Document 2]
JP 2002-260037 A
[0005]
[Problems to be solved by the invention]
However, the conventional route search method is performed only based on the link cost set by the creator of the network data, and points given to facilities and the like are not considered in the route search. Therefore, in a service point system that gives points to a user who uses facilities, for example, even if a point is registered and the use of the user is promoted, there is a low possibility that such a road will be searched by a route search, There was a problem that the effect of registration was difficult to be reflected.
[0006]
The present invention has been made in view of such a problem, and an object of the present invention is to reflect a point input from the outside of a manager other than an administrator in a link search in a link cost, and to perform a link search corresponding to various conditions. . Another object of the present invention is to perform point management for promoting use of roads and facilities by giving such points to a user.
[0007]
[Means for Solving the Problems and Their Functions and Effects]
In order to solve at least a part of the problems described above, the present invention employs the following configurations. That is, as a first configuration of the present invention,
A route search device that has a node and a link connecting the nodes, and performs a route search using map data in which a link evaluation value for a route search is set for the link,
Registration means for registering a point designated by a point registrant in a database in association with a feature of the map data and the link;
A receiving unit that receives at least the departure place information and the destination information from the user;
The gist of the present invention is to include a route guide unit that performs a route search based on the link evaluation value, the points, and the received information, and notifies a result of the route search to the user.
[0008]
The link evaluation value is a value that is set based on the distance of the road, the required time of passage, the type, the traffic congestion rate, and the like, and is set in advance when the network data is created. Various methods can be used for the route search. For example, according to the Dijkstra method, a method of performing a search with higher priority as the integrated value of link evaluation values from the departure point to the destination is lower can be adopted.
[0009]
ADVANTAGE OF THE INVENTION According to the route search apparatus of this invention, the route search which considered the link evaluation value and the point registered corresponding to the map data by the point registrant can be performed.
In this way, for example, when the point registrant is a manager of a store, a facility, or the like, the user can be guided to the place where the point is registered, and the commercial effect can be improved. Further, for example, when the point registrant is a road manager, the traffic control can be performed based on the registered points.
[0010]
In the route search device of the present invention, the route guidance unit includes:
A plurality of routes are searched based on the link evaluation value and the received information, and a determination is made based on the points registered in the links included in the plurality of routes, and the route search result is notified to the user. It may be good.
[0011]
For example, when a route search is performed using the conventional Dijkstra method, a plurality of routes searched in ascending order of the integrated value of the link evaluation value are used to select a route having a high total value of points registered in the links of the route. Can be reported to the user together with the total points. A plurality of routes may be reported, or, for example, the three routes from the top of the total value of points may be reported. Not only the points registered in the link but also the points registered in the feature may be added together.
[0012]
In this way, a plurality of route candidates are searched based on the link evaluation value, so that a route that is easy to pass is searched. Since the user is notified of the result of adding the points to the plurality of route candidates, the user can flexibly select a route while considering the points and ease of passage, thereby improving convenience. .
[0013]
In addition, the route guidance unit includes:
The point may be reflected in the link evaluation value, and a route search may be performed based on the changed link evaluation value and the received information.
[0014]
By doing so, it is possible to perform a route search based on the link evaluation value reflecting the points registered in association with the map data by the point registrant, and not only to guide the route but also to reflect the points in the link evaluation value, for example. At this time, if the link evaluation value is increased, it is possible to avoid the route. For example, temporary and limited restrictions on traffic volume by road managers and road construction managers, suppression of traffic volume near residential areas at night, and reduction of traffic volume on bus traffic roads during commuting and school hours. Control and the like can be performed.
[0015]
The link evaluation value changing unit may reflect the points registered in a predetermined range including at least a part of the link in a link evaluation value of the link. In this way, the link evaluation value can be flexibly changed.
[0016]
In the route search device of the present invention,
The link has attribute information,
The link evaluation value changing unit may change a method of reflecting the points on the link evaluation value based on the attribute information.
[0017]
The attribute information can be, for example, information on roads such as road types such as expressways and national roads, road widths, prescribed speeds, and traffic restrictions such as one-way traffic. According to the present invention, the degree of influence of a registered point on a link evaluation value can be controlled by attribute information.
[0018]
In the route search device of the present invention,
An operation unit for the point registrant to perform the registration operation, a map display means for performing control to display a map based on the map data,
In accordance with an operation on the operation unit by the point registrant, the point and a registration point receiving means for receiving designation of the registration point of the point, and
The registration unit may perform the registration in association with the link or the feature corresponding to the registration location. By doing so, the point registrant can easily specify the point registration location, which can improve convenience and is preferable.
[0019]
As a second configuration of the present invention,
A point management device that has a node and a link connecting the nodes, and manages a point given to a user who uses map data in which a link evaluation value for evaluating the link is set for the link,
A point data reference unit that refers to a database registered by associating a point registered by a point registrant with a link or a feature in the map data,
When,
A movement information acquisition unit that acquires movement information that can specify the movement trajectory of the user on the map data,
A point management unit that accumulates the points corresponding to the link or the feature specified based on the movement information for each user, and manages an accumulated point representing a total of points for each user. .
[0020]
The map data may be referred to from a storage medium such as a hard disk or a CD-ROM, or may be acquired from a server or the like via a network. In the latter case, it is preferable to appropriately receive only the necessary map data, because the network load can be reduced. The point registrant can be, for example, a manager of a store, a manager of an advertising signboard installed at a position facing a road, a manager of a road, and the like. The points registered by the point registrant can be, for example, stored in the server, are given when the user uses the road or facility where the points are registered, and can be exchanged for products according to the accumulated points. This is preferable because it is possible to promote the use of facilities by the user.
[0021]
ADVANTAGE OF THE INVENTION According to this invention, since a point is provided to the user who moved using the map data, it is possible to promote the use of the map data and to improve the effect of the advertisement / promotion to the point registrant. Become.
[0022]
The point management device of the present invention can be constructed on both the server side and the user side. For example, in the case of the former configuration, it can be realized by acquiring user information, movement information, and the like that can identify the user from the user, and can reduce the processing load on the device on the user side. In the latter case, the user information and the movement information may be notified to the server, but when acquiring map data via the network, the associated registered points are also acquired. If this is done, it is possible to know the points to be awarded without requiring subsequent information exchange with the server. Since a plurality of map data users exist for a plurality of point registrants, it is operationally preferable that the accumulated points acquired by the users be centrally managed on the server side. In such a case, for example, if the user notifies the server of the user information and the acquisition point at a predetermined timing, it can be easily realized.
[0023]
The movement information may be a movement history of the movement of the user. If the movement history includes, for example, information that can specify a required time for passing through a road, a passing time, a stay time of a facility, and the like, points can be given based on various types of information. It is.
[0024]
In the point management device of the present invention,
The travel information includes information capable of specifying a required travel time,
The point adding unit may change and add the points based on the required travel time.
[0025]
The information that can specify the required travel time may be, for example, the required travel time of the road itself, or may be calculated from the distance of the road and the average speed of passing through the road. The point adding unit may, for example, multiply the point by a coefficient proportional to a preset required travel time, or may add or subtract a predetermined point. For example, for a user whose travel time is 10 minutes or longer, points can be flexibly changed and added, such as an increase of 5 points to points normally given, and convenience is improved.
[0026]
Further, the movement information includes information capable of specifying a movement distance,
The point adding unit may change and add the points based on the moving distance.
[0027]
The travel distance can be calculated, for example, from the average speed and the travel time, which is the sum of the distance of the road represented by each link managed by the attribute information of the moved link. The point adding unit, for example, doubles the point when the moving distance is equal to or longer than a predetermined distance, halves the point when deviating to a side road without passing the link to the end, or moving the point. For example, predetermined points may be added in proportion to the distance. This makes it possible to perform point management that further reflects the usage rate of the user.
[0028]
Further, in the first configuration or the second configuration of the present invention,
For the display means for displaying the map data to the user,
A display control unit that highlights a point registration location where the point is registered may be provided.
[0029]
The highlighting may be, for example, displaying the location where the point is registered by displaying the color, changing the display size, blinking, or blowing out additional information, and the road is red and the facility is blue. The display method may be switched according to the attribute information such as the display information. The display may be switched according to the registered points. It is preferable that the point registration location be a display that is easier for the user to recognize than a normal display. By doing so, the user can easily visually recognize the location where the points are registered, for example, an area where the locations where the points are registered is dense, and the convenience is improved. In addition, the point registrant is preferable because it can improve the advertisement / promotion effect.
[0030]
Further, a point registration location existing within a predetermined range based on the current location information of the user may be highlighted. It is not necessary to consider the current location information as the center within the predetermined range. For example, the current location information may be a range where the current location information is at the lower end of an arc with respect to the traveling direction of the user, or may be an area of various shapes without being limited to a circle. Is also good. By doing so, the user can grasp the point registration locations existing near the current location, and the convenience is improved.
[0031]
Also,
A user information acquisition unit for acquiring user information including information capable of specifying the attribute of the user,
The display control unit may perform control for switching a highlighted portion based on the user information.
[0032]
The user information acquisition means may be, for example, information on the user registered in advance on the server side, and may acquire attribute information or the like by receiving information that can identify the user from the user. , Gender, taste, etc. may be input one by one.
[0033]
In this way, the user can easily confirm the appropriate point registration location from the point registration locations set in large numbers, thereby improving the convenience.
[0034]
The present invention may be configured as a traffic control method or a point management method, in addition to the configuration as the above-described point-based traffic control device and the point management device. Further, the present invention may be configured as a computer program for realizing the traffic control and the point management of the present invention by a computer, and a recording medium recording such a program. Examples of the recording medium include a flexible disk, a CD-ROM, a DVD-ROM, a magneto-optical disk, an IC card, a ROM cartridge, a punched card, a printed matter on which a code such as a barcode is printed, a computer internal storage device (such as a ROM or a RAM). Various computer-readable media, such as a memory of an external storage device and an external storage device.
[0035]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described by dividing them into the following items.
A. First embodiment:
A1. System configuration:
A2. Functional block diagram:
A3. Map data structure:
A4. Link cost:
A5. Point registration process:
A6. Route search:
A6-1. Route search processing:
A6-2. Link cost change processing:
A6-3. Route search result:
A7. Point addition processing:
A8. Variations of the first embodiment:
B. Second embodiment:
B1. Functional block diagram:
B2. Point change processing:
B3. Variation of the second embodiment:
C. Third embodiment:
C1. Highlight processing:
C2. Variations of the third embodiment:
D. Modification:
[0036]
A. First embodiment:
A1. System configuration:
FIG. 1 is an explanatory diagram illustrating a schematic configuration of a navigation system 1000 as a first embodiment. The navigation system 1000 according to the present embodiment includes a server 100, a navigation device 200, and a point registration system 300. The server 100, the navigation device 200, and the point registration system 300 are connected via the Internet INT and exchange various data.
[0037]
In the server 100, various databases of the map data 110, the user acquisition points 120, and the registration points 130 are constructed. The map data 110 stores electronic map data. In the registered points 130, points associated with roads, features, and the like on the electronic map data are registered by the point registrant 310 from the point registration screen 320, and the points are registered with the user who has moved using the electronic map data. On the other hand, such points are given. In the user acquisition points 120, points given to the user are managed in association with the user information.
[0038]
The server 100 has a function of receiving departure point information, destination information, and the like from the navigation device 200, searching for a route, and transmitting the route search to the navigation device 200. The point registration system 300 manages points registered for roads, features, and the like on the electronic map data, and reflects the points in route search.
[0039]
The navigation device 200 is connected to the server 100 via the Internet INT to exchange various data by performing wireless communication with the relay station ST. The navigation device 200 includes a display panel 210 and an operation panel 220. The display panel 210 displays a map, character information, a menu screen, a result of a route search, a point registration location, and the like. The operation panel 220 issues user instructions such as moving a cursor on a map displayed on the display panel 210, setting and changing the scale, scrolling the screen, and various settings on a menu screen including inputting information on the destination. It is for input.
[0040]
The point registration system 300 allows the point registrant 310 to refer to the map data stored in the map data 110 by using a client personal computer or the like connected to the Internet INT, and to set an arbitrary feature, road, etc. This is a system for registering points, such as points (hereinafter, the unit of points is represented by “p”), 20p, and the like.
[0041]
In this embodiment, the navigation device 200 is a so-called car navigation device of a type mounted on a vehicle. Hereinafter, a functional block diagram showing the configuration of the server 100 and the navigation device 200, processing details, and processing details of the point registration system 300 are shown.
[0042]
A2. Function block:
FIG. 2 is a functional block diagram showing the configuration of the server 100 and the navigation device 200.
[0043]
The control unit 230 of the navigation device 200 is configured as a microcomputer including a CPU, a ROM, a RAM, and the like, and includes a control unit 231, a communication unit 232, a current location detection unit 233, a command input unit 234, a display control unit. 235. These functional blocks are configured by software. It may be configured as hardware.
[0044]
The control unit 231 controls each unit in the control unit 230. The communication unit 232 performs wireless communication with the relay station ST, and exchanges various data with the server 100 via the Internet INT. The current position detection unit 233 detects the current position based on a radio wave from an artificial satellite received by a GPS antenna (not shown). The command input unit 234 inputs a user's instruction by operating the operation panel 220, a destination in a route search, and the like. The destination can be specified by, for example, the address, name, telephone number, and the like of the destination. The display control unit 235 controls a screen to be displayed on the display panel 210.
[0045]
The control unit 101 of the server 100 includes a control unit 102, a communication unit 103, a route search unit 104, a point management unit 105, a point registration unit 106, map data 110 as various databases, user acquisition points 120, , Registration point 130, registrant information 140, and user information 150. The control unit 102 controls each unit in the control unit 101. The communication unit 103 exchanges various data with the navigation device 200 and the point registration system 300. The communication unit 103 receives, for example, a display request from the navigation device 200 and transmits electronic map data extracted based on the display request to the navigation device 200.
[0046]
The point registration unit 106 registers the points registered from the point registration system 300 and the point registration locations in the registration points 130, and also registers the total value of the registered points of the point registrant 310 in the registrant information 140. . The registrant information 140 includes three items, a registrant ID, a name, and a total registration point, as shown in the figure. 310 is specified, and the registration points are added.
[0047]
The route search unit 104 performs a route search from the departure point to the destination based on the current position information, the departure point information, the destination information, and the like received from the navigation device 200 and reflecting the points registered in the registration point 130. Do. The method for reflecting the points in the route search will be described later in detail. The route search result is sent to the navigation device 200 via the communication unit 103. In the present embodiment, a known Dijkstra method is used as the route search method.
[0048]
The point management unit 105 receives the current location information and the user ID from the navigation device 200, and if the current position is a road or facility where the point is registered, associates the point to be given with the user ID. Register in the user acquisition points 120.
[0049]
The user information 150 manages detailed information of the user of the navigation device 200, and includes five items of a user ID, a user name, a contact, an age, and a gender, as illustrated. The telephone number is stored in the contact information, and the gender is stored such that “0” is male and “1” is female. The information managed by the user information 150 is not limited to the detailed information of these users, but may also manage taste items such as hobbies.
[0050]
A3. Map data structure:
FIG. 3 is an explanatory diagram illustrating the structure of the electronic map data stored in the map data 110 according to the present embodiment. The electronic map data has display data 400 and network data 410. The display data 400 is data for displaying on the display panel 210 of the navigation device 200 and the point registration screen 320, The actual state such as the road width is reflected and configured. The network data 410 is composed of link data representing a road, node data representing an end point of the road, and a polygon representing a feature. Polygons may be configured as separate layers. Nodes and links have various types of information as attribute information. As shown in the figure, the nodes of the network data 410 correspond to the display data 400 as shown by broken lines, and the links of the network data 410 and the polygons also correspond.
[0051]
In the present embodiment, the navigation device 200 designates the departure place S as the departure place of the route search and the destination E as the destination.
[0052]
A4. Link cost:
FIG. 4 is an explanatory diagram illustrating a link cost in the network data 410. In the figure, N1 to N7 indicate nodes, and L3 (12), L4 (16) and the like indicate links. (12) in L3 (12) indicates a link cost indicating an evaluation value such as ease of passage of the corresponding link. The lower the link cost, the easier the passage, ie, it is evaluated that no congestion occurs. You. The features Po1 to Po4 are polygons indicating buildings, facilities, and the like.
[0053]
When a route search is performed by the Dijkstra method based on the link cost in the network data 410, the starting point S is the node N4 and the destination E is the feature Po1, so the shortest path is as shown by a broken line in the figure. The result "L13-L10-L3" is obtained.
[0054]
A5. Point registration process:
FIG. 5 is a flowchart illustrating the point registration process performed by the point registrant 310. In the present embodiment, the information of the point registrant 310 is registered in the server 100 in advance, and the point registrant 310 accesses the server 100 via a browser and stores a point at an arbitrary position on the map data 110. It can be registered.
[0055]
The point registration system 300 inputs an ID and a password and logs in to the server 100 based on the operation of the point registrant 310 (step S10). The server 100 authenticates the point registrant 310, determines that the registrant is a registrant capable of registering points, and sends an access permission (step S20). The point registration system 300 receives the access permission and refers to the map data 110 to specify a point where a point is to be registered (step S11). As a specification method, there are various methods such as inputting an address, specifying with a telephone number, and specifying with a pointing device such as a mouse. Next, a point is arbitrarily designated for the designated portion (step S12).
[0056]
The point registration system 300 sends a registration instruction of the designated registration point and the point to the server 100 (step S13), and the server 100 registers the registration point and the point in the registration point 130, and registers the registrant information 140. Are registered (step S21).
[0057]
FIG. 6A is an explanatory diagram illustrating a point registration screen 320. FIG. 5 shows the processing of steps S11 to S13 in FIG. The point registration screen 320 includes a registrant information display section 320a, a message display section 320b, a map display section 320c, and a registration button 320d.
[0058]
The registrant information display section 320a displays the ID and name of the registrant who has logged in, the message display section 320b displays a message explaining the point registration method, and the map display section 320c displays a map. Data 110 is displayed. The registration button 320d has a function of transmitting a designated point registration point and a point to the server 100 when pressed.
[0059]
For example, when registering “50p” in “feature Po1”, the point registrant 310 specifies “feature Po1” using a pointing device such as a mouse, and “50p” is displayed in the displayed registration unit 321a. ". The registration unit 321a displays a name based on the attribute information of the feature Po1. In this embodiment, the feature Po1 is “「 × department store ”.
[0060]
When a point is registered on a road, it can be realized by registering the point on a link including a point designated by a mouse. As shown in the figure, when the position of the star is designated by the mouse, the link L4 is selected, and the registration unit 321b is displayed. The registration unit 321b displays the name of the road indicated by the link “△△ street” from the attribute information of the link, and the point registrant 310 specifies “100p” of the point to be registered.
[0061]
The point registrant 310 can register such registration information in the server 100 by pressing the registration button 320d after designating the point where the point is to be registered and the point.
[0062]
FIG. 6B is an explanatory diagram illustrating a registration point 130 which is a database constructed in the server 100. The registration point 130 manages the points registered by the point registration system 300 for each link and polygon, and is composed of three items of “registrant ID”, “registered location”, and “registered point”. ing.
[0063]
The registrant ID is information for specifying the point registrant 310, and stores the ID of the registrant information 140. The registration location stores a link, a polygon, and the like in which points are registered. The registration point indicates a point registered in the registration location.
[0064]
This drawing shows that the point registrant with the registrant ID “100” has registered “50p” in “Feature Po1”, “100p” in “Link L4”, and “50p” in “Link L3”. . The registrant IDs “374” and “233” have “10p” and “10p” registered in “link L13”, respectively. In this way, it is also possible to register points for the same link and polygon from different registrants.
[0065]
A6. Route search:
A6-1. Route search processing:
FIG. 7 is a flowchart illustrating a route search process according to the present embodiment. This is a process performed between the server 100 and the navigation device 200.
[0066]
The navigation device 200 inputs a departure place and a destination from the operation panel 220 and transmits them to the server 100 (step S30). The server 100 receives the information (step S40) and performs a route search (step S41). The route search processing will be described later. Next, the server 100 transmits the route search result to the navigation device 200 (Step S42).
[0067]
The navigation device 200 receives the route search result (Step S31) and displays it on the display panel 210 (Step S32).
[0068]
A6-2. Link cost:
FIG. 8 is a flowchart illustrating a process of reflecting points into the link cost. This is the process in step S41 in FIG. 7, which is performed by the server 100 controlling the route search unit 104 and referring to the map data 110 and the registration points 130.
[0069]
The server 100 extracts a link as a route candidate based on the information of the departure point and the destination received from the navigation device 200, and changes a set link cost by a point registered in the link, A new link cost is set (step S50). A table for explaining the change of the link cost by reflecting the points is also shown in the figure. In this embodiment, the link cost is reduced by "1" for every 10p. For example, the link cost of the link L3 set in advance is “12”. Since the point “50p” is registered in the link L3, a new link cost reflecting the registered point is set by reducing the link cost by 5.
[0070]
After reflecting the points registered in the link to the link cost, the server 100 further reflects the points registered for the features connectable from the link to the link cost (step S51). In addition, a table for explaining a change in link cost due to reflection of points registered in the feature is shown in FIG. As in the process of step S50, the link cost is reduced by "1" for every 10 points. For example, the feature Po1 represented by a polygon can be connected from the link L3 and the link L4, and the point registered in the feature Po1 is “50p”, and the link cost of both the link L3 and the link L4 is Will be reflected. The link L3 has been changed from "12" to "7" in step S50, and the link cost of the link L4 has been similarly changed from "16" to "6". Based on “50p” registered in the feature Po1, the link cost after the change is further reduced by “5”. By doing so, the link L3 is changed from "7" to "2", and the link L4 is changed from "6" to "1".
[0071]
After changing the link cost, the server 100 sets a new link cost in the network data 410 (step S52), and performs a route search (step S53).
[0072]
FIG. 9A illustrates network data 420 in which a new link cost is set. In the same manner as the network data 410 shown in FIG. 4, the network data 420 indicates nodes from N1 to N7 in the figure, and L3 (2) and L4 (1) indicate links. (2) in L3 (2) indicates the corresponding link cost, and the registered points are reflected.
[0073]
FIG. 9B shows a result of performing a route search based on the network data 420 shown in FIG. 9A. As shown in the figure, as the route number 1, the route “L15-L7-L4” is selected, the total value of the link costs is “11”, and the route number 2 is the route “L13-L10-L3”. Is selected, and the total value of the link costs is “13”. For the route number 3, the route “L15-L9-L3” is selected, the total link cost is “24”, and for the route number 4, the route “L15-L23-L8-L4” is selected. Therefore, the total value of the link costs is “45”. That is, the route number 1 is transmitted to the navigation device 200 as a route search result. The route number 1 is a route indicated by a dashed line in FIG.
[0074]
A6-3. Route search result:
FIG. 10 is an explanatory diagram illustrating a route search result displayed on the display panel 210. From the departure point S to the destination E, a route is displayed as shown by a solid arrow in the figure. When a route search is performed using a link cost that does not reflect points, the route R indicated by a broken line has a high probability of being searched. Therefore, when a large number of users pass through the route search, the route R may be congested. Had become. Traffic control that reduces the congestion of the route R by registering points on a route with a preset link cost that is high, that is, a route with a high possibility of congestion, a detour, etc., and changing the link cost. Has the effect of
[0075]
A7. Point addition processing:
FIG. 11 is a flowchart illustrating a process of adding points given to a user. This is a process performed by the server 100 after step S21 in FIG.
[0076]
When receiving the user information and the current location information from the navigation device 200 (step S60), the server 100 specifies the link that is being passed, based on the current location information, and determines whether a point is registered in the link. (Step S61). If the point has not been registered, the process ends. It is assumed that the user information includes at least a user ID.
[0077]
If points have been registered, the points are added to the accumulated points registered in the user acquired points 120 (step S62). As shown in step S62, the user acquisition point 120 manages the user ID and the accumulated points of the user.
[0078]
According to the navigation system 1000 of the first embodiment described above, since the link cost is changed by reflecting the points arbitrarily registered by the point registrant and the route search is performed, the following various effects are obtained. be able to. First, since the link cost can be flexibly changed by registering the points, arbitrary traffic control by the point registrant can be performed. Second, since points registered in buildings, facilities, and the like can be reflected in the link cost of links that can be connected to such buildings, the navigation device can be used to pass through buildings, facilities, or the vicinity in which points are registered. 200 users can be guided, and an advertising effect can be obtained. Since the amount of change in the link cost varies depending on the number of points to be registered, it is possible to suppress the unfairness of the advertising effect to the point registrant. There is an advantage that the user can acquire points even when a detour route is selected as a route search result.
[0079]
A8. Variations of the first embodiment:
In the first embodiment, the route search is performed based on the link cost reflecting the registered points, and the points are added to the passing user. However, the point addition process is omitted, and the traffic control is performed only by the route search process. It may be configured as a device.
[0080]
In the first embodiment, the route search is performed by lowering the link cost as the point becomes higher, so-called “point priority route search”. However, if the route search method can be flexibly selected by the user, Convenience is improved and suitable.
[0081]
Further, as shown in the first embodiment, the points to be reflected in the link cost are not limited to the link and the facilities connectable from the link, but are registered in, for example, facilities existing within a predetermined range from the center of the link. The points may be reflected in the link cost of such a link.
[0082]
B. Second embodiment:
B1. Functional block diagram:
In the first embodiment, the server 100 receives the departure point information and the destination information from the navigation device 200 and performs a route search. However, in the second embodiment, the navigation device 200 performs the route search. We decided to calculate points from the traffic history. The system outline is the same as in the first embodiment.
[0083]
FIG. 12 is a functional block diagram illustrating a configuration of the navigation device 200 according to the second embodiment. The control unit 500 of the navigation device 200 is configured as a microcomputer including a CPU, a ROM, a RAM, and the like. 505, a map data storage unit 506, a history management unit 507, and a point management unit 508. These functional blocks are configured by software. It may be configured as hardware.
[0084]
The communication unit 502, the current location detection unit 503, the command input unit 504, and the display control unit 505 perform the same processing as the respective blocks described in FIG.
[0085]
The control unit 501 receives, from the server 100, map data necessary for a route search including a departure place and a destination, and attribute information related to the map data, and sends display map data to the display control unit 505. The attribute information is transferred to the map data storage unit 506. As shown, the map data storage unit 506 includes a link, a name of the road indicated by the link, a distance, a type, and registered points. For example, the link L15 is "National Route 28", the distance of the road over the link L15 is "5 km", the type of the road is "National Highway", and the registered point is "200p". .
[0086]
The history management unit 507 manages a traffic history. The history management unit 507 is managed in chronological order as shown in the figure, and includes a link start date and time, a link end date and time, and an average speed. The traffic start time indicates the date and time when the vehicle passed the node indicating the end point of the link, and the traffic end time and date indicates the date and time when the vehicle passed the node at the other end point of the link. For example, L15 indicates that the traffic start date and time is "200301280950", which is "9:50 on January 28, 2003". The same applies to the traffic end date and time. The average speed is calculated from the distance stored in the map data storage unit 506, the traffic start date and time, and the traffic end date and time. A speed history may be separately created, and the average speed may be calculated from the speed history.
[0087]
The point management unit 508 has a function of calculating points from the history management unit 507 and the map data storage unit 506, and transmitting the calculated points to the server 100 via the communication unit 502. The calculated flag Fd is a flag for determining whether or not the link has already calculated the points. "0" indicates that the link has not been calculated, and "1" indicates that the link has been calculated.
[0088]
B2. Point change processing:
FIG. 13 is a flowchart illustrating a point calculation process according to the second embodiment. This is a process performed by the control unit 501 of the navigation device 200 by controlling each functional block. In the present embodiment, different additional points depending on the required travel time are added to the points registered on the passed link.
[0089]
The navigation device 200 refers to the passage history of the history management unit 507 (step S70), and confirms the travel time of the first link whose calculated flag Fd is “0” (step SS71). Next, referring to the map data storage unit 506, the points are calculated from the points registered in the link and the required travel time (step S72). As shown in the figure, different additional points are added according to the required travel time, points are calculated, and the calculated flag Fd is set to “1”. If the required travel time is “0 to 10 minutes”, “normal point + 0p” is obtained, and the normal point remains. In the case of “11 to 20 minutes”, “normal point + 5p” is obtained. In the case of "21 to 30 minutes", it is "normal point + 7p", and in the case of "31 minutes or more", it is "normal point + 10p". In this way, the points to be added increase in proportion to the required travel time. This is because, for example, when a signboard is present in a place visible during road traffic, the time required to check the signboard increases in proportion to the time required for traffic, and the advertising effect can be improved.
[0090]
Next, a subtotal point is calculated (step S73). The subtotal point indicates the point total value of the history in which the calculated flag Fd is “0” in the traffic history. It is determined whether or not the point calculation of the history in which the calculation flag Fd of the passage history is “0” has been completed (step S74). If not completed, the required travel time of the next history is confirmed (step S74). Step S75), returning to step S72 to calculate the points. When the point calculation is completed, the subtotal points are transmitted to the server 100 together with the user information via the Internet INT (step S76). The user information may be any information that can specify a user, such as a user ID. The server 100 registers the received points in the user earned points 120.
[0091]
According to the second embodiment described above, the points to be given to the user can be given in proportion to the travel time of the user, so that points can be given in accordance with the advertisement / advertising effect, and the point registrant can be given. Convenience can be improved.
[0092]
B3. Variation of the second embodiment:
In the present embodiment, the points to be given are calculated based on the required travel time, but the present invention is not limited to this. For example, the points may be calculated based on the user's means of transportation, such as a private car, public transportation, cycling, or walking. In addition, for example, a user is provided with a predetermined point lower than a normal point for a user who has deviated from a normal road to a user who has only traversed a link halfway, and a user who has a long total travel distance adds a predetermined point to a normal point. The points may be calculated based on the distance moved by.
[0093]
In this embodiment, the points registered in the link are calculated, but the present invention is not limited to this. Points registered in such facilities and the like, such as when using facilities and buildings or when passing through, may be added depending on the use situation. In this way, the point calculation can be performed flexibly and the convenience is improved.
[0094]
Further, points may be calculated based on user attribute information such as gender and age as shown in the user information 150 in FIG. In this way, the point registrant can efficiently give points, which is preferable.
[0095]
C. Third embodiment:
In the first embodiment, a route search reflecting the points registered by the point registrant 310 is performed, and points are given to the user. In the second embodiment, points are changed and given to the user based on the passage history. In the third embodiment, a point registration point is highlighted on the display panel 210 of the navigation device 200, thereby clarifying the guidance of the point registration point to the user and advertising / promoting the point registrant 310. The effect was to be improved. In this embodiment, the system outline is the same as that of the first embodiment, and the server 100 performs route search, point calculation, and the like. Only the highlighting process may be performed without performing a route search, point calculation, or the like.
[0096]
C1. Highlighting process
FIG. 14 is a flowchart illustrating highlighting of a point registration location in the third embodiment. The process is started when the server 100 receives the current location information from the navigation device 200.
[0097]
The navigation device 200 transmits the current location information to the server 100 during the passage (step S80). Upon receiving the current location information from the navigation device 200 (step S90), the server 100 searches for a point registration location within a predetermined range from the current location information (step S91). As shown in the figure, among links existing in an area B indicated by a circle centered on the current location X indicated by an asterisk, a link or polygon in which a point is registered is searched. In the present embodiment, points are registered in the links L3, L4, L7 and the feature Po1 as indicated by broken lines in the figure.
[0098]
The server 100 sends an instruction to highlight the link and the polygon to the navigation device 200 (Step S92). The navigation device 200 receives the instruction (step S81), and highlights the designated link and the links L3, L4, L7, which are polygons, and the road and the feature corresponding to the feature Po1, as shown in the figure. The highlighting includes various modes such as making a color, a pattern, and the like different from normal, blinking, enlarging, and displaying a balloon. Further, in the present embodiment, different display is performed for the link and the polygon. However, for example, a different color or pattern may be displayed for each attribute of the link, or a display mode may be switched for each point. May be controlled. For example, a point with a high registration point may be highlighted for a longer time than a low point.
[0099]
According to the third embodiment described above, since the point where the point is registered is highlighted on the navigation device 200, the user can check the road or facility where the point is registered, which is convenient. The performance is improved. In addition, the point registrant can improve the advertisement / advertising effect.
[0100]
C2. Variations of the third embodiment:
The third embodiment described above is realized by the same system configuration as that of the first embodiment. Therefore, the server 100 performs the route search and the point calculation. However, with the same configuration as that of the second embodiment, the navigation device 200 , Route search and point calculation may be performed. The processing load on the server 100 can be suppressed.
[0101]
In the third embodiment, the point registration points existing within a predetermined range from the current location are highlighted, but the present invention is not limited to this. For example, not only within a predetermined range, but also all point registration points may be highlighted, point registration points whose points are equal to or more than a predetermined value are always displayed, and point registration points whose number is equal to or less than a predetermined value are specified points from the current location. It may be displayed only when it exists within the range, or the like. Further, for example, a point registration point to be highlighted may be switched based on attribute information such as a user's sex, age, and hobby.
[0102]
D. Modification:
As described above, the embodiments of the present invention have been described. However, the present invention is not limited to these embodiments, and may be implemented in various other forms without departing from the gist of the present invention. Needless to say. For example, in the system configuration of the first embodiment, the point change processing described in the second embodiment may be performed.
[0103]
In addition to the above, it is also possible to switch the manner of highlighting of points in the third embodiment, increase / decrease of points to be added in the second embodiment, and the like in accordance with predetermined conditions such as weather conditions. For example, if the point registrant 310 is an administrator of an outdoor amusement park or the like, it cannot be used in the case of rain. Thus, a more convenient navigation system can be realized.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating a schematic configuration of a navigation system 1000 according to a first embodiment.
FIG. 2 is a functional block diagram illustrating configurations of a server 100 and a navigation device 200 according to the first embodiment.
FIG. 3 is an explanatory diagram illustrating the structure of electronic map data stored in the map data 110 according to the first embodiment.
FIG. 4 is an explanatory diagram illustrating a link cost in network data 410 according to the first embodiment.
FIG. 5 is a flowchart illustrating a point registration process performed by a point registrant 310 according to the first embodiment.
FIG. 6 is an explanatory diagram illustrating a point registration screen 320 and a registered point 130 in the first embodiment.
FIG. 7 is a flowchart illustrating a route search process according to the first embodiment.
FIG. 8 is a flowchart illustrating a process of reflecting points in a link cost according to the first embodiment.
FIG. 9 is an explanatory diagram illustrating network data 420 reflecting a new link cost and a route search result in the first embodiment.
FIG. 10 is an explanatory diagram illustrating a route search result displayed on the display panel according to the first embodiment.
FIG. 11 is a flowchart illustrating a process of adding points given to a user in the first embodiment.
FIG. 12 is a functional block diagram illustrating a configuration of a navigation device 200 according to the second embodiment.
FIG. 13 is a flowchart illustrating a point calculation process according to the second embodiment.
FIG. 14 is a flowchart illustrating highlighting of a point registration location in the third embodiment.
[Explanation of symbols]
1000 ... Navigation system
100 ... server
101 ... Control unit
102 ... Control unit
103 ... communication unit
104: Route search unit
105 ... Point management unit
106… Point registration unit
110 ... Map data
120: User acquisition points
130 ... registration point
140 ... Registrant information
150 ... User information
200 ... Navigation device
210 ... Display panel
220 ... Operation panel
230 ... Control unit
231 ... Control unit
232 ... communication unit
233: Current location detection unit
234 command input section
235 ... Display control unit
300… Point registration system
310 ... Point registrant
320… Point registration screen
320a: Registrant information display section
320b Message display section
320c: Map display section
320d… Registration button
321a, 321b ... registration unit
400 ... Display data
410 ... Network data
420 ... Network data
500 ... Control unit
501: control unit
502: Communication unit
503: Current location detection unit
504: Command input section
505: Display control unit
506: Map data storage
507: History management unit
508 ... Point management unit

Claims (18)

A route search device that has a node and a link connecting the nodes, and performs a route search using map data in which a link evaluation value for a route search is set for the link,
Registration means for registering a point designated by a point registrant in a database in association with a feature of the map data and the link;
A receiving unit that receives at least the departure place information and the destination information from the user;
A route search device comprising: a route guide that performs a route search based on the link evaluation value, the points, and the received information, and notifies a result of the search to the user. The route search device according to claim 1,
The route guidance unit includes:
A plurality of routes are searched based on the link evaluation value and the received information, and a determination is made based on the points registered in the links included in the plurality of routes, and the route search result is notified to the user. Route search device. The route search device according to claim 1,
The route guidance unit includes:
The link evaluation value includes a link evaluation value changing unit that reflects the points and changes the link evaluation value,
A route search device that performs a route search based on the link evaluation value after the change and the received information. The route search device according to claim 3, wherein
The route search device, wherein the link evaluation value changing unit reflects the points registered in a predetermined range including at least a part of the link in a link evaluation value of the link. The route search device according to claim 3 or 4, wherein:
The link has attribute information,
The route search device, wherein the link evaluation value changing unit changes a method of reflecting the points on the link evaluation value based on the attribute information. The route search device according to claim 1,
An operation unit for the point registrant to perform the registration operation, a map display means for performing control to display a map based on the map data,
In accordance with an operation on the operation unit by the point registrant, the point and a registration point receiving means for receiving designation of the registration point of the point, and
The route searching device, wherein the registration unit performs the registration in association with the link or the feature corresponding to the registered location. The route search device according to any one of claims 1 to 6,
For the display means for displaying the map data to the user,
A route search device comprising: a display control unit that highlights a point registration location where the point is registered. The route search device according to claim 7,
A user information acquisition unit for acquiring user information including information capable of specifying the attribute of the user,
The route search device, wherein the display control unit performs control for switching a portion to be highlighted based on the user information. A point management device that has a node and a link connecting the nodes, and manages a point given to a user who uses map data in which a link evaluation value for evaluating the link is set for the link,
A point data reference unit that refers to a database registered by associating a point registered by a point registrant with a link or a feature in the map data,
A movement information acquisition unit that acquires movement information that can specify the movement trajectory of the user on the map data,
A point management device, comprising: a point management unit that integrates the points corresponding to a link or a feature specified based on the movement information for each user, and manages an accumulated point representing a total of points for each user. The point management device according to claim 9, wherein
The point management device, wherein the movement information is a movement history of the movement of the user. The point management device according to any one of claims 9 to 10, wherein
The travel information includes information capable of specifying a required travel time,
The point management device, wherein the point adding unit changes and adds the points based on the required travel time. The point management device according to claim 9, wherein:
The movement information includes information capable of specifying a movement distance,
The point management device, wherein the point adding unit changes and adds the points based on the moving distance. The point management device according to any one of claims 9 to 12, wherein:
For the display means for displaying the map data to the user,
A point management device comprising: a display control unit that highlights a point registration location where the point is registered. The point management device according to claim 13,
A user information acquisition unit for acquiring user information including information capable of specifying the attribute of the user,
The point management device, wherein the display control unit performs control for switching a highlighted portion based on the user information. A route search method having a node and a link connecting the nodes, wherein the link performs a route search by a computer using map data in which a link evaluation value for the route search is set,
Registering a point designated by a point registrant in a database in association with the feature of the map data and the link;
Receiving input of departure place information and destination information by a user;
Performing a route search based on the link evaluation value, the points, and the received information, and notifying a result of the route search to the user. A point management method in which a computer has a node and a link connecting the nodes, and the computer manages points given to a user using map data in which a link evaluation value for evaluating the link is set.
A step of referring to a database registered by associating the points registered by the point registrant with a link or a feature in the map data,
A step of acquiring movement information capable of specifying the movement trajectory of the user on the map data;
Accumulating the points corresponding to the link or the feature specified based on the movement information for each user, and managing accumulated points representing a total of points for each user. A computer program for having a node and a link connecting the nodes, and causing the computer to perform a route search using the map data in which the link evaluation value for the route search is set,
A function of registering a point designated by a point registrant in a database in association with a feature of the map data and the link,
A function for receiving input of departure information and destination information by a user;
A computer program for causing a computer to perform a route search based on the link evaluation value, the points, and the received information, and to notify a result of the route search to the user. A computer program having a node and a link connecting the nodes, the computer program controlling a computer to manage points given to a user who uses map data in which a link evaluation value for evaluating the link is set. hand,
A function of referring to a database registered by associating points registered by a point registrant with a link or a feature in the map data,
A function of acquiring movement information that can specify the movement trajectory of the user on the map data;
A computer program for realizing a function of accumulating the points corresponding to a link or a feature specified based on the movement information for each user and managing an accumulated point representing a total of points for each user on a computer .

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