JP2008014681A - Map information processing system, control method of map information processing system, control program of map information processing system and record medium containing control program of map information processing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a map information processing system etc. enabling to reduce a maintenance cost for a map information and shorten the provision speed of a renewal map data to users with maximum utilization of a travelling road information and a renewal map information based on the travelling information from users, without making a new map information by an on-the-spot survey. <P>SOLUTION: In this map information processing system, when a vehicle is travelling along a new road not stored in a memory of a navigation device, a current position information detected by a position detection part is displayed on a display and stored in the memory at the same time. When the vehicle reaches at the road stored in the memory of the navigator, the current information etc. are transmitted to a road information survey equipment all at once, and the road information survey equipment makes a new road information based on a plurality of the current position information etc. about the new road. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present application relates to the field of information processing systems such as navigation information.

  As a conventional car navigation device, for example, the current position is detected by GPS or the like as the vehicle travels, and the current position is displayed together with a road map on the display to guide the position, and from the current position to the destination. There is known a function of setting an appropriate destination route and performing predetermined route guidance so that the vehicle can travel according to the destination route.

  These guidance functions are realized by using road map data stored in a recording medium such as HD (Hard Disc) and DVD (Digital Versatile Disc).

  However, roads are maintained daily, and new roads may be provided, and the road map data stored in recording media such as HD and DVD changes every moment from when the user obtains those recording media. This is the current situation.

Therefore, for example, a communication type car navigation device that is connected to an information communication network such as the Internet via a wireless line such as a mobile phone or a car phone and can download data requested for distribution to an information distribution source is provided to the user. It is being supplied. In the case of this communication-type car navigation device, only the necessary road map data is distributed from the information distribution source that provides the road map data distribution service, so that the road map data can be obtained in the device at hand of the user. Can be updated. (For example, it is disclosed in Patent Documents 1 and 2.)
JP 2005-62854 A JP-A-2005-283426

  However, in the conventional navigation device described above, due to the complicated maintenance process such as investigation / collection of the road map data supply source, database conversion, etc., it took a certain amount of time to distribute to the car navigation device. Moreover, in order to transmit the traveling road information from moving bodies, such as a vehicle, exhibiting a navigation function, there existed a subject that the processing burden of the navigation apparatus mounted in the moving body became heavy. For example, when an error occurs in transmission / reception of traveling road information and it takes a long time to transmit / receive, and when it becomes difficult to perform the navigation function in real time (when giving up transmission of traveling road information by placing importance on real-time performance) )was there.

  The present invention solves the above problems, and by making the most of the road information, it does not conduct a field survey to create new map information, but based on the travel information from the user. Map information processing system that can update map information, reduce maintenance cost of map information, and reduce the speed of providing updated map data to users, control method for map information processing system, control program for map information processing system, and An object of the present invention is to provide a recording medium in which a control program for a map information processing system is recorded.

  A map information processing system according to claim 1 of the present invention includes a navigation device that guides road information for a moving body, and a road information server device that transmits and receives information to and from the navigation device. The navigation device comprises: position information detection means for detecting position information of a mobile body having the navigation device; road information storage means for storing the road information; and information relating to the road information as the road information server device. Calculation for calculating correspondence information in the road information of the moving body based on transmission / reception means for transmitting / receiving, position information detected by the position information detection means, and the road information stored in the road information storage means And the computing means has the correspondence information exceeding a predetermined allowable range. In this case, the transmission / reception means sends information for inquiring whether road information corresponding to the detected position information is stored in the road information server device from the navigation device to the road information server device. It is characterized by transmitting via.

  According to a sixth aspect of the present invention, there is provided a map information processing system control method comprising: a navigation device for guiding road information for a moving body; and a road information server device for transmitting / receiving information to / from the navigation device. In the control method of the information processing system, the navigation device includes a position information detection step of detecting position information of a moving body having the navigation device, a road information storage step of storing the road information, and information on the road information. Correspondence in the road information of the moving body based on the transmission / reception process for transmitting / receiving to / from the road information server device, the position information detected in the position information detection process, and the road information stored in the road information storage process A calculation step of calculating relationship information, and in the calculation step, the correspondence information If road information exceeds a predetermined allowable range, is road information corresponding to the detected position information stored in the road information server device from the navigation device to the road information server device? Information for inquiring whether or not is transmitted through the transmission / reception step.

  The program of the map information processing system according to claim 7 of the present invention is a map information having a navigation device for guiding road information for a moving body and a road information server device for transmitting / receiving information to / from the navigation device. A computer included in the processing system is configured to send and receive position information detection means for detecting position information of a moving body having the navigation device, road information storage means for storing the road information, and information related to the road information to and from the road information server device. A calculating means for calculating correspondence information in the road information of the moving body based on the position information detected by the position information detecting means and the road information stored in the road information storage means And the computing means is configured such that the correspondence information exceeds a predetermined allowable range. In this case, the transmission / reception means sends information for inquiring whether or not road information corresponding to the detected position information is stored in the road information server device from the navigation device to the road information server device. It has the function to transmit via.

  A navigation device for guiding road information for a moving object according to claim 9 of the present invention is a position information detecting means for detecting position information of the moving object having the navigation device, and a road information storage for storing the road information. Based on means, transmission / reception means for transmitting / receiving information on the road information to / from an external information storage device, position information detected by the position information detection means, and the road information stored in the road information storage means Computing means for computing correspondence information in the road information of the mobile body, and the computing means stores the external information from the navigation device when the correspondence information exceeds a predetermined allowable range. Asks the device whether road information corresponding to the detected location information is stored in the external information storage device. Information match via the transmitting and receiving means, and transmits.

  Next, an embodiment optimal for the present application will be described with reference to FIGS. FIG. 1A is a system configuration example of a map information processing system including a navigation device and a road information server device according to this embodiment. FIG. 1B is an internal block configuration example of the navigation apparatus according to the present embodiment. FIG.1 (c) is an example of an internal block structure of the road information server apparatus concerning this embodiment. FIG. 2A is an example in which position data before processing indicating the position of the moving body is plotted on the display unit according to the embodiment. FIG. 2B is an example of map matching according to the embodiment. FIG. 3 is an example in which trajectory data after map matching according to the embodiment is displayed on the display unit. FIG. 4 is a diagram illustrating a state of the GPS capture mode according to the embodiment.

  FIG. 5 is a diagram showing how the road information server device calculates a new opening road. FIG. 6 shows a state in which the new road network according to the embodiment is displayed on the display unit. FIG. 7 is a diagram illustrating a state in which the moving body according to the embodiment plots the position of the moving body on the new road network.

  First, a system configuration example of a map information processing system including the navigation device 1 and the road information server device 2 according to the present embodiment will be described based on FIG.

  As shown in FIG. 1A, the navigation device 1 and the road information server device 2 are connected via a communication network 3 so that information can be transmitted and received between them. The navigation apparatus 1 is mounted on a plurality of moving bodies, and information is transmitted and received between the navigation apparatus 1 mounted on these moving bodies and the road information server apparatus 2 as needed. When road information that is not stored in the navigation device 1 is detected by the navigation device 1, new road information detected at a predetermined timing is transferred from the navigation device 1 via the communication line network 3. It is transmitted to the server device 2. The road information server device 2 creates a new road network based on the received new road information.

  In addition, the new road network created by the road information server device 2 is received from the road information server device 2 in response to a request from the navigation device 1 mounted on a moving body that travels on an actual road corresponding to the new road network. Provided to the navigation device 1.

  Next, an internal block configuration example of the navigation device 1 according to the present embodiment will be described based on FIG.

  The navigation device 1 according to the present embodiment includes a storage unit 4, a display unit 5, an operation unit 6, a position detection unit 7, a control unit 8, and a transmission / reception unit 9.

  The storage unit 4 stores information such as road information for performing the navigation function. The road information may be stored in a storage medium such as a CD (Compact Disc), DVD (Digital Versatile Disc), or HD (Hard Disc) and supplied to the user, and the storage unit 4 includes a storage device including these storage media. It is. When the road information is supplied from the road information server device 2, the road information is stored in the storage unit 4 via the communication line network 3 and the transmission / reception unit 9. The storage unit 4 also has a function as a temporary storage device in the control function of the control unit 8.

  The position detection unit 7 is a part where the position of the moving body is detected. For example, as the position detection unit 7, various information acquisition devices such as a GPS (Global Positioning System) device, a direction sensor, a tilt sensor, a timer for measuring a moving time, a winker of a vehicle that is a moving body, an accelerator operation, a brake operation, and the like are used. Is done.

  Information such as roads is displayed on the display unit 5 based on the road information stored in the storage unit 4. Further, based on the moving body position information detected by the position detection unit 7, the current position is displayed on the display unit 5 so as to overlap the road information. The position information of the moving body displayed on the display unit 5 is displayed on the display unit 5 after the predetermined processing is performed on the information detected by the position detection unit 7 in the control unit 8. The In addition, information detected from the position detection unit 7 may be used as it is and displayed on the display unit 5.

  Further, the control unit 8 detects the moving object detected by the position detection unit 7 on the road included in the road information based on the position information detected by the position detection unit 7 and the road information stored in the storage unit 4. In order to display the position on the display unit 5, a process (map matching process) for bringing the position information detected by the position detection unit 7 to a nearby road included in the road information is performed.

  Further, the control unit 8 performs an operation for integrally controlling the storage unit 4, the display unit 5, the operation unit 6, the position detection unit 7, and the transmission / reception unit 9.

  The transmission / reception unit 9 receives road information from the road information server device 2. Further, when the control unit 5 determines that the moving body is moving on a road that is not stored in the storage unit 4, the road information server device 2 is requested to transmit new map information. Furthermore, when the moving body returns to the road stored in the road information server device 2 after the moving body moves on the road that is not stored in the road information server device 2, it is stored in the road information server device 2. The raw position information (unprocessed position information) detected by the position detection unit 7 while the moving body is moving on the road that is not yet is transmitted to the road information server device 2.

  The operation unit 6 is provided with switches and the like that are operated by the user to perform various functions of the navigation device 1.

  Next, an internal block of the road information server device 2 according to the present embodiment will be described based on FIG.

  The road information server device 2 includes a storage unit 10, a transmission / reception unit 11, an operation unit 12, and a control unit 13.

  Various kinds of road information are stored in the storage unit 10. Such road information is transmitted to various mobile bodies in response to requests from the mobile bodies. Further, the corrected road information and new road information are input via the operation unit 12 and stored in the storage unit 10.

  The transmission / reception unit 11 transmits various road information stored in the storage unit 10 in response to a request from the moving body. In addition, for road information that is not stored in the storage unit 10, the mobile body receives the raw position information detected by the position detector 7.

  The operation unit 12 includes switches and the like that are operated by the user to perform various functions of the road information server device 2. Further, the road information server device 2 receives the corrected road information and new road information via the operation unit 12. The input road information is stored in the storage unit 10.

  The control unit 13 controls the storage unit 10, the transmission / reception unit 11, and the operation unit 12 in an integrated manner. Further, for road information that is not stored in the storage unit 10, when raw position information detected by the position detection unit 7 of the moving body is received from the moving body via the transmission / reception unit 11, based on the raw position information. It has a function to calculate new road information.

  Next, FIGS. 2A and 2B will be described.

  FIG. 2A is a diagram in which road information and position information detected from GPS as the position detection unit 7 are plotted on the road information on the display unit 5 of the navigation device 1.

  The line displayed in FIG. 2A displays a road. For example, lines 14, 15 and 16 represent roads 14, 15 and 16. The points displayed by the round frames such as the points 17, 18, 19 and 20 are obtained by plotting the raw position information detected from the position detecting unit 7 of the navigation device 1 mounted on the vehicle as the moving body. The position detector 7 intermittently detects each point as the position information displayed in FIG. 2A at a predetermined time interval (for example, every 3.5 seconds).

  Since the points displayed by the round frames such as the points 17, 18, 19 and 20 are the raw position information (not processed) detected from the position detector 7, the points on the roads 14, 15 and 16 are displayed. Is not plotted. This is because, for example, in the case of GPS, it takes time for information from a satellite to which information is transmitted to arrive at the transmission / reception unit 9 of the navigation device 1 due to an atmospheric condition or the like. This is because.

  The control unit 8 performs the above-described map matching process so that the vehicle position information displayed on the display unit 5 is positioned on the roads 14, 15 and 16.

  The state of the map matching process is shown in FIG. In FIG. 2B, raw position information 18 and 19 detected from the position detector 7 are displayed on a map as an example of road information. The raw position information 18 and 19 is displayed at a position slightly away from the road 15. The reason why the raw position information 18 and 19 are not located on the road 15 is that the raw position information detected by the position detector 7 includes an error.

  Therefore, the control unit 8 performs a process (map matching process) for moving and displaying a point representing the position of the vehicle at the position 22 on the road 15 closest to the raw position information 18. Similarly, the control unit 8 moves and displays a point representing the position of the vehicle at a position 23 on the road 15 closest to the raw position information 19. FIG. 3 shows the result of the map matching process performed by the control unit 8 for the raw position information 17, 18, 19, and 20 displayed in FIG. Point 17 corresponds to point 21 after the map matching process, point 18 corresponds to point 22 after the map matching process, point 19 corresponds to point 23 after the map matching process, and point 20 corresponds to the point after the map matching process. Corresponds to point 24. After the map matching process, the position of the vehicle is plotted on the road as shown in FIG. A normal user drives the vehicle using the navigation device 1 while checking the image of the display unit 5 after the map matching process.

  Next, vehicle position information displayed on the display unit 5 when a vehicle that is a moving body is traveling on a road that is not stored in the storage unit 4 will be described with reference to FIG. 4.

  In FIG. 4, the state in which the vehicle has moved from the position 25 to the position 26 on the road 15 is displayed by the points from the positions 25 to 26 that are position information subjected to map matching processing. The vehicle makes a left turn at position 26 and moves on road 27. Points 27, 28, and 29 indicate the positions of the vehicles after the map matching process is performed on the road 27.

  The vehicle is actually moving on the road 34 shown in FIG. 4, which is a road that is not stored in the storage unit 4. A road 34 (not shown in FIG. 6) is a road that branches from the road 27 between the position 27 and the position 28. The position 30 is raw position information detected by the position detection unit 7. However, since the navigation device 1 does not store information on the road 34 that is a new road, the control unit 8 performs a map matching process on the road 27 in the raw position information 30, and after the map matching process. Position information 29 (position information on the road 27) is displayed on the display unit 5 as a position. That is, when the vehicle exists in the raw position information 30 corresponding to the road 34, the control unit 8 automatically performs the map matching process and displays the position of the vehicle on the display unit 5 as the position information 30 on the road 27. To do.

  The raw position information that is the target of the map matching process is performed by the control unit 5 when it is within a predetermined range from the road. For example, when there is raw position information in the area 35 indicated by hatching in FIG. 4, the raw position information is subjected to map matching processing on the road 15 or 27.

  Since the raw position information 30 is on the boundary line of the area 35 where the map matching process is performed, the control unit 8 determines that it is a half-error and performs the map matching process. 30 is displayed on the display unit 5. Then, the control unit 8 stores the raw position information 30 in the storage unit 4 in association with the attached information that the raw position information 30 before the map matching process is in a half-error state. Then, predetermined processing is performed depending on whether the raw position information detected from the position detection unit 7 at the next predetermined timing is outside or inside the region 35.

  Since the vehicle moves further down on the road 34 in FIG. 4, the raw position information 31 detected by the position detection unit 7 next to the raw position information 30 can be subjected to map matching processing indicated by hatching in FIG. 4. It is outside the area 35.

  Then, the control unit 8 determines that the vehicle is outside the range where the map matching process can be performed, and stops the map matching process.

  Then, after stopping the map matching process, the control unit 8 instructs the road information server device 2 to transmit new road information to the navigation device 1 via the transmission / reception unit 9 and the communication line network 3. Send a request signal.

  In this case, the control unit 8 can request the road information server device 2 together with the raw position information 31 to transmit only the road information for the new road 34 to the navigation device 1. Further, after stopping the map matching process, the control unit 8 transmits a request signal instructing all the road information newly stored in the road information server device 2 to transmit the road information to the navigation device 1. You can also.

  When the control unit 8 does not receive new road information from the road information server device 2 via the transmission / reception unit 9 (when road information related to the road 34 is not stored in the road information server device 2), the raw position information 31 is displayed on the display unit 5. In this case, the user sees that the vehicle is traveling on a road not stored in the storage unit 4 of the navigation device 2 by looking at the raw position information 31 displayed outside the area 35 of the display unit 5. Can be confirmed.

  Even after the raw position information 31 is displayed on the display unit 5, the control unit 8 displays the raw position information that has not been subjected to map matching processing on the display unit 5 every time the raw position information is detected from the position detection unit 7. Continue plotting. In FIG. 4, the vehicle traveling on the road 34 displays the raw position information 31 on the display unit 5, and then does not perform the map matching process on the raw position information detected from the position detection unit 7. The state plotted as the raw position information 33 is also shown.

  The control unit 8 also includes the raw position information 30 as the semi-error information at the boundary of the region 35 and the raw position information (raw position information) detected from the position detection unit 7 after the vehicle has moved to the outside of the boundary of the region 35. 31, 32, 33, etc.) are stored in the storage unit 4 without processing (no processing such as map matching processing) (GPS capture mode).

  When the vehicle traveling on the road 34 returns to the road stored in the storage unit 4 of the vehicle, the raw position information 30 as the semi-error information stored in the storage unit 4 and the processing are performed. The raw position information (raw position information 31, 32, 33,...) Is transmitted to the road information server device 2 through the transmission / reception unit 9 and the communication network 3 in a lump. Further, the vehicle traveling on the road 34 includes the raw position information 30 as the semi-error information stored in the storage unit 4 and the raw position information not processed (raw position information 31, 32, 33,. ) And the time at which each piece of raw position information is acquired is stored in the storage unit 4 together with the raw position information, and the vehicle traveling on the road 34 returns to the road stored in the storage unit 4 of the vehicle. May collectively transmit the raw position information and the time at which the raw position information is acquired to the road information server apparatus 2 via the transmission / reception unit 9 and the communication line network 3.

  In this way, when a vehicle that is a moving body determines that the vehicle is traveling on a road that is not stored in the storage unit 4 of the vehicle, the navigation device 1 that is mounted on the vehicle sends the road information server device 2 On the other hand, a request is made to transmit new road information about the road on which the vehicle is traveling. However, when there is no new road information regarding the road on which the vehicle is traveling in the road information server device 2, the raw position information detected from the position detection unit 7 is stored in the storage unit 4, and the display unit 5 The raw position information is plotted. Then, when the vehicle reaches the road stored in the storage unit 4, the raw position information stored in the storage unit 4 and not stored in the road information server device 2 is transmitted to the transmission / reception unit 9, the communication line network 3 to the road information server device 2.

  Next, a procedure for creating new road information based on the raw position information transmitted to the road information server device 2 will be described with reference to FIG. The raw position information described here may be unprocessed GPS information detected by the position detection unit 7 or may include both GPS information and time information obtained from the GPS information.

  FIG. 5 shows a procedure for creating new road information on the basis of the raw position information transmitted to the road information server device 2 from the two mobile bodies.

  The sample 1 in FIG. 5A connects the points where the raw position information transmitted from the vehicle, which is a single moving body, is plotted with a line. The sample 2 in FIG. 5A connects the points where the raw position information transmitted from the vehicle which is another moving body is plotted with a line.

  The newly opened road 34 shown by the solid line in FIG. 5A corresponds to the road 34 in FIG. Sample 1 and sample 2 are not plotted on the newly opened road 34, but this is not located on the road 34 because the raw position information output from the position detector 7 includes an error. .

  Therefore, when creating the new road information, the road information server device 2 processes the raw position information from the raw position information transmitted when a vehicle as a plurality of moving bodies travels on the new road. To create new road information.

  FIG. 5B is a diagram in which the newly opened road 34 in FIG. 5A is deleted and only the sample 1 and the sample 2 that are raw position information are plotted. The control unit 13 of the road information server device 2 calculates a binary approximate curve based on the plotted raw position information of the sample 1 and the sample 2. The approximate road 35 created as a binary approximate curve is shown in FIG.

  As described above, the road information server device 2 uses a plurality of moving bodies that have traveled on roads related to road information that is not stored in the storage unit 10 for road information that is not stored in the storage unit 10 of the road information server device 2. Based on the received raw position information, new road information (recent road 35) is created.

  Here, as a method for obtaining the approximate road 35, the control unit 13 of the road information server apparatus performs the calculation using the binary approximate curve, but the calculation method is not limited to the method for obtaining the binary approximate curve. Absent. For example, it is possible to obtain the approximate road 35 by using a calculation method by weighting the raw position data from a plurality of moving objects, and various calculation methods such as a least square method.

  In addition to linear, it is also possible to calculate the travel cost used for route search by calculating whether the travel time is plotted.

  In this way, new road information is created in the road information server device 2, and new road information is stored in the storage unit 10 of the road information server device 2. Then, when a vehicle that has traveled on a road related to new road information requests the road information server device 2 to transmit the new road information, the vehicle on which the vehicle runs The related new road information is transmitted to the vehicle navigation device 1 via the communication network 3.

  FIG. 6 is a network in which the newly opened road 34 (broken line) created in FIG. 5 is part of the map information in the existing road network (the roads represented by solid lines such as road 14, road 15 and road 16). A displayed example is shown. The storage unit 10 of the road information server device 2 stores road information in the form of the network shown in FIG.

  In FIG. 7, when a vehicle travels on a new road that is not stored in the storage unit 4 of the navigation device 1 mounted on a vehicle that is a moving body, new road information is transferred from the road information server device 2 to the navigation device. A case of transmission to 1 will be described.

  In FIG. 7, the state in which the vehicle has moved from the position 36 to the position 37 on the road 15 is displayed by points reaching the positions 36 to 37 that are position information subjected to the map matching process. The vehicle makes a left turn at position 37 and moves on the road 27. Points 38, 39 and 40 indicate the position of the vehicle after the map matching processing is performed on the road 27.

  The vehicle is actually moving on the road 34 shown in FIG. 7, which is a road that is not stored in the storage unit 4. The road 34 is a road branched from the road 27 between the position 28 and the position 39. The position 41 is raw position information detected by the position detection unit 7. However, since the storage unit 4 of the navigation device 1 does not store information on the road 34, which is a new road, the control unit 8 performs map matching processing on the road 27 in the raw position information 41, and maps Position information 40 (position information on the road 27) is displayed on the display unit 5 as the position after the matching processing. That is, when the vehicle exists in the raw position information 30 corresponding to the road 34, the control unit 8 automatically performs the map matching process and displays the position of the vehicle on the display unit 5 as the position information 40 on the road 27. To do.

  The raw position information that is the target of the map matching process is performed by the control unit 5 when it is within a predetermined range from the road. For example, when there is raw position information in the area 35 indicated by hatching in FIG. 4, the raw position information is subjected to map matching processing on the road 15 or 27.

  Since the raw position information 41 is on the boundary line of the area 35 where the map matching process is performed, the control unit 8 determines that it is a half error, performs the map matching process, and displays the position information 40. That is, the control unit 8 displays the position information 40 and stores the raw position information 41 in the storage unit 4 in association with the attached information that the raw position information 41 before the map matching process is in a half-error state. Then, predetermined processing is performed depending on whether the raw position information detected from the position detection unit 7 at the next predetermined timing is outside or inside the region 35.

  If the vehicle tries to perform the map matching process in the raw position information 42 after the half-error state has occurred, the vehicle exists on the opposite side (outside the region 35) between the region 35 and the road 27. The device 1 requests the road information server device 2 to transmit road information regarding the road 34, which is a new road, to the navigation device 1 via the transmission / reception unit 9 and the communication line network 3.

  The semi-error state is not only when the vehicle comes on the boundary line of the region 35 but also when the raw position information is detected from the position detection unit 7 in a predetermined region near the boundary line. It also means an error state.

  In the road information server device 2, as described with reference to FIG. 5, the control unit 13 of the road information server device 2 obtains information on the approximate road 35 from the raw position information on the road 34 transmitted from the vehicle traveling on the road 34. Calculated and stored in the storage unit 10. Therefore, the road information server device 2 transmits information on the approximate road 35 regarding the road 34 to the navigation device 1 via the communication line network 3 and the transmission / reception unit 9 in response to the transmission request of the navigation device 1.

  The navigation device 1 that has received the information on the approximate road 35 displays the road 34 on the display unit 5 based on the information on the approximate road 35. When the user visually recognizes the displayed road 34, the road on which the vehicle is traveling can be confirmed.

  The raw position information newly detected by the position detector 7 is subjected to map matching processing and plotted on the road 34 as position information 43 and 44.

  In addition, when information about a new road 34 is stored in the storage unit 4 of the navigation device 1 and the user performs a route search with respect to the navigation device 1, the road 34 is shown in the road network shown in FIG. Therefore, the road 34 is also a road to be searched by the navigation device 1.

  The operation procedures in FIGS. 4, 5 and 7 are recorded in advance on a recording medium such as a flexible disk, or recorded in advance via a network such as the Internet, and this is read out by a general-purpose microcomputer or the like. When executed, the general-purpose microcomputer or the like can function as a CPU according to the embodiment. Alternatively, it is also possible to collect a plurality of road information and process them at once later.

  As described above, according to the present embodiment, even when a new road is provided, it is not necessary for the vendor supplying the road information to perform a field survey, and the road information server device automatically creates the road information. The user can easily use new road information. In order to ensure quality, even if a field survey is required for quality standards, it is meaningful to identify unupdated locations. In addition, according to the method according to the present embodiment, the road information server device that has received new road information by transmitting new road information to the road information server device while the moving body travels on a vehicle or the like on the new road. Automatically creates road information, so it does not require much time from road survey to inputting data into the road information server device. For this reason, it is not necessary for the user to use the road information related to the new road, and the inconvenience that the inconvenient state continues for a long time has been solved. In addition, it is possible for the person who provides the road information to reduce the cost by eliminating the field survey fee, the cost of creating new road information, and the cost of inputting new road information to the road information server device. Became.

  In addition, when a moving body such as a vehicle becomes unable to perform the map matching process after the moving object such as the vehicle starts the map matching process with the road stored in the navigation device mounted on the vehicle. In addition, since the raw location information or the raw location information and the time at which the raw location information was acquired at one time cannot be mapped to the road information server device, necessary information is gathered in the road information server device at once Processing can also be performed efficiently. In addition, new road information is not transmitted by the user's navigation operation, but may be transmitted when the CPU usage rate is low, so that a communication error is unlikely to occur, and the load on the control unit of the navigation device and the road information server device is light. Become. Accordingly, an error occurs in transmission / reception of traveling road information, so that transmission / reception time does not occur, and the navigation function can be exhibited in real time.

  Moreover, since the data transmitted from the navigation device to the road information server device is raw information obtained by the position detection unit (GPS or the like) of the navigation device, the road information server device receives data from mobile users such as a plurality of vehicles. It is possible to make comprehensive and statistical judgments and maintenance using raw information. Here, comprehensive, statistical judgment, and maintenance means creating road data by judging what kind of road exists from the collected raw information of a plurality of users.

  In addition, when the road information server device creates road information about a new road, not only information from the user, but also environmental disturbance factors obtained by DGPS (Differential GPS), slip factors such as weather, are further added. Thus, more accurate road information can be created by creating road information about a new road.

(A) is a system configuration example of a map information processing system including a navigation device and a road information server device according to the present embodiment. (B) is an internal block structural example of the navigation apparatus concerning this embodiment. (C) is an internal block structural example of the road information server apparatus concerning this embodiment. (A) is the example which plotted the position data before the process which shows the position of a moving body on the display part concerning embodiment. (B) is an example of the map matching process concerning embodiment. It is the example which displayed the locus data after the map matching concerning an embodiment on a display part. It is the figure which showed the mode of GPS capture mode concerning embodiment. It is the figure which showed a mode that the new period opening road was calculated in a road information server apparatus. It is a mode that the new road network concerning embodiment is displayed on the display part. It is the figure which showed a mode that the mobile body concerning embodiment plots the position of a mobile body on the new road network.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Navigation apparatus 2 ... Road information server apparatus 3 ... Communication network 4, 10 ... Storage part, Storage part 5 ... Display part 6, 12 ... Operation part 7 ... Position detection part 8, 13 ... Control part 9, 11 ... Transmission / reception Part

Claims (9)

In a map information processing system having a navigation device that guides road information for a moving body, and a road information server device that transmits and receives information to and from the navigation device,
The navigation device
Position information detecting means for detecting position information of the mobile body having the navigation device;
Road information storage means for storing the road information;
Transmitting and receiving means for transmitting and receiving information on the road information to and from the road information server device;
Calculating means for calculating correspondence information in the road information of the mobile body based on the position information detected by the position information detecting means and the road information stored in the road information storage means;
When the correspondence relationship information exceeds a predetermined allowable range, the calculation means, the road information corresponding to the detected position information from the navigation device to the road information server device, A map information processing system, wherein information for inquiring whether or not the information is stored in a road information server device is transmitted via the transmission / reception means. The map information processing system according to claim 1,
The navigation device is based on position information corresponding to a case where the road information server device exceeds the allowable range when the correspondence information calculated by the calculation means exceeds the predetermined allowable range. When there is no road information, the position information is stored in the road information storage means, and when the correspondence information falls within a predetermined allowable range again, the correspondence information is determined in advance. The position information stored in the road information storage means until the correspondence information returns to the predetermined allowable range again after exceeding the set allowable range, via the transmission / reception means, the road information A map information processing system, characterized by being transmitted to a server device. The map information processing system according to claim 2,
The information transmitted via the transmission / reception means includes the road information storage means after the correspondence information exceeds a predetermined allowable range and before the correspondence information returns again within the predetermined allowable range. A map information processing system, characterized in that the position information is stored in and the time when the position information is acquired. In the map information processing system according to any one of claims 1 to 3,
The navigation device
When the road information server device has no road information corresponding to the position information, the road information server device includes display means for displaying the position information detected by the position information detection means,
The map information processing characterized in that the position information displayed on the display means is displayed in a display mode different from the case where there is road information corresponding to the position information detected by the position information detecting means. system. In the map information processing system according to any one of claims 1 to 4,
The road information server device
Server transmission / reception means for receiving information transmitted from the navigation device and transmitting information to be transmitted to the navigation device;
Road information creation means for newly creating road information not stored in the road information server device based on the position information transmitted from at least two of the navigation devices;
When the position information corresponding to the newly created road information is received from the navigation device, the newly created road information is transmitted to the navigation device via the server transmission / reception means. A featured map information processing system. In a control method of a map information processing system having a navigation device that guides road information for a moving body and a road information server device that transmits and receives information to and from the navigation device,
The navigation device
A position information detecting step of detecting position information of a mobile body having the navigation device;
A road information storing step for storing the road information;
A transmission and reception step of transmitting and receiving information on the road information to and from the road information server device;
A calculation step of calculating correspondence information in the road information of the mobile body based on the position information detected in the position information detection step and the road information stored in the road information storage step;
In the calculation step, when the correspondence information exceeds a predetermined allowable range, road information corresponding to the detected position information is sent from the navigation device to the road information server device. A method for controlling a map information processing system, wherein information for inquiring whether or not the information is stored in a road information server device is transmitted through the transmission / reception step. A computer included in a map information processing system having a navigation device that guides road information for a moving body and a road information server device that transmits and receives information to and from the navigation device.
Position information detecting means for detecting position information of a moving body having the navigation device;
Road information storage means for storing the road information;
Transmitting and receiving means for transmitting and receiving information on the road information to and from the road information server device;
Based on the position information detected by the position information detection means and the road information stored in the road information storage means, it functions as a calculation means for calculating correspondence information in the road information of the mobile body,
When the correspondence relationship information exceeds a predetermined allowable range, the calculation means, the road information corresponding to the detected position information from the navigation device to the road information server device, A control program for a map information processing system, which has a function of transmitting information for inquiring whether or not it is stored in a road information server device via the transmission / reception means.   A recording medium in which the control program for the map information processing system according to claim 7 is recorded in a computer-readable manner. In a navigation device that guides road information for a moving object,
Position information detecting means for detecting position information of the mobile body having the navigation device;
Road information storage means for storing the road information;
Transmitting and receiving means for transmitting and receiving information on the road information to and from an external information storage device;
Calculating means for calculating correspondence information in the road information of the mobile body based on the position information detected by the position information detecting means and the road information stored in the road information storage means;
When the correspondence relationship information exceeds a predetermined allowable range, the calculation means sends road information corresponding to the detected position information from the navigation device to the external information storage device. A navigation device characterized in that information for inquiring whether or not it is stored in an external information storage device is transmitted via said transmission / reception means.

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