JP3797196B2 - Navigation system, data server, route setting method, and data server information providing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a navigation system that guides a vehicle to a destination, a data server used in the navigation system, a route setting method for setting a travel route of the vehicle, and an information providing method for the data server.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an in-vehicle navigation device that performs route guidance according to an operation input by a user is widely used. An in-vehicle navigation device that performs such route guidance recognizes the current position of a vehicle using a GPS (Global Positioning System) or the like when a destination or waypoint is input by the user, and from the current position of the vehicle by the user. The optimum route from the input waypoint to the destination is selected, and route guidance is performed while displaying a necessary map on the display.
[0003]
In such an in-vehicle navigation device, as a method for the user to input a destination or waypoint, for example, the user searches for a destination or waypoint while scrolling the map displayed on the display, and the destination is displayed on the map. In general, there are a method for designating a waypoint, a method for displaying a list with names of main points on the display, and selecting a desired destination or waypoint from the list.
[0004]
However, the above method forces the user to perform complicated operations, increasing the burden on the user. For this reason, various proposals for reducing the burden on the user by making it easier to input destinations and waypoints have been made for in-vehicle navigation devices that perform route guidance. For example, Japanese Patent Laid-Open No. 5-241507. In the gazette, barcodes corresponding to positions indicating major intersections and tourist attractions are printed on the map book, and the barcode printed on the map book is read by a barcode scanner connected to the in-vehicle navigation device. Thus, a technique for inputting a destination and a waypoint is disclosed.
[0005]
In the in-vehicle navigation system that provides route guidance, if the destination and waypoint can be input by the barcode input as described above, the user can input the destination and waypoint very easily. It is easy to use.
[0006]
[Problems to be solved by the invention]
By the way, the planning of the drive plan by the user is not always performed after the user gets into the vehicle equipped with the in-vehicle navigation device, but rather, the planning of the driving plan is made by referring to the travel guide etc. outside the vehicle such as at home. Often done.
[0007]
However, conventional vehicle-mounted navigation devices, including those that perform bar code input as disclosed in Japanese Patent Laid-Open No. 5-241507, can be used to input destinations and waypoints only in the vehicle. Therefore, when planning a drive plan outside the vehicle, it is necessary for the user to memorize the destination and waypoints in some way and to input these destinations and waypoints into the in-vehicle navigation device after getting on the vehicle. there were. For this reason, there is a problem that the user cannot start immediately after boarding even though a drive plan has been planned outside the vehicle, or that the user feels bothered to input destinations and waypoints using memory. Has occurred.
[0008]
The present invention was devised in view of the conventional situation as described above, and when a drive plan is formulated outside the vehicle without forcing the user to perform complicated operations, the destination and waypoints are input. Is provided with a navigation system, a data server used in the navigation system, a route setting method for setting a travel route of the vehicle, and an information providing method for the data server. The purpose is that.
[0009]
[Means for Solving the Problems]
The invention according to claim 1 is a navigation system for guiding a route of a vehicle, an in-vehicle navigation device mounted on the vehicle, a reading unit that reads code data described in a printed matter, and a code read by the reading unit A user terminal having storage means for temporarily storing data; and a transmission means for transmitting code data temporarily stored in the storage means in response to a user operation; and the transmission from the transmission means of the user terminal Receiving means for receiving code data; converting means for converting code data received by the receiving means into position information indicating a position of a coordinate system; and storing means for storing position information converted from code data by the converting means And in the storage means in response to a transmission request from the in-vehicle navigation device or the user terminal And a data server having a transmission means for reading out the stored location information and transmitting it to the in-vehicle navigation, wherein the conversion means of the data server is the map data handled by the in-vehicle navigation device as the code data received from the user terminal The vehicle-mounted navigation device receives and temporarily stores the position information from the data server, and the vehicle based on the stored position information and the current position of the vehicle The travel route is set, and route guidance based on this is performed.
[0010]
According to a second aspect of the present invention, in the navigation system according to the first aspect, the in-vehicle navigation device includes a small battery, and power is supplied from the small battery in a state where the main power source is turned off. It is possible to receive position information from the data server.
[0012]
According to a third aspect of the present invention, in the navigation system according to the first aspect, the user terminal is a portable portable terminal, and the in-vehicle navigation device and the portable terminal are each configured to perform data communication at a short distance. Short-range data communication means for performing the communication, and after the communication link by the short-range data communication means is established between the in-vehicle navigation device and the portable terminal, the position information from the data server to the in-vehicle navigation device Is transmitted.
[0013]
According to a fourth aspect of the present invention, in the navigation system according to any one of the first to third aspects, the storage means of the data server is provided with a recording area for each user, and each recording area has a recording area. Position information corresponding to code data from other user terminals can be stored.
[0014]
According to a fifth aspect of the present invention, in the navigation system according to any one of the first to fourth aspects, the storage means of the data server is provided with a shared recording area shared by a plurality of users. The position information stored in the shared recording area can be received by a plurality of in-vehicle navigation devices. The invention according to claim 6 is a receiving means for receiving code data read from a printed matter by a user terminal, temporarily stored in the user terminal, and transmitted from the user terminal in response to a user operation; Conversion means for converting received code data into position information indicating the position of the coordinate system, storage means for storing position information converted from code data by the conversion means, and position information stored in the storage means to the vehicle Transmission means for transmitting to the in-vehicle navigation mounted, and the conversion means converts the received code data into position information corresponding to the format of map data handled by the in-vehicle navigation device. It is a server.
[0016]
According to a seventh aspect of the present invention, in the data server according to the sixth aspect, the storage means is provided with a recording area for each user, and the code data received from another user terminal in each recording area. It is possible to store position information corresponding to the above.
[0017]
Further, the invention according to claim 8 is the data server according to claim 7, wherein the recording area for each user is managed by identification information assigned to a user terminal or an in-vehicle navigation device of each user, When storing or reading position information, a recording area for storing or reading the position information is specified based on the identification information.
[0018]
The invention according to claim 9 is the data server according to any one of claims 6 to 8, wherein the storage means is provided with a shared recording area shared by a plurality of users. The position information stored in is transmitted to a plurality of in-vehicle navigation devices.
[0019]
Further, the invention according to claim 10 is the data server according to claim 9, wherein the shared recording area is managed by identification information assigned to a user terminal or an in-vehicle navigation device of each user who uses the shared recording area. When the position information is stored or read, a shared recording area for storing or reading the position information is specified based on the identification information.
[0020]
According to an eleventh aspect of the present invention, there is provided a route setting method for setting a travel route of the vehicle in an in-vehicle navigation device mounted on the vehicle, which is read from a printed material by a user terminal and temporarily stored in the user terminal. The data server receives the code data transmitted from the user terminal in response to the user operation, and the data server is the position information indicating the position of the coordinate system, and the map handled by the in-vehicle navigation device The position information corresponding to the data format is converted and stored in the storage means, and the position information stored in the storage means is read out in response to a transmission request from the in-vehicle navigation device or the user terminal, and the in-vehicle navigation is performed. Sent to the device and sent from the data server by the in-vehicle navigation device Temporarily storing location information, and is characterized in that to set a travel route of the vehicle based on the stored position information and the current position of the vehicle.
[0021]
The invention according to claim 12 is a data server information providing method for exchanging data with a user terminal and with an in-vehicle navigation device via a communication network, wherein the data server includes the data server Position information indicating the position of the coordinate system that receives code data read from a printed matter by the user terminal, temporarily stored in the user terminal, and transmitted from the user terminal in response to a user operation. The position information corresponding to the format of the map data handled by the in-vehicle navigation device is converted, the user terminal that is the transmission source of the code data is collated, and the position information converted from the code data is stored. Stored in the means, and upon receiving a transmission request for the location information from the user terminal or the in-vehicle navigation device, Performing the collation, it specifies the position information to be transmitted from the position information stored in the storage means, is characterized in transmitting the identified position information to the vehicle navigation system.
[0022]
【The invention's effect】
According to the navigation system of the present invention, when the user reads code data indicating the destination or waypoint of traveling from a printed matter such as a map book using the user terminal, the code data is temporarily stored in the user terminal. Then, the code data temporarily stored in the user terminal in accordance with the user operation is read and transmitted to the data server. In the data server, the code data is converted into position information corresponding to the format of map data which is position information in the coordinate system and is handled by the in-vehicle navigation device, and is stored. Then, the converted position information is transmitted to the in-vehicle navigation device in response to a transmission request by the user, and the vehicle travel route is set based on the position information and the current position of the vehicle in the in-vehicle navigation device. When a user plans a drive plan outside the vehicle, it is possible to easily input the destination or waypoint outside the vehicle, and after the user gets into the vehicle, the travel route set by the in-vehicle navigation device Since the vehicle travel guidance is performed based on the above, appropriate vehicle travel guidance can be performed without forcing the user to perform complicated operations.
[0023]
Further, in the navigation system according to the present invention, since the destination of the vehicle travel and the waypoint can be specified by reading the code data using the user terminal, the operation burden on the user can be greatly reduced.
[0024]
Further, in the navigation system according to the present invention, if the information acquired by a plurality of users is aggregated in the data server and the information can be used by a specific user so that the route can be set by the in-vehicle navigation device, A navigation system with extremely high utility value can be realized.
[0025]
Furthermore, in the navigation system according to the present invention, information acquired by a specific user and stored in the data server can be used by a plurality of users so that a plurality of in-vehicle navigation devices can perform route setting based on this information, respectively. Then, a navigation system with extremely high utility value can be realized.
[0026]
In addition, by using the data server according to the present invention, it is possible to realize a navigation system in which appropriate vehicle travel guidance can be performed without forcing the user to perform complicated operations, and the operation burden on the user is greatly reduced.
[0027]
Moreover, according to the route setting method according to the present invention, it is possible to appropriately set the travel route of the vehicle without forcing the user to perform complicated operations.
[0028]
Further, according to the information providing method of the data server according to the present invention, the code data transmitted from the user terminal is appropriately managed and stored in the data server, and the appropriate position information is provided to the in-vehicle navigation device as necessary. can do.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0030]
(First embodiment)
A system configuration of a navigation system to which the present invention is applied is schematically shown in FIG. The navigation system 1 shown in FIG. 1 includes a portable terminal 10 and a data server 20, and data between the data server 20 and an in-vehicle navigation device 30 mounted on the vehicle via a communication network 2 such as the Internet. Are transmitted and received. That is, a data server 20 and a plurality of wireless communication base stations 3 are connected to the communication network 2, and wireless communication is performed between the mobile terminal 10 and the wireless communication base station 3. Data transmitted from the terminal 10 is received by the data server 20 via the wireless communication base station 3 and the communication network 2, and wireless communication is performed between the in-vehicle navigation device 30 and the wireless communication base station 3. Thus, the data transmitted from the data server 20 is received by the in-vehicle navigation device 30 via the communication network 2 and the wireless communication base station 3.
[0031]
In this navigation system 1, the mobile terminal 10 is used to read the code data such as a bar code and map code number printed on a printed matter such as a map book, thereby specifying the destination and waypoint of driving the vehicle outside the vehicle. The location information of these destinations and waypoints is stored in the data server 20 and can be supplied to the in-vehicle navigation device 30 as necessary. Then, the in-vehicle navigation device 30 sets an optimum route based on the position information supplied from the data server 20, and the vehicle in which the in-vehicle navigation device 30 is mounted (hereinafter referred to as the host vehicle) is specified. Route guidance is performed so as to reach the destination through the ground.
[0032]
Here, the code data is data defined as one-to-one correspondence with predetermined information in accordance with a specific code system, and the position information is specific coordinates such as a destination or a waypoint. Data indicating the position in the system.
[0033]
As shown in FIG. 2, the mobile terminal 10 includes a scanner unit 11, an operation input unit 12, a communication unit 13, a display unit 14, a speaker 15, and a control unit 16.
[0034]
The scanner unit 11 uses code data such as a map book on which code data such as barcodes indicating the positions of major intersections and tourist attractions are printed, and the code data required according to the user's operation, for example, the purpose of traveling the vehicle. It is for optically reading code data indicating a place or a waypoint. Code data such as a barcode read by the scanner unit 11 is supplied to the control unit 16.
[0035]
The operation input unit 12 is a user interface for receiving an operation input by a user, and includes, for example, a numeric keypad and a jog dial. When the user performs an operation input using the operation input unit 12, a signal corresponding to the operation input is supplied to the control unit 16.
[0036]
The communication unit 13 performs wireless communication with the wireless communication base station 3 under the control of the control unit 16 and transmits / receives data via the communication network 2. Data transmitted from the portable terminal 10 is supplied from the communication unit 13 to the wireless communication base station 3 and supplied from the wireless communication base station 3 to the data server 10 via the communication network.
[0037]
The display unit 14 displays images, characters, and the like according to control by the control unit 16. The speaker 15 outputs a sound such as a beep sound in accordance with control by the control unit 16.
[0038]
The control unit 16 executes an operation control program to control the operation of the entire mobile terminal 10. Specifically, the control unit 16 has functions of a code data storage unit 16a, an input processing unit 16b, a display control unit 16c, and an audio output control unit 16d by executing an operation control program. .
[0039]
The code data storage unit 16a temporarily stores code data such as a barcode read from the map book by the scanner unit 11.
[0040]
The input processing unit 16b performs various types of processing according to user operation input using the operation input unit 12. Specifically, for example, when the user performs an operation input for transmitting the code data read from the map book by the scanner unit 11 using the operation input unit 12, the input processing unit 16b is stored in the code data storage unit 16a. The temporarily stored code data is read, and the read code data is transmitted from the communication unit 13 to the data server 20.
[0041]
The display control unit 16c controls the operation of the display unit 14 to display images, characters, and the like on the display unit 14. Specifically, for example, when the code data is read from a printed matter such as a map book by the scanner unit 11, the display control unit 16 c performs processing to display information corresponding to the code data on the display unit 14. .
[0042]
The sound output control unit 16d controls the operation of the speaker 15 and outputs sound from the speaker 15. Specifically, for example, when the code data is read from a printed matter such as a map book by the scanner unit 11, the sound output control unit 16 d outputs a sound such as a beep sound for notifying the user to that effect. Process to output from.
[0043]
Specifically, the mobile terminal 10 as described above has, for example, a small scanner connected to a mobile phone, and the code data storage unit 16a, the input processing unit 16b, the display control unit 16c, and the audio output control described above connected to the mobile phone. This is realized by incorporating a program for demonstrating the function of the unit 16d. As the mobile terminal 10, in addition to the mobile phone as described above, for example, a portable information terminal (PDA), a laptop personal computer, or the like that can be carried and can perform predetermined information processing is widely applicable. By connecting a small scanner to these terminals and incorporating a program for exercising the functions as the code data storage unit 16a, the input processing unit 16b, the display control unit 16c, and the audio output control unit 16d described above. It may be realized.
[0044]
As shown in FIG. 3, the data server 20 includes a communication unit 21, a user information database 22, a position information storage unit 23, and a control unit 24.
[0045]
The communication control unit 21 controls transmission / reception of data via the communication network 2. Information such as code data and various commands transmitted from the communication unit 13 of the portable terminal 10 via the wireless communication base station 3 and the communication network 2 is received by the communication control unit 21 and supplied to the control unit 24. become. Further, as will be described later, the position information read from the position information storage unit 23 by the control unit 23 is transmitted from the communication control unit 21 to the in-vehicle navigation device 30 via the communication network 2 and the wireless communication base station 3. Will be.
[0046]
In the user information database 22, information related to a user registered as a user who uses the navigation system 1, specifically, for example, a terminal ID that is identification information of the mobile terminal 10 used by the user, or an in-vehicle navigation used by the user Various information such as the in-vehicle navigation ID that is the identification information of the device 30 is stored.
[0047]
The position information storage unit 23 temporarily stores position information corresponding to code data transmitted from the mobile terminal 10 in accordance with control by the control unit 24. In the position information storage unit 23, position information corresponding to the code data transmitted from the mobile terminal 10 is stored in association with, for example, the terminal ID of the mobile terminal 10 that is the transmission source of the code data, By specifying the terminal ID, the position information stored in association with the terminal ID can be read from the position information storage unit 23.
[0048]
The control unit 24 executes an operation control program and controls the operation of the entire data server 20. Specifically, the control unit 24 has the functions of the code data analysis processing unit 24a, the command analysis processing unit 24b, and the write / read control unit 24c by executing the operation control program.
[0049]
The code data analysis processing unit 24a analyzes the code data transmitted from the mobile terminal 10 to the data server 20 via the wireless communication base station 3 and the communication network 2 and received by the communication control unit 21, and converts the code data into the code data. The corresponding position information is acquired. Specifically, the code data analysis processing unit 24a has, for example, a conversion table in which code data is associated with various information corresponding to each code system, and the conversion table is referred to. Then, the code data transmitted from the mobile terminal 10 is converted into position information corresponding thereto.
[0050]
The command analysis processing unit 24b analyzes a command transmitted from the mobile terminal 10 to the data server 20 via the wireless communication base station 3 and the communication network 2 and received by the communication control unit 21, and performs various processes according to the command. The process is performed. Specifically, for example, when a command for reading the position information stored in the position information storage unit 23 from the mobile terminal 10 and transmitting it to the in-vehicle navigation device 30 is transmitted, the command analysis processing unit 24b And the write / read control unit 24c is operated accordingly, the corresponding position information stored in the position information storage unit 23 is read, and the read position information is transmitted from the communication control unit 21 to the in-vehicle navigation system. Processing to be transmitted to the device 30 is performed.
[0051]
The writing / reading control unit 24c writes the position information converted from the code data by the code data analysis processing unit 24a in the position information storage unit 23 in association with the terminal ID of the mobile terminal 10 that is the transmission source of the code data. And the control for reading the position information stored in the position information storage unit 23 from the position information storage unit 23 in accordance with the command analyzed by the command analysis processing unit. The position information read from the position information storage unit 23 by the writing / reading control unit 24c is transmitted from the communication control unit 21 to the in-vehicle navigation device 30 via the communication network 2 and the wireless communication base station 3. .
[0052]
As shown in FIG. 4, the in-vehicle navigation device 30 includes a communication unit 31, a nonvolatile memory 32, a small battery 33, a GPS reception unit 34, a map database 35, a display unit 36, a speaker 37, and a control unit 38. The
[0053]
The communication unit 31 performs wireless communication with the wireless communication base station 3 and transmits / receives data via the communication network 2. The location information transmitted from the data server 20 (location information corresponding to the code data indicating the destination, waypoint, etc. read from the map book by the scanner unit 11 of the portable terminal 10) is the communication network 2 and the radio communication base station. 3 is supplied to the vehicle-mounted navigation device 10 via the communication unit 31 and is received by the communication unit 31.
[0054]
The non-volatile memory 32 is connected to the communication unit 31 and temporarily stores the position information transmitted from the data server 20 to the in-vehicle navigation device 30 and received by the communication unit 31.
[0055]
The small battery 33 is configured using, for example, a Li ion battery, and is connected to the communication unit 31 and used as a power source for the communication unit 31. In the in-vehicle navigation device 30, the communication unit 31 is supplied with power from the small battery 33, so that the communication unit 31 can receive data even when the main power is off.
[0056]
The GPS receiving unit 34 acquires position information indicating the current position of the host vehicle on which the in-vehicle navigation device 30 is mounted by receiving a GPS signal from a GPS satellite. The position information indicating the current position of the host vehicle acquired by the GPS receiving unit 13 is supplied to the control unit 38.
[0057]
The map database 35 is composed of a CD-ROM or the like on which necessary map data is recorded. From this map database 35, the map data of the designated area can be sequentially read in accordance with the processing by the control unit 38.
[0058]
The display unit 36 displays map data and various information read from the map database 35 in accordance with control by the control unit 38. The speaker 37 outputs, for example, a voice for instructing the traveling direction in accordance with control by the control unit 38.
[0059]
The control unit 38 executes an operation control program and controls the entire operation of the in-vehicle navigation device 30. Specifically, the control unit 38 has functions of a route setting processing unit 38a, a route guidance processing unit 38b, a display control unit 38c, and an audio output control unit 38d by executing an operation control program. Become.
[0060]
The route setting processing unit 38a receives position information from the data server 20 received by the communication unit 31 and temporarily stored in the nonvolatile memory 32 (read from a printed matter such as a map book by the scanner unit 11 of the portable terminal 10). Processing for setting the travel route of the host vehicle based on the position information corresponding to the code data indicating the destination, waypoint, etc.) and the position information indicating the current position of the host vehicle acquired by the GPS receiver 34 Is to do. That is, the route setting processing unit 38a reads out location information indicating the destination and waypoint from the nonvolatile memory 32 when the main power of the in-vehicle navigation device 30 is turned on and the in-vehicle navigation device 30 is activated. A route specified from the current position of the host vehicle based on the position information indicating the destination or waypoint read from the nonvolatile memory 32 and the position information indicating the current position of the host vehicle acquired by the GPS receiver 34. The travel route of the host vehicle that reaches the destination through the ground is set.
[0061]
The route guidance processing unit 38b guides the travel of the host vehicle so that the host vehicle appropriately travels on the travel route set by the route setting processing unit 38a. Specifically, when the travel route is set by the route setting processing unit 38a, the route guidance processing unit 38b reads out necessary map data from the map database 35 and causes the display unit 36 to display the map data. Based on the acquired position information, the current position of the host vehicle is grasped, and the current position of the host vehicle is superimposed on the map data and displayed on the display unit 36. In addition, the route guidance processing unit 38b instructs the traveling direction of the host vehicle, for example, by outputting a sound for instructing a right or left turn from the speaker 37 when the host vehicle approaches an intersection to be turned right or left. Process.
[0062]
The display control unit 38c controls the operation of the display unit 36 according to the processing by the route guidance processing unit 38b, and displays necessary map data and various information on the display unit 36.
[0063]
The voice output control unit 38d controls the operation of the speaker 37 according to the processing by the route guidance processing unit 38b, and outputs a voice or the like for instructing the traveling direction of the host vehicle from the speaker 37.
[0064]
In the navigation system 1 configured as described above, when the user makes a drive plan outside the vehicle such as at home, the map book is used by using the scanner unit 11 of the mobile terminal 10 as shown in FIG. By reading code data such as a barcode printed on a printed matter such as a destination, a destination and a waypoint can be designated. Then, after all necessary code data is read using the scanner unit 11 of the mobile terminal 10, the user performs an operation input to transmit the code data using the operation input unit 12 of the mobile terminal 10, or When all necessary code data has been read, the code data read from the printed matter such as the map book by the scanner unit 11 is automatically transferred from the portable terminal 10 to the data server 20 together with the terminal ID which is identification information of the portable terminal 10. To be sent to.
[0065]
Further, when the code data is transmitted from the portable terminal 10 together with the terminal ID, the data server 20 converts the code data into position information indicating a position in a specific coordinate system such as a destination or a waypoint, and is converted. The position information is stored in the position information storage unit 23 in association with the terminal ID.
[0066]
Then, when the user performs an operation input to transmit the position information of the destination or the waypoint to the in-vehicle navigation device 30 using the operation input unit 12 of the mobile terminal 10 when the vehicle is on the vehicle, FIG. As shown, a command instructing transmission of position information is transmitted from the portable terminal 10 to the data server 20 together with a terminal ID that is identification information of the portable terminal 10. When the data server 20 receives a command instructing transmission of position information, the data server 20 reads position information to be transmitted from the position information storage unit 23 based on the terminal ID, and sends the read position information to the in-vehicle navigation device 30. Send.
[0067]
When receiving the position information transmitted from the data server 20, the in-vehicle navigation device 30 stores the received position information in the nonvolatile memory 32 until the main power is turned on. When the main power is turned on, the in-vehicle navigation device 30 reads the position information stored in the non-volatile memory 32, sets the travel route of the host vehicle based on this, and responds to this travel route. Route guidance.
[0068]
Here, the flow of processing in the navigation system 1 as described above will be described more specifically with reference to the flowchart of FIG.
[0069]
First, in step S1-1, according to a user operation, the scanner unit 11 of the mobile terminal 10 reads code data indicating a destination, a waypoint, and the like from a printed matter such as a map book. The code data read by the scanner unit 11 is temporarily stored in the code data storage unit 16a of the control unit 16. When the code data is read by the scanner unit 11, a beep sound is output from the speaker 15 according to the control by the audio output control unit 16d of the control unit 16, or the control is performed by the display control unit 16c of the control unit 16. Accordingly, information corresponding to the code data as shown in FIG. 7 is displayed on the display unit 14, for example, so that the user is notified that the code data has been read.
[0070]
Next, in step S1-2, for example, an operation input indicating the end of reading is performed from the operation input unit 12 of the mobile terminal 10, or the code data indicating the end of reading is read by the scanner unit 11, etc. The control unit 16 of the mobile terminal 10 determines whether an instruction to end the reading of the code data for designating the destination or the waypoint is given.
[0071]
If it is determined that the instruction to end the reading of the code data has been made, then in step S1-3, the code indicating the destination or waypoint temporarily stored in the code data storage unit 16a. The data is read from the code data storage unit 16a, for example, in response to an operation input by the user, or automatically, together with the terminal ID which is identification information of the mobile terminal 10, from the communication unit 13 to the wireless communication base station 3 and the communication network. 2 to the data server 20. At this time, information indicating that the code data is transmitted to the data server 20 is displayed on the display unit 14 as shown in FIG.
[0072]
In the data server 20, when code data indicating a destination or waypoint designated by the user is transmitted from the mobile terminal 10, the code data is received by the communication control unit 21. In step S1-4, code data transmitted from the mobile terminal 10 is converted into position information by the code data analysis processing unit 24a of the control unit 24. In step S1-5, control by the write / read control unit 24c is performed. The position information is stored in the position information storage unit 23 in association with the terminal ID. When the code data analysis processing unit 24a of the control unit 24 converts the code data into position information, the position information is based on the vehicle navigation ID that is the identification information of the vehicle navigation device 30 stored in the user information database 22. The model of the in-vehicle navigation device 30 serving as the transmission destination is identified and converted into position information corresponding to the data format of the map data handled by the in-vehicle navigation device 30.
[0073]
Next, in step S1-6, it is determined whether or not the user inputs an instruction to transmit the position information stored in the data server 20 from the operation input unit 12 of the mobile terminal 10 to the in-vehicle navigation device 30. Is determined by the control unit 16.
[0074]
If it is determined that an instruction to transmit the position information stored in the data server 20 to the in-vehicle navigation device 30 has been made, next, in step S1-7, the input processing unit 16b of the control unit 16 A command for instructing transmission of position information is generated, and this command is transmitted from the communication unit 13 to the data server 20 via the wireless communication base station 3 and the communication network 2 together with the terminal ID.
[0075]
In the data server 20, when a command for instructing transmission of position information is transmitted from the mobile terminal 10, the communication control unit 21 receives this command. In step S1-8, this command is analyzed by the command analysis processing unit 24b of the control unit 24, and stored in the position information storage unit 23 by the write / read control unit 24c of the control unit 24 in accordance with this command. The obtained position information is read based on the terminal ID. In step S1-9, the position information read from the position information storage unit 23 is designated as the transmission destination from the communication control unit 21 via the communication network 2 and the wireless communication base station 3, 30.
[0076]
The positional information transmitted to the in-vehicle navigation device 30 is received by the communication unit 31 and stored in the nonvolatile memory 32 until the main power source of the in-vehicle navigation device 30 is turned on. Then, when the main power source of the in-vehicle navigation device 30 is turned on, the location information stored in the nonvolatile memory 32 by the route setting processing unit 38a of the control unit 38, that is, the destination and waypoint specified by the user are displayed. In step S1-10, based on the position information read from the nonvolatile memory 32 and the position information indicating the current position of the host vehicle acquired by the GPS receiving unit 34, The travel route of the host vehicle is set by the route setting processing unit 38a. Then, route guidance is performed by the route guidance processing unit 38b according to the travel route set by the route setting processing unit 38a, and a series of processing in the navigation system 1 to which the present invention is applied ends.
[0077]
As described above, in the navigation system 1 to which the present invention is applied, the user reads the code data such as a barcode printed on a printed matter such as a map book with the scanner unit 11 of the mobile terminal 10, thereby A waypoint can be specified. Then, the code data read by the mobile terminal 10 is converted into position information of a specific coordinate system by the data server 20 and stored in the data server 20, and the position information indicating the destination or waypoint is stored as necessary. The vehicle-mounted navigation device 30 is supplied. Therefore, according to the navigation system 1, when the user makes a drive plan outside the vehicle, it is possible to easily input the destination or waypoint using the mobile terminal 10 outside the vehicle, and the user can After getting into the vehicle, the vehicle can be started immediately without inputting the destination or waypoint again. In the navigation system 1, since the destination and waypoint are specified by reading code data such as a bar code, the operation is simple and the usability is very good.
[0078]
The navigation system 1 described above specifically illustrates an application example of the present invention, and various technical changes can be made without departing from the spirit of the present invention. Specifically, for example, in the navigation system 1 described above, when the location information stored in the data server 20 indicates a destination or waypoint, a command to instruct transmission of the location information is supplied to the data server. However, the position information may be automatically transmitted from the data server 20 to the in-vehicle navigation device 30.
[0079]
In this case, the data server 20 converts the code data transmitted from the mobile terminal 10 into position information, and then the in-vehicle navigation serving as a transmission destination of the position information based on the terminal ID transmitted from the mobile terminal 10 together with the code data. The device 30 is specified, communication is performed with the communication unit 31 of the specified in-vehicle navigation device 30, and position information is transmitted. At this time, since the communication unit 31 of the in-vehicle navigation device 30 can always receive data by supplying power from the small battery 33 as described above, even when the main power of the in-vehicle navigation device 30 is off. The position information transmitted from the data server 20 is received by the receiving unit 31 of the in-vehicle navigation device 30 and is temporarily stored in the nonvolatile memory 32.
[0080]
As described above, when the position information is automatically transmitted from the data server 20 to the in-vehicle navigation device 30, the user performs an operation input instructing the position information to be transmitted using the mobile terminal 10. Since there is no need, a navigation system with further improved convenience can be realized.
[0081]
In the navigation system 1 described above, code data printed on a printed matter such as a map book is read and transmitted to the data server 20 using the mobile terminal 10, but instead of the mobile terminal 10, for example, A stationary information processing terminal such as a personal computer installed in the user's home or office may be used. In this case, a small scanner is connected to the stationary information processing terminal, and the functions of the code data storage unit 16a, the input processing unit 16b, the display control unit 16c, and the audio output control unit 16d in the mobile terminal 10 described above are exhibited. It is sufficient to incorporate a program for this purpose.
[0082]
(Second Embodiment)
Next, a navigation system according to a second embodiment to which the present invention is applied will be described. In the navigation system of the second embodiment, as shown in FIG. 9, the short-range data communication units 17 and 39 are provided in the mobile terminal 10 and the in-vehicle navigation device 30, respectively. In the meantime, data communication at a short distance using, for example, Bluetooth or IrDA is performed. In the navigation system according to the second embodiment, when the user brings the mobile terminal into the host vehicle and turns on the main power source of the in-vehicle navigation device 30, a communication link is established between the mobile terminal 10 and the in-vehicle navigation device 30. Is established, and the location information indicating the destination or waypoint stored in the data server 20 based on the data transmission flag of the mobile terminal 10 is automatically transmitted from the data server 20 to the in-vehicle navigation device 30, and the in-vehicle navigation device 30. Is to be received.
[0083]
In the navigation system of the second embodiment, as described above, the position information stored in the data server 20 is transmitted to the in-vehicle navigation device 30 after the main power source of the in-vehicle navigation device 30 is turned on. Therefore, it is not necessary to connect the small battery 33 to the communication unit 31 of the in-vehicle navigation device 30. In the navigation system of the second embodiment, the other configurations are the same as those of the navigation system 1 of the first embodiment described above. Therefore, the configurations similar to those of the navigation system 1 of the first embodiment are described below. Are given the same reference numerals in the figure, and redundant description is omitted.
[0084]
In the navigation system of the second embodiment as described above, the code data required by the user is read from a printed matter such as a map book using the scanner unit 11 of the mobile terminal 10, and the read code data is read from the mobile terminal 10 to the data server. When the data is transmitted to 20, the data transmission flag of the mobile terminal 10 is turned on. That is, in the navigation system according to the second embodiment, the portable terminal 10 stores the presence / absence of transmission of code data to the data server 20 by the data transmission flag. When the code data is transmitted, the mobile terminal 10 turns on the data transmission flag.
[0085]
Then, when the user brings the mobile terminal 10 into the vehicle and activates the in-vehicle navigation device 30, a communication link is established between the mobile terminal 10 and the in-vehicle navigation device 30 by short-range data communication such as Bluetooth. As shown, information indicating that the data transmission flag is on is automatically transmitted from the mobile terminal 10 to the in-vehicle navigation device 30 together with the terminal ID. When information indicating that the data transmission flag is on is transmitted from the mobile terminal 10 to the in-vehicle navigation device 30, the data transmission flag of the mobile terminal 10 is turned off.
[0086]
Further, when information indicating that the data transmission flag is turned on is transmitted from the mobile terminal 10, the in-vehicle navigation device 30 generates a command for requesting the data server 20 to transmit position information, The command is transmitted from the communication unit 31 to the data server 20 together with the terminal ID of the mobile terminal 10. When the data server 20 receives a command requesting transmission of position information from the in-vehicle navigation device 30, the data server 20 reads out the position information to be transmitted from the position information storage unit 23 based on the terminal ID transmitted together with the command, and reads the position information. The position information is transmitted to the in-vehicle navigation device 30. As a result, the travel route of the host vehicle is set in the in-vehicle navigation device 30, and route guidance according to the travel route is performed.
[0087]
Here, the flow of processing in the navigation system of the second embodiment as described above will be described more specifically with reference to the flowchart of FIG.
[0088]
First, in step S2-1, according to a user operation, the scanner unit 11 of the mobile terminal 10 reads code data indicating a destination or a waypoint from a printed matter such as a map book. In step S2-2, It is determined whether or not the user gives an instruction to end the reading of the code data.
[0089]
If it is determined that an instruction to end the reading of the code data is given, then in step S2-3, the code data read by the scanner unit 11 of the mobile terminal 10 is the identification information of the mobile terminal 10. Is transmitted from the portable terminal 10 to the data server 20 together with the terminal ID. When the code data is transmitted from the portable terminal 10 to the data server 20, the data transmission flag of the portable terminal 10 is turned on in step S2-4.
[0090]
In the data server 20, when the code data indicating the destination or waypoint designated by the user is transmitted from the portable terminal 10, the code data is converted into position information in step S2-5, and in step S2-6, This position information is stored in the position information storage unit 23 in association with the terminal ID.
[0091]
Next, when the mobile terminal 10 is brought into the host vehicle by the user and the in-vehicle navigation device 30 is activated, a short-distance data communication link is established between the mobile terminal 10 and the in-vehicle navigation device 30 in step S2-7. Is determined.
[0092]
When a short-distance communication link is established between the mobile terminal 10 and the vehicle-mounted navigation device 30, information indicating that the data transmission flag of the mobile terminal 10 is turned on in step S2-8, that is, the user The information indicating that the location information indicating the destination and the waypoint specified by is stored in the data server 20 is automatically transmitted from the portable terminal 30 to the in-vehicle navigation device 30 together with the terminal ID of the portable terminal 10. Is done. Then, when information indicating that the data transmission flag is on is transmitted from the mobile terminal 10 to the in-vehicle navigation device 30, the data transmission flag of the mobile terminal 10 is turned off in step S2-9.
[0093]
In addition, when information indicating that the data transmission flag is on is transmitted from the mobile terminal 10 to the in-vehicle navigation device 30, a command for requesting the data server 20 to transmit position information in step S2-10. Is generated by the in-vehicle navigation device 30. And the command which requests | requires transmission of this positional information is transmitted to the data server 20 from the communication part 31 of the vehicle-mounted navigation apparatus 30 with terminal ID of the portable terminal 10. FIG.
[0094]
In the data server 20, when a command for requesting transmission of position information is transmitted from the in-vehicle navigation device 30, in step S2-11, the position information stored in the position information storage unit 23 according to the command, That is, position information indicating the destination or waypoint specified by the user is read based on the terminal ID. In step S2-12, the position information read from the position information storage unit 23 is transmitted from the data server 20 to the in-vehicle navigation device 30.
[0095]
When the position information is transmitted from the data server 20 to the in-vehicle navigation device 30, the position information transmitted from the data server 20 and the GPS receiver 34 are acquired by the in-vehicle navigation device 30 in step S2-13. The travel route of the host vehicle is set based on the position information indicating the current position of the host vehicle. Then, route guidance is performed by the in-vehicle navigation device 30 according to this travel route, and a series of processing in the navigation system of the second embodiment is completed.
[0096]
In the navigation system of the second embodiment described above, the user brings the portable terminal into the host vehicle, turns on the main power source of the in-vehicle navigation device 30, and the communication link between the portable terminal 10 and the in-vehicle navigation device 30. Since the location information indicating the destination and waypoint stored in the data server 20 is automatically transmitted from the data server 20 to the in-vehicle navigation device 30, the user uses the mobile terminal 10 to store the location information. There is no need to perform an operation input for instructing transmission, and the convenience can be further improved.
[0097]
In the example described above, when a communication link by short-range data communication is established between the mobile terminal 10 and the in-vehicle navigation device 30, the data transmission flag is turned on from the mobile terminal 10 to the in-vehicle navigation device 30. The in-vehicle navigation device 30 generates a command for requesting the data server 20 to transmit the position information, and transmits the command to the data server 20. However, as shown in FIG. 12, the mobile terminal 10 determines that the in-vehicle navigation device 30 is activated by establishing a communication link by short-range data communication between the mobile terminal 10 and the in-vehicle navigation device 30. A command indicating that the mobile terminal 10 instructs the data server 20 to transmit the position information in accordance with the data transmission flag. To generate by sending the command to the data server 20, may be location information to the in-vehicle navigation apparatus 30 from the data server 20 is transmitted automatically. Also in this case, it is not necessary for the user to perform an operation input for instructing transmission of the position information using the mobile terminal 10, so that the convenience can be further improved.
[0098]
(Third embodiment)
Next, a navigation system according to a third embodiment to which the present invention is applied will be described. The navigation system of the third embodiment has the same basic configuration as that of the navigation system of the first embodiment and the second embodiment described above, and the usage mode thereof is the first embodiment and the second embodiment described above. It is different from the navigation system of the form. That is, in the navigation system according to the third embodiment, a personal folder that is a recording area for each user is provided in the position information storage unit 23 of the data server 20, and other users own mobile terminals in this personal folder. 10 can be stored. Then, information read by a plurality of users using the respective mobile terminals 10 is collected and stored in a personal folder of a specific user of the data server 20, and the collected information is stored in a specific in-vehicle navigation device 30. It can be sent.
[0099]
The navigation system according to the third embodiment is very useful in setting a travel route when, for example, a certain user travels a vehicle on which the in-vehicle navigation device 30 is mounted and sequentially stops at a plurality of friends' homes. It is valid.
[0100]
Hereinafter, the case where a certain user N runs a vehicle on which the vehicle-mounted navigation device 30 is mounted and stops at the home of the friend A, the home of the friend B, and the home of the friend C will be specifically described as an example. In this case, the user N contacts the friends A, B, and C in advance and requests that the information on the location of each person's home is transmitted to the data server 20. At this time, the user N notifies the friends A, B, and C of information for specifying his / her folder of the data server 20, specifically, for example, the terminal ID of his / her mobile terminal 10.
[0101]
In the navigation system of the third embodiment, friends A, B, and C receive a request from the user N, and indicate the positions near their homes that are printed on a map book or the like by the scanner unit 11 of their mobile terminal 10. When code data such as a barcode is read and the mobile terminal 10 is operated so that the read code data is transmitted to the folder of the user N of the data server 20, as shown in FIG. The code data read by the scanner unit 11 of the A, B, C mobile terminal 10, that is, the code data indicating the position near the home of the friends A, B, C is, for example, the terminal ID of the mobile terminal 10 of the user N Along with the identification information, the data is transmitted from each portable terminal 10 to the data server 20.
[0102]
In the data server 20, when code data indicating the positions of the friends A, B, and C near the home are transmitted from the mobile terminals 10 of the friends A, B, and C together with the terminal ID of the mobile terminal 10 of the user N, respectively. Each of these code data is converted into position information of a specific coordinate system and stored in a folder of the user N provided in the position information storage unit 23. At this time, the folder of the user N is identified by, for example, the user N's mobile terminal 10 transmitted from the mobile terminals 10 of the friends A, B, and C together with code data indicating positions near the home of the friends A, B, and C. It is specified based on the terminal ID.
[0103]
Then, for example, as shown in FIG. 13B, a command for instructing transmission of position information from the mobile terminal 10 in response to the operation input of the user N, for example, together with the terminal ID of the mobile terminal 10 of the user N, etc. When transmitted, the data server 20 identifies the folder of the user N in the position information storage unit 23 based on the transmitted terminal ID and the like, and the position information stored in the folder of the user N, that is, The position information indicating the positions near the homes of the friends A, B, and C is read and transmitted to the in-vehicle navigation device 30.
[0104]
In the in-vehicle navigation device 30, when position information indicating the positions of the friends A, B, and C near the home is transmitted from the data server 20, the position information and the current position of the vehicle acquired by the GPS receiver 34 are displayed. Based on the positional information shown, a travel route that passes through the vicinity of the homes of friends A, B, and C is set. Then, route guidance is performed so that the vehicle travels along this travel route.
[0105]
Here, the flow of processing in the navigation system of the third embodiment as described above will be described with reference to the flowchart of FIG.
[0106]
First, in step S3-1, code data is read from a printed matter such as a map book by the scanner units 11 of the plurality of mobile terminals 10 in accordance with operations of a plurality of users. It is determined whether or not an instruction to end the reading of the code data has been given.
[0107]
If it is determined that an instruction to end the reading of the code data has been given, then in step S3-3, the code data read by the scanner unit 11 of each portable terminal 10 identifies the destination folder. The information is transmitted from each portable terminal 10 to the data server 20 together with information (terminal ID and the like) to be performed. When the code data is transmitted from each portable terminal 10 to the data server 20, the code data transmitted from each portable terminal 10 is converted into position information in step S3-4. 5, these pieces of position information are stored in a specific folder in the position information storage unit 23 designated as a transmission destination, and are collected in this folder.
[0108]
Next, in step S3-6, for example, in response to an operation input by a specific user, a command for instructing the data server 20 to transmit position information is supplied from the mobile terminal 10, or the mobile terminal 10 Alternatively, a command for instructing the data server 20 to transmit position information is automatically supplied from the in-vehicle navigation device 30.
[0109]
In the data server 20, when a command for instructing transmission of position information is transmitted, in step S3-7, the position stored in a specific folder of the position information storage unit 23 according to the command is stored. Information, that is, position information indicating destinations and waypoints designated by a plurality of users is read out. In step S3-8, the position information read from the position information storage unit 23 is transmitted from the data server 20 to the in-vehicle navigation device 30.
[0110]
When the position information is transmitted from the data server 20 to the in-vehicle navigation device 30, in step S3-9, the display unit 36 of the in-vehicle navigation device 30 confirms the content of the position information as shown in FIG. A screen is displayed. When the user refers to the screen of the display unit 36 and selects necessary position information, the position information selected by the user and the GPS reception unit 34 are acquired in step S3-10. The travel route of the host vehicle is set based on the position information indicating the current position of the host vehicle. Then, route guidance is performed by the in-vehicle navigation device 30 according to this travel route, and a series of processing in the navigation system of the third embodiment is completed.
[0111]
In the navigation system of the third embodiment described above, the location information individually acquired by a plurality of users is collected in the data server 20, and the route setting is performed by the in-vehicle navigation device 30 by using the location information for a specific user. Therefore, it is possible to realize a navigation system with extremely high utility value.
[0112]
In the example described above, code data read by a plurality of users using his / her mobile terminal 10 is transmitted to each specific folder of the data server 20, but as shown in FIG. Code data read by a plurality of users using his / her mobile terminal 10 is transmitted to the mobile terminal 10 of the specific user, and the code data aggregated in the mobile terminal 10 of the specific user is transmitted to the specific mobile terminal 10. To the data server 20.
[0113]
A specific example will be described. In this example, as shown in FIG. 16A, code data read by the scanner unit 11 of the mobile terminals 10 of the friends A, B, and C is displayed on each mobile terminal 10. To the mobile terminal 10 of the user N. In the mobile terminal 10 of the user N, when the code data is transmitted from the mobile terminals 10 of the friends A, B, and C, these are collected and information corresponding to the code data is collected as shown in FIG. Is displayed on the display unit 14. When the user refers to the screen of the display unit 14 and selects necessary code data, the selected code data is transmitted from the mobile terminal 10 of the user N to the data server 20.
[0114]
In the data server 20, when the code data selected from the mobile terminal 10 of the user N is transmitted, the code data is converted into the position information, and the folder of the user N provided in the position information storage unit 23. To store. For example, as illustrated in FIG. 16B, when a command for instructing transmission of position information is supplied from the mobile terminal 10 in response to an operation input of the user N, the user N of the position information storage unit 23 is provided. The position information stored in the folder, that is, the position information acquired by the friends A, B, and C and selected by the user N is read out and transmitted to the in-vehicle navigation device 30.
[0115]
In the in-vehicle navigation device 30, when the position information is transmitted from the data server 20, the travel route of the vehicle is determined based on the position information and the position information indicating the current position of the vehicle acquired by the GPS receiver 34. Set. Then, route guidance is performed so that the vehicle travels along this travel route.
[0116]
Also in this example, as in the example described above, the location information individually acquired by a plurality of users is collected in the data server 20, and the route information is set by the in-vehicle navigation device 30 by using the location information for a specific user. Since it can be performed, a navigation system with extremely high utility value can be realized.
[0117]
Moreover, in the example demonstrated above, the vehicle-mounted navigation apparatus 30 is based on the positional information which is acquired individually by the portable terminals 10 of a plurality of users and aggregated in the data server 20 and the positional information indicating the current position of the vehicle. Although the route guidance of a vehicle is set and route guidance is performed, the in-vehicle navigation device 30 sets the travel route according to, for example, an operation by a specific user, and then individually uses the mobile terminals 10 of a plurality of users. When the acquired position information is transmitted, the position information acquired by the mobile terminals 10 of a plurality of users may be added to the already set travel route to set a new travel route. Further, the travel route set by the in-vehicle navigation device 30 can be changed as appropriate according to an operation input using the mobile terminal 10 by a specific user or according to an operation input using the mobile terminal 10 by another user. It is desirable that
[0118]
(Fourth embodiment)
Next, a navigation system according to a fourth embodiment to which the present invention is applied will be described. Similar to the navigation system of the third embodiment, the navigation system of the fourth embodiment has the same basic configuration as the navigation system of the first embodiment and the second embodiment described above, and the usage form thereof is the above. This is different from the navigation system of the first embodiment and the second embodiment. That is, in the navigation system of the fourth embodiment, a group folder as a shared recording area shared by a plurality of users is provided in the position information storage unit 23 of the data server 20, and the position stored in this group folder Information is transmitted to each of the plurality of in-vehicle navigation devices 30 so that the plurality of in-vehicle navigation devices 30 can perform route setting based on the position information.
[0119]
In the navigation system according to the fourth embodiment, for example, when a plurality of users drive vehicles each equipped with the in-vehicle navigation device 30 and go to a meeting place designated by a specific user, This is very effective when setting a travel route with the in-vehicle navigation device 30.
[0120]
Hereinafter, the case where the users A, B, and C each travel a vehicle on which the vehicle-mounted navigation device 30 is mounted and go to the meeting place designated by the user A will be described in detail.
[0121]
In the navigation system of the fourth embodiment, the user A reads code data such as a bar code indicating the position of a meeting place printed on a map book or the like by the scanner unit 11 of the mobile terminal 10, and the read code data is a data server. When the mobile terminal 10 is operated so as to be transmitted to the group folder 20, as shown in FIG. 18A, the code data read by the scanner unit 11 of the mobile terminal 10 of the user A, that is, the position of the meeting place Is transmitted from the portable terminal 10 of the user A to the data server 20 together with identification information such as the terminal ID of the portable terminal 10 of the user A, for example.
[0122]
In the data server 20, when the code data indicating the position of the meeting place is transmitted from the mobile terminal 10 of the user A together with the terminal ID of the mobile terminal 10 of the user A, the code data is converted into position information, The information is stored in a group folder provided in the information storage unit 23. At this time, the group folder is specified based on, for example, the terminal ID of the mobile terminal 10 of the user A transmitted from the mobile terminal 10 of the user A together with the code data indicating the position of the meeting place.
[0123]
For example, when a command for instructing transmission of position information from the mobile terminal 10 in response to an operation input of the user A is supplied together with the terminal ID of the mobile terminal 10 of the user A, for example, FIG. As shown in FIG. 4, the data server 20 specifies the group folder in the location information storage unit 23 based on the transmitted terminal ID and the like, and the location information stored in this group folder, that is, designated by the user A The position information indicating the designated meeting place is read out, and the position information is mounted on the vehicle-mounted navigation device 30 mounted on the user A vehicle, the vehicle-mounted navigation device 30 mounted on the user B vehicle, and the vehicle of the user C. Each is transmitted to the in-vehicle navigation device 30.
[0124]
In each in-vehicle navigation device 30 mounted on the vehicles of the users A, B, and C, when the position information indicating the meeting place designated by the user A is transmitted from the data server 20, the position information indicating the meeting place, Based on the position information indicating the current position of each vehicle acquired by the GPS receiver 34, a travel route for each vehicle to go to the meeting place is set. Then, route guidance is performed so that each vehicle travels along this travel route.
[0125]
Here, the flow of processing in the navigation system of the fourth embodiment as described above will be described with reference to the flowchart of FIG.
[0126]
First, in step S4-1, code data indicating a meeting place or the like is read from a printed matter such as a map book by the scanner unit 11 of the portable terminal 10 according to an operation of a specific user. In step S4-2, It is determined whether or not the user gives an instruction to end the reading of the code data.
[0127]
If it is determined that an instruction to end the reading of the code data has been made, then in step S4-3, the code data indicating the waiting place read by the scanner unit 11 of the mobile terminal 10 is sent to the destination. Together with information for specifying the group folder to be transmitted from the portable terminal 10 to the data server 20. When code data indicating a meeting place or the like is transmitted from the mobile terminal 10 to the data server 20, the code data transmitted from the mobile terminal 10 is converted into position information by the data server 20 in step S4-4. In step S4-5, the position information is stored in the group folder in the position information storage unit 23 designated as the transmission destination.
[0128]
Next, in step S4-6, for example, in response to an operation input by a specific user, a command for instructing the data server 20 to transmit position information is supplied from the mobile terminal 10, or the mobile terminal 10 Alternatively, a command for instructing the data server 20 to transmit position information is automatically supplied from the in-vehicle navigation device 30.
[0129]
In the data server 20, when a command for instructing transmission of position information is transmitted, in step S4-7, in accordance with this command, the position information stored in the group folder of the position information storage unit 23, that is, Position information indicating a meeting place designated by a specific user is read out. In step S4-8, the position information read from the group folder in the position information storage unit 23 is transmitted from the data server 20 to the plurality of in-vehicle navigation devices 30.
[0130]
When the position information is transmitted from the data server 20 to the plurality of in-vehicle navigation devices 30, the position information transmitted from the data server 20 by each in-vehicle navigation device 30 and each in-vehicle navigation device 30 in step S4-9. Based on the position information indicating the current position of the mounted vehicle, the travel route of the vehicle on which each in-vehicle navigation device 30 is mounted is set. And according to this driving | running route, each vehicle-mounted navigation apparatus 30 performs route guidance of each vehicle, and a series of processes in the navigation system of 4th Embodiment are complete | finished.
[0131]
In the navigation system of the fourth embodiment described above, the position information acquired by a specific user is stored in the data server 20, and this position information is used by a plurality of users, and each of the positions is detected by a plurality of in-vehicle navigation devices 30. Since the route setting based on information can be performed, a navigation system with extremely high utility value can be realized.
[Brief description of the drawings]
FIG. 1 is a diagram showing a system configuration of a navigation system to which the present invention is applied.
FIG. 2 is a block diagram of a mobile terminal constituting the navigation system of the first embodiment.
FIG. 3 is a block diagram of a data server constituting the navigation system of the first embodiment.
FIG. 4 is a block diagram of an in-vehicle navigation device constituting the navigation system of the first embodiment.
5A and 5B are schematic diagrams conceptually showing a usage form of the navigation system of the first embodiment, in which FIG. 5A shows a state in which code data is transmitted from a mobile terminal to a data server, and FIG. A state in which position information is transmitted from the server to the vehicle-mounted navigation device is shown.
FIG. 6 is a flowchart showing a flow of processing in the navigation system of the first embodiment.
FIG. 7 is a diagram illustrating a mobile terminal in which information corresponding to read code data is displayed on a display unit.
FIG. 8 is a diagram illustrating a mobile terminal in which information indicating that read code data is transmitted to a data server is displayed on the display unit.
FIG. 9 is a block diagram of a mobile terminal and an in-vehicle navigation device that constitute a navigation system of a second embodiment.
FIG. 10 is a schematic diagram conceptually showing a usage form of the navigation system of the second embodiment.
FIG. 11 is a flowchart showing a flow of processing in the navigation system of the second embodiment.
FIG. 12 is a schematic diagram conceptually showing another usage pattern of the navigation system of the second embodiment.
FIG. 13 is a schematic diagram conceptually showing a usage form of the navigation system of the third embodiment, wherein (a) shows a state in which code data is transmitted from a plurality of user portable terminals to a data server; b) shows a state in which the position information collected by the data server is transmitted to the in-vehicle navigation device.
FIG. 14 is a flowchart showing the flow of processing in the navigation system of the third embodiment.
FIG. 15 is a diagram illustrating an in-vehicle navigation device in which a screen for confirming the contents of position information transmitted from a data server is displayed on a display unit.
FIG. 16 is a schematic diagram conceptually showing another usage pattern of the navigation system of the third embodiment, wherein (a) shows a case where a plurality of users' portable terminals are transferred to a data server via a specific user's portable terminals. The code data is shown transmitted, and (b) shows the position information collected by the data server being transmitted to the in-vehicle navigation device.
FIG. 17 is a diagram illustrating a mobile terminal in which information corresponding to code data transmitted from another mobile terminal is displayed on the display unit.
FIG. 18 is a schematic diagram conceptually showing a usage form of the navigation system of the fourth embodiment, wherein (a) shows a state in which code data is transmitted from a mobile terminal of a specific user to a data server; b) shows the position information transmitted from the data server to a plurality of in-vehicle navigation devices.
FIG. 19 is a flowchart showing the flow of processing in the navigation system of the fourth embodiment.
[Explanation of symbols]
1 Navigation system
10 Mobile devices
11 Scanner section
12 Operation input section
13 Communication Department
20 Data server
21 Communication control unit
23 Location information storage
24 Control unit
30 Car navigation system
31 Communication Department
32 Nonvolatile memory
33 Small battery
38 Control unit
38a Route setting processing unit
38b Route guidance processing unit

Claims (12)

In a navigation system that provides vehicle route guidance,
An in-vehicle navigation device mounted on the vehicle;
Reading means for reading the code data described on the printed matter, storage means for temporarily storing the code data read by the reading means, and code data temporarily stored in the storage means in response to a user operation A user terminal having a transmission means ;
Receiving means for receiving the code data transmitted from the transmitting means of the user terminal ; conversion means for converting the code data received by the receiving means into position information indicating the position of a coordinate system; and code data by the converting means Storage means for storing the position information converted from, and transmission means for reading the position information stored in the storage means in response to a transmission request from the in-vehicle navigation device or the user terminal and transmitting it to the in-vehicle navigation A data server,
The conversion means of the data server converts the code data received from the user terminal into position information corresponding to the format of map data handled by the in-vehicle navigation device,
The in-vehicle navigation device receives and temporarily stores position information from the data server, sets a travel route of the vehicle based on the stored position information and the current position of the vehicle, and based on this A navigation system characterized by route guidance.   The in-vehicle navigation device includes a small battery, and is capable of receiving position information from the data server by supplying power from the small battery when a main power source is turned off. Item 4. The navigation system according to item 1. The user terminal is a portable portable terminal, and the in-vehicle navigation device and the portable terminal each include short-distance data communication means for performing data communication at a short distance,
The position information is transmitted from the data server to the in-vehicle navigation device after a communication link by the short-range data communication means is established between the in-vehicle navigation device and the portable terminal. Item 4. The navigation system according to item 1.   The storage means of the data server is provided with a recording area for each user, and position information corresponding to code data from other user terminals can be stored in each recording area. Item 4. The navigation system according to any one of Items 1 to 3.   The storage means of the data server is provided with a shared recording area shared by a plurality of users, and position information stored in the shared recording area can be received by a plurality of in-vehicle navigation devices. The navigation system according to any one of claims 1 to 4, wherein the navigation system is characterized. Receiving means for receiving code data read from a printed matter by the user terminal, temporarily stored in the user terminal, and transmitted from the user terminal in response to a user operation, and the received code data indicating the position of the coordinate system Conversion means for converting to position information, storage means for storing position information converted from code data by the conversion means, and transmission means for transmitting the position information stored in the storage means to in-vehicle navigation mounted on a vehicle; And the converting means converts the received code data into position information corresponding to a format of map data handled by the in-vehicle navigation device.   7. A storage area for each user is provided in the storage means, and position information corresponding to code data received from another user terminal can be stored in each recording area. The listed data server.   The recording area for each user is managed by identification information assigned to the user terminal or in-vehicle navigation device of each user, and when the position information is stored or read out, the position information The data server according to claim 7, wherein a recording area for storing or reading is specified.   The storage means is provided with a shared recording area shared by a plurality of users, and the position information stored in the shared recording area can be transmitted to a plurality of in-vehicle navigation devices. The data server according to any one of claims 6 to 8.   The shared recording area is managed by identification information assigned to a user terminal or an in-vehicle navigation device of each user who uses the shared recording area. When the location information is stored or read out, The data server according to claim 9, wherein a shared recording area for storing or reading the position information is specified. In a route setting method for setting a travel route of the vehicle on an in-vehicle navigation device mounted on the vehicle,
The data server receives the code data read from the printed material by the user terminal and temporarily stored in the user terminal, and transmitted from the user terminal in response to a user operation .
The data server converts the code data into position information indicating the position of a coordinate system and corresponds to a format of map data handled by the in-vehicle navigation device, and stores it in a storage means, and stores the in-vehicle In response to a transmission request from the navigation device or the user terminal, the position information stored in this storage means is read and transmitted to the in-vehicle navigation device,
The route setting characterized by temporarily storing the location information transmitted from the data server in the in-vehicle navigation device, and setting the travel route of the vehicle based on the stored location information and the current location of the vehicle Method. An information providing method for a data server for exchanging data with a user terminal and an in-vehicle navigation device via a communication network,
The data server is
The code data read from the printed matter by the user terminal and temporarily stored in the user terminal, and transmitted from the user terminal in response to a user operation ,
The received code data is position information indicating the position of the coordinate system, and converted into position information corresponding to the format of map data handled by the in-vehicle navigation device,
Collating the user terminal that is the transmission source of the code data, storing the position information converted from the code data in the storage means,
Upon receiving a request for transmission of the position information from the user terminal or the in-vehicle navigation device, the request source is collated to identify the position information to be transmitted from the position information stored in the storage means,
An information providing method for a data server, comprising: transmitting the specified position information to the in-vehicle navigation device.

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