JP4516714B2 - Data distribution system, receiving terminal, data distribution method, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data distribution system , a receiving terminal, a data distribution method, and a program.
[0002]
[Prior art]
Map data used in the navigation system is recorded on a recording medium such as a CD-ROM, a DVD-ROM, or a hard disk.
In addition, as a system that does not use the recording medium as described above, the user requests map data using a public wireless line such as a mobile phone line, and the service station uses digital communication satellite broadcast waves for the requested map data. There is a supply system.
[0003]
[Problems to be solved by the invention]
As described above, when map data is recorded on a CD-ROM, a DVD-ROM, or the like, the CD-ROM, the DVD-ROM, or the like must be replaced in order to obtain the latest map data.
[0004]
In addition, when map data is recorded on a hard disk or the like, in order to obtain the latest map data, it is necessary to replace the hard disk or rewrite the map data recorded on the hard disk.
[0005]
As described above, when the map data is recorded on the recording medium, the user is burdened with money to purchase a new recording medium, or the user has to rewrite the recorded map data. It takes.
[0006]
In addition, as described above, communication charges are incurred when using a public line. For this reason, even if a public line is used, the financial burden on the user cannot be avoided.
[0007]
Therefore, an object of the present invention is to provide a data distribution system , a receiving terminal, a data distribution method, and a program for distributing data at a low cost.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a data distribution system according to the first aspect of the present invention includes:
A distribution device for distributing map data of a plurality of predetermined areas divided by each prefecture or state;
A receiving terminal for receiving the map data distributed by the distribution device;
A data distribution system comprising:
The distribution device includes:
Storage means for storing map data of the plurality of predetermined areas;
The map data stored in the storage means, and via a digital communication satellite, always transmitting with a radio wave of a different frequency for each predetermined area,
The receiving terminal is
Storage means for storing in advance the information indicating the predetermined area and the information indicating the frequency of the radio wave distributing the map data of the predetermined area in association with each other;
Instruction input from the user of the receiving terminal to select any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data distributed separately for each predetermined area the accepts an acquisition unit for the frequency of the radio waves, acquired from the storage means for distributing the MAP data that has been mapped to a predetermined area showing the instruction input accepted,
Receiving means for receiving from the distribution device the map data supplied by radio waves of the frequency acquired by the acquiring means;
Display means for displaying a map indicated by the map data received by the receiving means;
It is characterized by providing.
[0012]
The receiving terminal further comprises measuring means for measuring the coordinates of the current position of the receiving terminal,
The storage means further stores in advance a correspondence between coordinates representing the position of the predetermined area and the frequency at which the map data of the predetermined area is distributed,
The acquisition unit may further acquire, from the storage unit , a frequency for distributing the map data of the predetermined area , which is associated with the measured coordinates of the current position.
[0013]
The receiving terminal may be mounted on a vehicle, and the display unit may display a map indicated by the map data and information indicating the current position in an overlapping manner.
[0015]
The storage means further stores advertisement data in association with the predetermined area,
The transmission means further transmits advertisement data corresponding to the predetermined area,
The receiving means further receives the advertisement data transmitted by the transmitting means,
The display means may display an advertisement indicated by the advertisement data together with the map.
[0019]
The receiving terminal according to the second aspect of the present invention is:
Storage means for previously storing information indicating a plurality of predetermined areas divided for each prefecture or state and information indicating the frequency of radio waves for distributing map data of the predetermined areas;
Instruction input for selecting any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data that is always distributed via the digital communication satellite separately for each predetermined area the accepts from the user, an acquisition unit that the frequency of the radio waves, acquired from the storage means for distributing the MAP data that has been mapped to a predetermined area showing the instruction input accepted,
Receiving means for receiving, from a distribution device, the map data supplied by radio waves of the frequency acquired by the acquiring means;
Display means for displaying a map indicated by the map data received by the receiving means;
It is characterized by providing.
[0020]
The data distribution method according to the third aspect of the present invention is:
A data distribution method executed by an apparatus having storage means,
The storage means stores in advance information indicating a plurality of predetermined areas divided for each prefecture or state and information indicating the frequency of radio waves for distributing map data of the predetermined areas,
Instruction input for selecting any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data that is always distributed via the digital communication satellite separately for each predetermined area the accepts from the user, an acquisition step of the frequency of the radio waves, acquired from the storage means for distributing the MAP data that has been mapped to a predetermined area showing the instruction input accepted,
A receiving step of receiving from the distribution device the map data supplied by radio waves of the frequency acquired in the acquiring step;
A display step of displaying a map indicated by the map data received by the receiving step;
It is characterized by providing.
[0022]
The program according to the fourth aspect of the present invention is:
Computer
Storage means for previously storing information indicating a plurality of predetermined areas divided for each prefecture or state and information indicating the frequency of radio waves for distributing map data of the predetermined areas;
Instruction input for selecting any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data that is always distributed via the digital communication satellite separately for each predetermined area the accepts from the user, acquisition means for the frequency of a radio wave to deliver MAP data that has been mapped to a predetermined area showing the instruction input received is acquired from the storage means,
Receiving means for receiving the map data supplied by radio waves of the frequency acquired by the acquiring means;
Display means for displaying a map indicated by the map data received by the receiving means;
To function as.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Next, a data distribution system according to an embodiment of the present invention will be described with reference to the drawings.
[0024]
As shown in FIG. 1, the data distribution system according to the embodiment of the present invention includes a data communication service station 1, a digital communication satellite 2, and an in-vehicle device 3.
[0025]
The data communication service station 1 distributes map data used for navigation or the like via the digital communication satellite 2. As shown in FIG. 1, the data communication service station 1 includes a database 11 and a transmission device 12.
[0026]
The database 11 stores map data used for navigation and the like.
The map data in the database 11 is regularly updated in the data communication service station 1 and is always maintained to be the latest map data.
[0027]
The map data may be stored in the database 11 separately for each region (prefecture or state). In this way, when updating the map data, it is only necessary to update the map data in the area where the change has occurred, and therefore the map data can be updated in a short time.
[0028]
The transmission device 12 includes an oscillator, a modulation circuit, and the like. The transmission device 12 always distributes the map data stored in the database 11 using digital communication satellite broadcast waves. Specifically, the transmission device 12 distributes the map data using broadcast waves having different frequencies (channels) for each region. Thus, by changing the frequency used for each region, the amount of data distributed in one frequency band can be reduced.
[0029]
The in-vehicle device 3 is used by being mounted on a vehicle. The in-vehicle device 3 has a plurality of operation modes, for example, a navigation mode and a map display mode.
In the navigation mode, the in-vehicle device 3 receives a digital communication satellite broadcast wave of a channel in which map data of a region including the current position of the vehicle is distributed. The in-vehicle device 3 displays a map of the region including the current position of the vehicle together with the current position of the vehicle.
[0030]
In the map display mode, the in-vehicle device 3 receives the digital communication satellite broadcast wave of the channel to which the map data of the area selected by the user of the in-vehicle device 3 is distributed. And the vehicle equipment 3 displays the map of the area which the user selected.
[0031]
As shown in FIG. 1, the in-vehicle device 3 includes a receiving device 31, a positioning device 32, a display device 33, and a control device 34.
The receiving device 31 includes a tuner and a demodulation circuit. The receiving device 31 receives a digital communication satellite broadcast wave having a predetermined frequency (channel) among the digital communication satellite broadcast waves transmitted by the data communication service station 1 under the control of the control device 34. In other words, the receiving device 31 selects a frequency (channel) to which map data of a predetermined area is distributed under the control of the control device 34. Then, the receiving device 31 demodulates the selected digital communication satellite broadcast wave, restores the map data of the predetermined area, and outputs it to the control device 34.
[0032]
The positioning device 32 includes a GPS (Global Positioning System) terminal or the like, and obtains the current position (current coordinates) of the vehicle on which the positioning device 32 is mounted. Then, the positioning device 32 outputs position data indicating the obtained current position to the control device 34.
[0033]
The display device 33 includes a liquid crystal panel and the like, and displays various screens under the control of the control device 34. For example, the display device 33 displays a region selection screen, a map display screen, a navigation screen, and the like.
[0034]
The region selection screen is a screen for selecting map data distributed separately for each region, and displays, for example, a button for a region where map data is distributed as shown in FIG.
[0035]
For example, as shown in FIG. 2B, the map display screen shows a map of the area selected by the user of the in-vehicle apparatus 3 on the area selection screen.
For example, as shown in FIG. 2C, the navigation screen shows the current position of the vehicle and its surrounding map.
[0036]
The display device 33 includes a touch panel and / or operation buttons. The user of the in-vehicle device 3 can switch the operation mode of the in-vehicle device 3 or select a desired region on the region selection screen by touching the screen of the display device 33 or pressing an operation button. . In response to a user operation, the display device 33 outputs a mode setting signal for instructing setting of an operation mode, a region selection signal indicating a region selected by the user, and the like to the control device 34.
[0037]
The control device 34 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), and the like. The control device 34 stores a program and data provided in advance.
[0038]
Specifically, the control device 34 includes a navigation program for performing a navigation operation, a map display program for displaying a map of a region selected by the user, a coordinate-Ch correspondence table, a region-Ch correspondence table, and the like. Stored in advance.
[0039]
As shown in FIG. 3A, the coordinate-Ch correspondence table associates the channel to which the map data of each area is distributed with the coordinates (boundary coordinates) of each area.
As shown in FIG. 3B, the region-Ch correspondence table associates each region with a channel to which map data of each region is distributed.
[0040]
The control device 34 controls the operation of the in-vehicle device 3 according to the navigation program, and sets the in-vehicle device 3 to the navigation mode. Moreover, the control apparatus 34 controls operation | movement of the vehicle-mounted apparatus 3 according to a map display program, and sets the vehicle-mounted apparatus 3 to map display mode. Detailed operation of the control device 34 will be described later.
[0041]
Next, the operation of the data distribution system will be described.
(Navigation behavior)
First, the navigation operation will be described.
[0042]
The transmission device 12 of the data communication service station 1 always distributes the map data stored in the database 11 using digital communication satellite broadcast waves having different frequencies (channels) for each region.
[0043]
The user of the in-vehicle device 3 operates a touch panel and / or an operation button provided in the display device 33 to set the in-vehicle device 3 to the navigation mode.
Specifically, in response to a user operation, the display device 33 outputs to the control device 34 a mode setting signal that instructs to set the in-vehicle device 3 to the navigation mode. In response to the mode setting signal supplied from the display device 33, the control device 34 operates in accordance with a navigation program stored in advance. Thereby, the vehicle-mounted device 3 is set to the navigation mode.
[0044]
FIG. 4 is a flowchart showing an operation performed by the in-vehicle device 3 set in the navigation mode.
The positioning device 32 obtains the current position (current coordinates) of the vehicle on which it is mounted and outputs position data indicating the obtained current position to the control device 34 (step S101).
[0045]
In response to the position data supplied from the positioning device 32, the control device 34 refers to the coordinate-Ch correspondence table stored in advance, and distributes the map data of the area including the current position (channel). Is identified (step S102).
[0046]
The control device 34 controls the receiving device 31 to cause the receiving device 31 to receive a digital communication satellite broadcast wave having the specified frequency.
Under the control of the control device 34, the receiving device 31 receives a digital communication satellite broadcast wave having a frequency specified by the control device 34 among the digital communication satellite broadcast waves supplied from the data communication service station 1 via the digital communication satellite 2. Receive (step S103).
[0047]
Then, the receiving device 31 demodulates the received digital communication satellite broadcast wave to restore map data around the current position of the vehicle, and outputs the restored map data to the control device 34 (step S104).
[0048]
The control device 34 generates navigation screen data using the map data supplied from the receiving device 31 and the position data supplied from the positioning device 32, and outputs the navigation screen data to the display device 33 (step S105).
[0049]
The display device 33 displays a navigation screen as shown in FIG. 2C according to the data supplied from the control device 34 (step S106).
The above operations performed by the in-vehicle device 3 are repeatedly performed until the user instructs to end the navigation mode by operating a touch panel and / or an operation button provided in the display device 33.
[0050]
As described above, since necessary map data is selected from map data unilaterally supplied by digital communication satellite broadcast waves, there is no need to use a public line as in the prior art. Thereby, there is no charge for using the public line, and the financial burden on the user is small.
[0051]
Moreover, since the map data is updated in the data communication service station 1, the user can always obtain the latest map data without updating the data.
Moreover, the vehicle-mounted device 3 does not require a recording medium on which map data is recorded as in the prior art. For this reason, the vehicle-mounted device 3 can be made smaller than the conventional one.
[0052]
(Map display operation)
Next, an operation in which the data distribution system displays a map of an area selected by the user will be described.
[0053]
Similarly to the above, the transmission device 12 of the data communication service station 1 always distributes the map data stored in the database 11 using digital communication satellite broadcast waves having different frequencies (channels) for each region. Yes.
[0054]
A user of the in-vehicle device 3 operates a touch panel and / or an operation button provided in the display device 33 to set the in-vehicle device 3 in the map display mode.
Specifically, the display device 33 outputs a mode setting signal that instructs to set the vehicle-mounted device 3 to the map display mode in response to a user operation. In response to the mode setting signal supplied from the display device 33, the control device 34 operates in accordance with a map display program stored in advance. Thereby, the vehicle-mounted apparatus 3 is set to map display mode.
[0055]
FIG. 5 is a flowchart showing an operation performed by the in-vehicle device 3 set in the map display mode.
First, in accordance with the map display program, the control device 34 generates region selection screen data for selecting a region (map) to be displayed, and outputs the generated region selection screen data to the display device 33 (step S201). ).
[0056]
The display device 33 displays an area selection screen as shown in FIG. 2A in accordance with the data supplied from the control device 34 (step S202).
The user operates a touch panel and / or operation buttons provided in the display device 33 to select a desired region.
[0057]
The display device 33 outputs a region selection signal indicating the region selected by the user to the control device 34 in response to a user operation.
In response to the area selection signal supplied from the display device 33, the control device 34 refers to the area-Ch correspondence table stored in advance, and the map data of the area indicated by the supplied area selection signal is distributed. A specific frequency (channel) is specified (step S203).
[0058]
The control device 34 controls the receiving device 31 to cause the receiving device 31 to receive a digital communication satellite broadcast wave having the specified frequency.
Under the control of the control device 34, the receiving device 31 receives a digital communication satellite broadcast wave having a frequency specified by the control device 34 among the digital communication satellite broadcast waves supplied from the data communication service station 1 via the digital communication satellite 2. Receive (step S204).
[0059]
Then, the receiving device 31 demodulates the received digital communication satellite broadcast wave to restore the map data of the area selected by the user, and outputs the restored map data to the control device 34 (step S205).
[0060]
The control device 34 generates map display screen data for displaying a map using the map data supplied from the receiving device 31, and outputs the data to the display device 33 (step S206).
[0061]
The display device 33 displays a map of the area selected by the user on the map display screen according to the data supplied from the control device 34 (step S207). Thereby, the user can see the map of the desired area.
[0062]
As described above, since the map data is unilaterally supplied by the digital communication satellite broadcast wave, it is not necessary to use a public line as in the prior art. Thereby, there is no charge for using the public line, and the financial burden on the user is small.
[0063]
Also, since map data for different regions is supplied by digital communication satellite broadcast waves of different frequencies, users can easily select map data for the desired region as if they were selecting the radio station they wanted to listen to. Can do.
[0064]
Moreover, since the map data is updated in the data communication service station 1, the user can always obtain the latest map data without updating the data.
Moreover, the vehicle-mounted device 3 does not require a recording medium on which map data is recorded as in the prior art. For this reason, the vehicle-mounted device 3 can be made smaller than the conventional one.
[0065]
The database 11 may store road information (information such as traffic congestion, traffic regulation, construction, and accidents) in each region together with map data in each region. In addition, the transmission device 12 may always unidirectionally distribute road information of each region together with map data of each region by a digital communication satellite broadcast wave. The receiving device 31 may restore the road information together with the map data, and the display device 33 may display the road information together with the map.
[0066]
The database 11 may store various advertisement data, and the transmission device 12 may unidirectionally distribute the various advertisement data by a digital communication satellite broadcast wave having a predetermined frequency. Then, the receiving device 31 may receive digital communication satellite broadcast waves having a predetermined frequency at a predetermined timing to restore the advertisement data. The display device 33 may display various advertisements together with a map, for example, as shown in FIG.
[0067]
In addition, when the transmission device 12 distributes various types of advertisement data, the transmission device 12 classifies the various types of advertisement data for each region related to the advertisement, and constantly distributes the one-sided manner using digital communication satellite broadcast waves having different frequencies for each region. May be. In this case, the receiving device 31 may restore the advertisement data in the same area as the map data to be restored, and the display device 33 may display the advertisement together with the map.
By distributing the advertisement data as described above, it is possible to obtain advertisement revenue and to suppress the selling price of the in-vehicle device 3.
[0068]
Further, if the data can be distributed through different channels for each region, the digital communication satellite 2 may not be used. In other words, digital communication satellite broadcast waves need not be used. For example, the data may be distributed via a terrestrial broadcast wave or the Internet.
[0069]
Moreover, the vehicle-mounted apparatus 3 does not need to be mounted in a vehicle. For example, the user may carry and carry it like a portable terminal.
[0070]
The apparatus of the present invention does not need to use a dedicated apparatus, and can be realized by a normal computer. For example, a program and data for causing a computer to execute each process described above are recorded and distributed on a recording medium (FD, CD-ROM, DVD, semiconductor memory, etc.), installed, and executed on the OS. By doing so, the apparatus of the present invention can be realized. The program and data may be stored in a disk device or the like of a server device on the Internet, and downloaded to a computer, for example, superimposed on a carrier wave.
[0071]
【The invention's effect】
As is clear from the above description, data can be distributed at a low cost according to the present invention.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a data distribution system according to an embodiment of the present invention.
2A is a diagram showing a region selection screen displayed by a display device of an in-vehicle device constituting the data distribution system of FIG. 1, and FIG. 2B is a map screen displayed by the display device. It is a figure and (c) is a figure which shows the navigation screen which a display apparatus displays.
FIG. 3A is a diagram showing a coordinate-Ch correspondence table stored in the control device of the in-vehicle apparatus, and FIG. 3B is a diagram showing a region-Ch correspondence table stored in the control device.
FIG. 4 is a flowchart showing an operation performed by the in-vehicle device set in the navigation mode.
FIG. 5 is a flowchart showing an operation performed by the in-vehicle device set in the map display mode.
FIG. 6 is a diagram showing a screen on which an advertisement is displayed on the display device of the in-vehicle device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Data communication service station 2 Digital communication satellite 3 In-vehicle apparatus 11 Database 12 Transmission apparatus 31 Reception apparatus 32 Positioning apparatus 33 Display apparatus 34 Control apparatus

Claims (7)

A distribution device for distributing map data of a plurality of predetermined areas divided by each prefecture or state;
A receiving terminal for receiving the map data distributed by the distribution device;
A data distribution system comprising:
The distribution device includes:
Storage means for storing map data of the plurality of predetermined areas;
The map data stored in the storage means, and via a digital communication satellite, always transmitting with a radio wave of a different frequency for each predetermined area,
The receiving terminal is
Storage means for storing in advance the information indicating the predetermined area and the information indicating the frequency of the radio wave distributing the map data of the predetermined area in association with each other;
Instruction input from the user of the receiving terminal to select any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data distributed separately for each predetermined area the accepts an acquisition unit for the frequency of the radio waves, acquired from the storage means for distributing the MAP data that has been mapped to a predetermined area showing the instruction input accepted,
Receiving means for receiving from the distribution device the map data supplied by radio waves of the frequency acquired by the acquiring means;
Display means for displaying a map indicated by the map data received by the receiving means;
A data distribution system comprising: The receiving terminal further comprises measuring means for measuring the coordinates of the current position of the receiving terminal,
The storage means further stores in advance a correspondence between coordinates representing the position of the predetermined area and the frequency at which the map data of the predetermined area is distributed,
The acquisition means further acquires, from the storage means, a frequency for distributing the map data of the predetermined area, which is associated with the coordinates of the measured current position.
The data distribution system according to claim 1. The receiving terminal is mounted on a vehicle,
The display means displays the map indicated by the map data and the information indicating the current position in an overlapping manner.
The data distribution system according to claim 2. The storage means further stores advertisement data in association with the predetermined area,
The transmission means further transmits advertisement data corresponding to the predetermined area,
The receiving means further receives the advertisement data transmitted by the transmitting means,
The display means displays an advertisement indicated by the advertisement data together with the map.
The data distribution system according to claim 1, wherein the data distribution system is a data distribution system. Storage means for previously storing information indicating a plurality of predetermined areas divided for each prefecture or state and information indicating the frequency of radio waves for distributing map data of the predetermined areas;
Instruction input for selecting any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data that is always distributed via the digital communication satellite separately for each predetermined area the accepts from the user, an acquisition unit that the frequency of the radio waves, acquired from the storage means for distributing the MAP data that has been mapped to a predetermined area showing the instruction input accepted,
Receiving means for receiving, from a distribution device, the map data supplied by radio waves of the frequency acquired by the acquiring means;
Display means for displaying a map indicated by the map data received by the receiving means;
A receiving terminal comprising: A data distribution method executed by an apparatus having storage means,
The storage means stores in advance information indicating a plurality of predetermined areas divided for each prefecture or state and information indicating the frequency of radio waves for distributing map data of the predetermined areas,
Instruction input for selecting any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data that is always distributed via the digital communication satellite separately for each predetermined area the accepts from the user, an acquisition step of the frequency of the radio waves, acquired from the storage means for distributing the MAP data that has been mapped to a predetermined area showing the instruction input accepted,
A receiving step of receiving from the distribution device the map data supplied by radio waves of the frequency acquired in the acquiring step;
A display step of displaying a map indicated by the map data received by the receiving step;
A data distribution method comprising: Computer
Storage means for previously storing information indicating a plurality of predetermined areas divided for each prefecture or state and information indicating the frequency of radio waves for distributing map data of the predetermined areas;
Instruction input for selecting any one predetermined area from among the plurality of predetermined areas displayed on the area selection screen for selecting map data that is always distributed via the digital communication satellite separately for each predetermined area the accepts from the user, acquisition means for the frequency of a radio wave to deliver MAP data that has been mapped to a predetermined area showing the instruction input received is acquired from the storage means,
Receiving means for receiving the map data supplied by radio waves of the frequency acquired by the acquiring means;
Display means for displaying a map indicated by the map data received by the receiving means;
Program to function as.

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