JP2004320194A - Mobile terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile terminal for accurately informing a user about data denoting its own position. <P>SOLUTION: When the user operates the mobile terminal (1), the mobile terminal (1) automatically measures its own position, downloads map data denoting its own position among map data groups from a map server (4) and displays the result on the display section of the mobile terminal (1). Thus, the mobile terminal (1) can accurately inform the user about data representing its own position (map data) more than technology of the prior art wherein the user manually enters its own position (present location) having already been grasped in advance to acquire map data. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile terminal including a mobile phone, a PHS (Personal Handyphone System), and a PDA (Personal Digital Assistant).
[0002]
[Prior art]
A technique for notifying a user of his / her own position (current position) is known. This technique is described, for example, in Patent Document 1. In the technique described in Patent Literature 1 (particularly paragraph 0022), the address of a building is displayed on a display device to notify the user. However, according to the technology described in Patent Literature 1, even if an address is displayed on the display device, if the user is on a land that the user does not know, the user gets lost. It is desired to accurately notify a user of data representing his / her position.
[0003]
Techniques for acquiring map data are known. This technique is described in, for example, Patent Documents 2 and 3. In the technology described in Patent Literature 2 (especially paragraph 0029) and the technology described in Patent Literature 3 (especially paragraph 0030), a user manually inputs his / her own position (current location) to acquire map data. I have. However, in the techniques described in Patent Documents 2 and 3, since the user must know his or her own position in advance, if the user manually inputs the wrong position, the user can accurately map data. It is difficult to notify. As a result, if the user is on a land that the user does not know, the user gets lost. It is desired to accurately notify a user of data representing his / her position.
[0004]
[Patent Document 1]
JP-A-2002-209245
[Patent Document 2]
JP-A-2002-351308
[Patent Document 3]
JP-A-2002-229993
[0005]
[Problems to be solved by the invention]
An object of the present invention is to provide a mobile terminal capable of accurately notifying a user of data representing his / her position.
Another object of the present invention is to provide a mobile terminal that does not cause the user to get lost.
Still another object of the present invention is to provide a portable terminal capable of selecting data representing its own position according to a communication environment.
[0006]
[Means for Solving the Problems]
The means for solving the problem will be described below using the numbers and symbols used in [Embodiments of the Invention]. These numbers and symbols are added to clarify the correspondence between the description of [Claims] and the description of [Embodiments of the Invention]. It should not be used to interpret the technical scope of the described invention.
[0007]
The base station terminal (3) is connected to the portable terminal (1) of the present invention (first to fourth embodiments) via a network (7). The base station terminal (3) is provided in the base station (9). A map server (4) is connected to the base station terminal (3) via a network (8). The map server (4) includes a map database (5) in which a map data group is stored. The mobile terminal (1) according to the present invention (first to fourth embodiments) includes a position measurement unit {19, 10, 11 (21)} and an access request unit {16, 10, 11 (31)}. , Communication speed measuring unit {16, 10, 11 (32)}, communication speed comparing unit {10, 11 (33)}, map data requesting unit {16, 10, 11 (34)}, display unit ( 14) and a display control unit {10, 11 (42)}.
The position measurement unit {19, 10, 11 (21)} measures its own position (S12, S13). The access request unit {16, 10, 11 (31)} makes an access request to the map server (4) (S22). The communication speed measurement unit {16, 10, 11 (32)} measures the communication speed (V) when accessing the map server (4) (S23). The communication speed comparison unit {10, 11 (33)} compares the communication speed (V) with a set communication speed (described later) (S24). The map data requesting unit {16, 10, 11 (34)} converts the map data representing its own position in the map data group based on the comparison result between the communication speed (V) and the set communication speed (described later). Download from the map server (4) (described later). The display control unit {10, 11 (42)} displays the map data on the display unit (14) (S28).
According to the portable terminal (1) of the present invention (first to fourth embodiments), when the user operates the portable terminal (1), the portable terminal (1) automatically measures its own position. The map data representing the own position in the map data group is downloaded from the map server (4) and displayed on the display unit (14). For this reason, according to the portable terminal (1) of the present invention (first to fourth embodiments), the user manually inputs his / her own position (current position) known in advance to acquire map data. Compared to the conventional technology, it is possible to accurately notify the user of data (map data) representing his / her own position.
According to the mobile terminal (1) of the present invention (first to fourth embodiments), when the user is on a land that the user does not know, the user can display his / her own information displayed on the display unit (14) of the mobile terminal (1). Since you can move while looking at the map data representing the position, you will not get lost.
In a PDC (Personal Digital Cellular) or a GPRS (General Packet Radio System) applied to a communication system, a plurality of terminals can use one time slot depending on a communication environment. Therefore, the communication speed (V) changes according to the communication environment between the portable terminal (1) and the map server (4). Examples of the communication environment include the state of radio waves during communication and the increase and decrease of traffic. According to the portable terminal (1) of the present invention (first to fourth embodiments), data (map data) representing its own position can be selected according to the communication environment.
[0008]
In the portable terminal (1) according to the present invention (first / second embodiment, fourth embodiment), the map data requesting unit {16, 10, 11 (34)} includes the first map data requesting unit {16, 10}. , 11 (35)} and a second map data request unit {16, 10, 11 (36)}.
The first map data request unit {16, 10, 11 (35)} generates a map based on the first comparison result (S24-YES, S41-YES) between the communication speed (V) and the set communication speed (A). First map data (61/71) representing the own position in the data group is downloaded from the map server (4) as the above-mentioned map data (S25 / S29, S26). According to the portable terminal (1) of the present invention (first / second embodiment, fourth embodiment), the data {first map data (61/71)} representing its own position is selected according to the communication environment. can do.
The second map data request unit {16, 10, 11 (36)} outputs a second comparison result (S24-NO, S41-NO) other than the first comparison result between the communication speed (V) and the set communication speed (A). ), The second map data (62/72) representing the own position in the map data group is downloaded from the map server (4) as the above-mentioned map data (S27 / S30, S26). According to the portable terminal (1) of the present invention (first / second embodiment, fourth embodiment), the data {second map data (62/72)} representing its own position is selected according to the communication environment. can do.
[0009]
In the portable terminal (1) of the present invention (first embodiment), the second map data (62) is larger than the first map data (61). The second map data (62) displayed on the display unit (14) is scrolled by a user operation.
The second map data (62) has a larger data amount and a larger capacity than the first map data (61). Therefore, when the first map data (61) and the second map data (62) are not selected according to the communication environment, the first map data (61) is requested to be downloaded from the first map data (61) for a second time longer than the first time. The second time from requesting the map data (62) to downloading it is longer. Therefore, the time difference between the first time and the second time increases.
According to the portable terminal (1) of the present invention (first embodiment), the first map data (61) and the second map data (62) are selected according to the communication environment, so that the first map data (61) is selected. The time difference can be reduced as compared with the case where the second map data (62) is not selected according to the communication environment.
[0010]
In the portable terminal (1) of the present invention (second embodiment), the second map data (72) includes map data (71 ′) obtained by reducing the first map data (71).
The first map data (71) details buildings (housings), roads, railway lines, rivers, and the like existing around the current location, and the second map data (72) shows buildings (housings) existing around the current location. ), Roads, railway lines, rivers, etc. Therefore, the second map data (72) has a larger data amount and a larger capacity than the first map data (71). Therefore, when the first map data (71) and the second map data (72) are not selected according to the communication environment, the first map data (71) is requested to be downloaded from the first map data (71) until the second time is longer than the first time. The second time from requesting the map data (72) to downloading it is longer. Therefore, the time difference between the first time and the second time increases.
According to the portable terminal (1) of the present invention (second embodiment), the first map data (71) and the second map data (72) are selected according to the communication environment, so that the first map data (71) is selected. The time difference can be reduced as compared with the case where the second map data (72) is not selected according to the communication environment.
[0011]
In the portable terminal (1) of the present invention (fourth embodiment), the map data request unit {16, 10, 11 (34)} further includes a third map data request unit {16, 10, 11 (37)}. And a fourth map data request unit {16, 10, 11 (38)}.
The second map data request unit {16, 10, 11 (36)} communicates a second comparison result (S41-NO) between the communication speed (V) and the first set communication speed (C) as the set communication speed, and Based on a third comparison result (S42-YES) between the speed (V) and the second set communication speed (D), the second map data (72) is downloaded from the map server (4) as the above-described map data. (S30, S26).
The third map data request unit {16, 10, 11 (37)} is different from the second comparison result (S41-NO) and the third comparison result between the communication speed (V) and the second set communication speed (D). Of the map data group based on the fourth comparison result (S42-NO) and the fifth comparison result (S43-YES) of the communication speed (V) and the third set communication speed (E). The third map data (73) representing the position is downloaded from the map server (4) as the above-mentioned map data (S44, S26). According to the portable terminal (1) of the present invention (fourth embodiment), the data representing the own position {third map data (73)} can be selected according to the communication environment.
The fourth map data request unit {16, 10, 11 (38)} transmits the second comparison result (S41-NO), the fourth comparison result (S42-NO), the communication speed (V), and the third setting communication. Based on the sixth comparison result (S43-NO) other than the fifth comparison result with the speed (E), the fourth map data (74) representing the own position in the map data group is used as the above-described map data. Download from the map server (4) (S45, S26). According to the portable terminal (1) of the present invention (fourth embodiment), the data representing the own position {fourth map data (74)} can be selected according to the communication environment.
[0012]
In the portable terminal (1) of the present invention (fourth embodiment), the third map data (73) includes the second map data (72) and the first content in text format related to the second map data (72). And The fourth map data (74) includes second map data (72) and second content related to the second map data (72). The second content includes the first content and an image related to the first content.
The first map data (71) details buildings (housings), roads, railway lines, rivers, and the like existing around the current location, and the second map data (72) shows buildings (housings) existing around the current location. ), Roads, railway lines, rivers, etc. Therefore, the second map data (72) has a larger data amount and a larger capacity than the first map data (71). Since the first content is a sentence for explaining the building (house), road, railway line, and river, the third map data (73) has a larger amount of data than the second map data (72). The fourth map data (74) is the third map data (73) because the capacity is heavy and the images included in the second content are photographs of the buildings (houses), roads, railway lines, and rivers. The amount of data is larger and the capacity is heavier. As described above, the amount of data is large in the order of the fourth map data (74), the third map data (73), the second map data (72), and the first map data (71). Map data (74), third map data (73), second map data (72), and first map data (71) are heavier in this order.
Therefore, when the first map data (71), the second map data (72), the third map data (73), and the fourth map data (74) are not selected according to the communication environment, the first map data (71). The second time from requesting the second map data (72) to downloading it is longer than the first time from requesting and downloading the second map data (72), and the time difference between the first time and the second time is larger. Become. Similarly, the third time from when the third map data (73) is requested to when it is downloaded is longer than the second time, and the time difference between the first and second times and the third time is larger. Similarly, the fourth time from requesting the fourth map data (74) to downloading the fourth map data (74) is longer than the third time, and the time difference between the first to third times and the fourth time is larger.
According to the portable terminal (1) of the present invention (fourth embodiment), the first map data (71), the second map data (72), the third map data (73), and the fourth map data (74) are When the first map data (71), the second map data (72), the third map data (73), and the fourth map data (74) are not selected according to the communication environment, the selection is made according to the communication environment. In comparison, the above time difference can be reduced.
[0013]
In the portable terminal (1) of the present invention (first to fourth embodiments), the position measuring units {19, 10, 11 (21)} measure their own positions using radio waves (S12, S13). The radio waves are used when communicating with a GPS (Global Positioning System) satellite (2).
[0014]
In the portable terminal (1) of the present invention (third embodiment), the position measuring units {19, 16, 10, 11 (21)} are a stand-alone method for measuring their own position and a positioning method defined by GPS. One of the network assist method for measuring the position of the user using the auxiliary data is selected and executed.
Examples of the positioning assistance data include almanac data (Almanac Data) and ephemeris data (Ephemeris Data). According to the mobile terminal (1) of the present invention (third embodiment), in addition to the above-described effects, one of the stand-alone method and the network assist method is selected and executed, so that the position of the mobile terminal is reliably acquired. can do.
[0015]
In the portable terminal (1) of the present invention (third embodiment), the base station access request unit {16, 10, 11 (22)} and the base station communication speed measurement unit # 16, 10, 11 (23) And a base station communication speed comparison unit {10, 11 (24)}.
The base station access request unit {16, 10, 11 (22)} requests access to the base station terminal (3) provided in the base station (9) via the network (7) (S31, S33). The base station communication speed measurement unit {16, 10, 11 (23)} measures the base station communication speed (X) when accessing the base station terminal (3) (S34). The base station communication speed comparison unit {10, 11 (24)} compares the base station communication speed (X) with the base station set communication speed (B) (S35).
The position measurement units {19, 16, 10, 11 (21)} determine whether the standalone system and the network assist system are based on the comparison result between the base station communication speed (X) and the base station set communication speed (B). Select one and execute.
The base station communication speed (X) changes according to the communication environment between the mobile terminal (1) and the base station terminal (3). Examples of the communication environment include the state of radio waves during communication and the increase and decrease of traffic. According to the portable terminal (1) of the present invention (third embodiment), in addition to the above effects, one of the stand-alone method and the network assist method can be selected according to the communication environment. According to the portable terminal (1) of the present invention (third embodiment), when the network assist method is selected, the network assist method uses the positioning assistance data, so that the self-position is measured faster than the stand-alone method. can do.
[0016]
The mobile terminal (1) of the present invention (third embodiment) further includes a storage unit (12).
The base station access request unit {16, 10, 11 (22)} is the closest when accessing the base station terminal (3) of the base station (9) closest to itself among the plurality of base stations (9). The position (57) (base station area) of the base station (9) is stored in the storage unit (12) as its own position (S31).
The base station communication speed measuring unit {16, 10, 11 (23)} measures the base station communication speed (X) which is the communication speed when accessing the base station terminal (3) of the closest base station (9). (S34).
When the position measurement unit {19, 16, 10, 11 (21)} executes one of the stand-alone method and the network assist method and successfully measures its own position (S38-YES), the base station area Instead of the {location (57) of the nearest base station (9)}, its own location is stored in the storage unit (12) (S13). The map data requesting unit {16, 10, 11 (34)} refers to the own position stored in the storage unit (12) in the map data group, and converts the above-described map data representing the own position. Download from the map server (4).
As a result of the portable terminal (1) selecting and executing one of the stand-alone method and the network assist method, depending on the communication environment (the state of radio waves during communication) between the portable terminal (1) and the GPS satellite (2). In some cases, the measurement of the own position may fail. Even in this case, according to the mobile terminal (1) of the present invention (third embodiment), the base station area {the position (57) of the nearest base station (9)} is stored in the storage unit (12) as its own position. Since it is stored, its own position can be reliably obtained.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Examples of the portable terminal (position information acquisition portable terminal with a communication speed monitoring function) of the present invention include a portable telephone, a PHS (Personal Handyphone System), and a PDA (Personal Digital Assistant). An embodiment of a mobile phone as a mobile terminal according to the present invention will be described below with reference to the accompanying drawings.
[0018]
(1st Embodiment)
FIG. 1 is a block diagram showing a configuration of a communication system to which a mobile terminal (mobile phone) according to the first embodiment of the present invention is applied. The communication system includes a mobile phone 1 as a mobile terminal according to the present invention, a GPS (Global Positioning System) satellite 2, a base station terminal 3, and a map server 4. The base station terminal 3 is provided in the base station 9. The map server 4 belongs to a map provider. The base station terminal 3 is connected to the mobile phone 1 via a network 7 which is a wireless communication network (mobile phone network). The map server 4 is connected to the base station terminal 3 via a network 8. Network 8 includes a mobile telephone network and an Internet network. The map server 4 includes a map database 5 in which map data groups are stored. As a data format of each of the map data groups, a vector format (vector map data) and a raster format (raster map data) are exemplified. The GPS satellite 2 is connected to the mobile phone 1 via a network 6. A unique code is assigned to the GPS satellite 2.
[0019]
FIG. 2 is a block diagram showing a configuration of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention. The mobile phone 1 includes a CPU (Central Processing Unit) 10, a ROM (Read Only Memory) 11, a RAM (Random Access Memory) 12, an operation unit 13, a display unit 14, a power supply unit 15, a mobile phone wireless unit 16, and a GPS block 19. , A transmitting unit (not shown), a receiving unit (not shown), and a sounder (not shown).
The ROM 10, the RAM 12, the operation unit 13, the display unit 14, the power supply unit 15, the mobile phone wireless unit 16, the GPS block 19, the transmitting unit (not shown), and the receiving unit (not shown) are connected to the CPU 10 via a bus. . The above-mentioned base station terminal 3 is connected to the mobile phone radio section 16 via the network 7. The GPS block 19 includes a GPS decoder 17 connected to the CPU 10 and a GPS radio unit 18 connected to the GPS decoder 17. The above GPS satellites 2 are connected to the GPS radio unit 18 via the network 6.
A transmitting unit (not shown), a receiving unit (not shown), and a sounder (not shown) will be described later.
[0020]
The ROM 11 is a storage unit that stores a control program. The control program is a computer program to be executed by the CPU 10. The CPU 10 executes the control program to control the entire mobile phone 1.
The RAM 12 is a storage unit that stores the use of the CPU 10 as a work area and temporary settings (for example, position information described later). The operation unit 13 is operated when the user answers the call, when the user makes a call (when making a call request), and when the user acquires position information (when making a position information acquisition request).
The power supply unit 15 supplies power to the CPU 10, the ROM 11, the RAM 12, the operation unit 13, the display unit 14, the mobile phone wireless unit 16, and the GPS block 19 (GPS decoder 17, GPS wireless unit 18). As the power supply unit 15, a rechargeable battery is exemplified.
The mobile phone radio section 16 transmits and receives radio waves to and from the base station terminal 3 provided in the base station 9. The GPS radio unit 18 of the GPS block 19 receives a radio wave transmitted from the GPS satellite 2. The GPS decoder 17 of the GPS block 19 decodes a radio wave received by the GPS radio unit 18 and outputs the radio wave to the CPU 10. The CPU 10 executing the control program detects the latitude / longitude from the radio wave decoded by the GPS decoder 17 and acquires the position information {the position of the mobile phone 1 (self)} including the latitude / longitude.
[0021]
FIG. 3 is a block diagram showing a configuration of the ROM 11 of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention. The control programs stored in the ROM 11 include a position measurement control program 20. The position measurement control program 20 includes a position measurement unit 21. The position measurement unit 21 controls the GPS block 19 so that position information (the position of the mobile phone 1) is acquired using a unique code of the GPS satellite 2.
[0022]
The control program stored in the ROM 11 further includes a map data request control program 30. The map data request control program 30 includes an access request unit 31, a communication speed measurement (monitoring) unit 32, a communication speed comparison unit 33, and a map data request unit 34. The map data request unit 34 includes a first map data request unit 35 and a second map data request unit 36.
The access request unit 31 controls the mobile phone wireless unit 16 to make an access request to the map server 4 via the network 7, the base station terminal 3, and the network 8.
The communication speed measurement (monitoring) unit 32 controls the mobile phone radio unit 16 to measure (monitor) the communication speed when accessing the map server 4 via the network 7, the base station terminal 3, and the network 8.
The communication speed comparison unit 33 compares the communication speed with the set communication speed.
The first map data requesting unit 35 determines, based on the first comparison result between the communication speed and the set communication speed, the position information (the position of the mobile phone 1) of the map data group stored in the map database 5 of the map server 4. ) Is downloaded from the map server 4.
The second map data requesting unit 36 determines the position information of the map data group stored in the map database 5 of the map server 4 based on a second comparison result other than the first comparison result between the communication speed and the set communication speed. The second map data (described later) representing (the position of the mobile phone 1) is downloaded from the map server 4.
[0023]
In a PDC (Personal Digital Cellular) or a GPRS (General Packet Radio System) applied to a communication system, a plurality of terminals can use one time slot depending on a communication environment. For this reason, the above communication speed changes according to the communication environment between the mobile phone 1 and the map server 4. Examples of the communication environment include the state of radio waves during communication and the increase and decrease of traffic. Therefore, the map data (first map data, second map data) requested by the mobile phone 1 to the map server 4 is determined by the position information (the position of the mobile phone 1) and the communication environment (communication speed).
[0024]
The control program stored in the ROM 11 further includes a call control program 40. The call control program 40 includes a display control unit 42.
The display control unit 42 controls the display unit 14 so that a display screen is displayed. When displaying the downloaded map data (the first map data or the second map data) on the display unit 14, the display control unit 42 controls the display unit 14 so that the downloaded map data is displayed as a display screen. I do.
[0025]
As described above, according to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, when the user operates the mobile phone 1, the mobile phone 1 obtains the position information divided by the mobile phone 1 (self). The position｝ is automatically measured, and the map data (first map data, second map data) representing the position information (the position of the mobile phone 1) of the map data group is downloaded from the map server 4 and displayed on the display unit 14. In this case, the position information (the position of the mobile phone 1) is compared with a conventional technique in which the user manually inputs the position information (the position of the mobile phone 1 and the current location) which the user has grasped in advance and obtains the map data. The position data) (map data (first map data, second map data)) can be accurately notified to the user.
According to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, when the user is on a land unknown, the user indicates the position information (the position of the mobile phone 1) displayed on the display unit 14. Since the user can move while looking at the map data (first map data and second map data), the user does not get lost.
According to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, data representing location information (the position of the mobile phone 1) {map data (first map data, second map data)} is used in the communication environment. Can be selected according to
[0026]
The call control program 40 further includes a call control unit 41. The call control unit 41 performs the Internet and e-mail. A description of the Internet is omitted. When the mobile terminal of the present invention is the mobile phone 1, the call control unit 41 further performs a user call request process, a call process, and a destination call request process described later.
[0027]
The user call request processing performed by the call control unit 41 will be described.
When a user makes a call, the CPU 10 executes the call control unit 41, and the call control unit 41 (CPU 10) transmits a baseband signal representing a user call request to the mobile phone radio unit 16 by operating the operation unit 13 performed by the user. Output to The mobile phone radio section 16 converts a baseband signal (user call request) from the call control section 41 (CPU 10) into a radio signal for transmitting / transmitting, and converts the radio signal (user call request) to the network 7 and the base station. The transmission / transmission is performed to the other party's telephone via the station terminal 3 (base station 9). The radio signal (user call request) transmitted from the mobile phone 1 is transmitted to the other party via the network 8 by a not-shown telephone exchange and a base station terminal 3 (base station 9) when the other party's telephone is a mobile phone. When the call is transmitted to the telephone and the destination telephone is a wired telephone, it is converted into a wired signal (user call request) by a telephone exchange (not shown) and transmitted to the destination telephone via the network 8.
[0028]
When the other party answers the call, the call control unit 41 performs a call process.
A transmitting unit (not shown) inputs a user's voice and outputs the voice to the CPU 10. The call control unit 41 (CPU 10) converts a user voice signal (baseband signal) representing a user's voice from a transmitting unit (not shown) and outputs the baseband signal (user voice signal) to the mobile phone wireless unit 16. I do. The mobile phone radio section 16 converts a baseband signal (user voice signal) from the call control section 41 (CPU 10) into a radio signal (user voice signal) for transmission, and converts the radio signal to the network 7, the base station terminal. 3 (base station 9).
The mobile phone wireless unit 16 converts a wireless signal (a destination voice signal representing the voice of the destination) from the telephone of the destination to a baseband signal (a destination audio signal), and outputs a baseband signal (a destination audio signal). Is output to the call control unit 41 (CPU 10). The call control unit 41 (CPU 10) converts the baseband signal (the other party's voice signal) into voice for output by a receiver (not shown). A receiver (not shown) outputs the voice of the other party.
This call processing is performed until the other party or the user hangs up.
[0029]
The destination call request processing performed by the call control unit 41 will be described.
When the other party calls the mobile phone 1 using the other party's telephone, the mobile phone wireless unit 16 receives a wireless signal (the other party's call request) from the other party's phone and transmits a baseband signal (the other party's call request). ), And outputs the baseband signal to the call control unit 41 (CPU 10). The call control unit 41 (CPU 10) recognizes that there is an incoming call by collecting the baseband signal (the other party's call request) from the mobile phone wireless unit 16. The call control unit 41 (CPU 10) notifies the user of the incoming call by emitting a sound with a sounder (not shown). At this time, the CPU 10 executes the display control unit 42, and the display control unit 42 (CPU 10) controls the display unit 14 to display that there is a call from the other party.
When the user operates the mobile phone 1 to answer the call, the call control unit 41 performs the above-described call processing. This call processing is performed until the other party or the user hangs up.
[0030]
As shown in FIG. 3, the ROM 11 further stores a database 50 for displaying position information.
FIG. 4 shows information (data) stored in the position information display database 50 in the ROM 11 of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention. The location information display database 50 stores a location 52 for each location information 51. The position information 51 is information including latitude and longitude. The location 52 represents, for example, the address of a building built at a position corresponding to the latitude and longitude. When the position measurement unit 21 (CPU 10) measures the position information (the position of the mobile phone 1), the location 52 is displayed on the display unit 14 by the display control unit 42 (CPU 10).
[0031]
FIG. 5 shows information (data) stored in the map database 5 of the map server 4 in the communication system to which the mobile terminal according to the first embodiment of the present invention is applied. The map database 5 stores the first map data 61 (basic range map data) and the second map data 62 (wide range map data) in association with each other for the position information 60 as the above-described map data group. The first map data 61 (basic range map data) is the above-described first map data, the second map data 62 (wide-range map data) is the above-mentioned second map data, and the position information 60 indicates the latitude and longitude. It is information that includes.
[0032]
FIG. 6 shows a display range 66 in which the first map data 61 (basic range map data) is displayed on the display unit 14 and a second map data in the mobile terminal (mobile phone 1) according to the first embodiment of the present invention. 62 (wide area map data) indicates a display range 67 displayed on the display unit 14. As shown in FIG. 6, the display unit 14 has a rectangular shape having the size W, and the size W of the display unit 14 represents the area of the display unit 14 (the area of the display screen displayed by the display unit 14). .
[0033]
The display range 66 of the first map data 61 (basic range map data) is represented by a circle centered on the position information 60 (latitude / longitude). The area of the display range 66 (circle) is larger than the size W of the display unit 14, and the diameter of the display range 66 (circle) and the length of the diagonal line of the display unit 14 are the same. The center of the first map data 61 (basic range map data) is represented by the current location P. When the first map data request unit 35 (CPU 10) downloads the first map data 61 (basic range map data), the display control unit 42 (CPU 10) displays the first map data 61 (basic range map data). The display unit 14 is controlled so that the current position P “●” represented by the first map data 61 (basic range map data) is displayed at the intersection of the diagonal lines of the display unit 14.
[0034]
The second map data 62 (wide-range map data) is larger than the first map data 61 (basic range map data). The display range 67 of the second map data 62 (wide-range map data) is represented by a circle centered on the position information 60 (latitude / longitude). The area of the display range 67 (circle) is larger than the area of the display range 66 (circle). The center of the second map data 62 (wide-range map data) is represented by the current location P. When the second map data requesting unit 36 (CPU 10) downloads the second map data 62 (wide-range map data), the display control unit 42 (CPU 10) displays the second map data 62 (wide-range map data). The display unit 14 is controlled so that the current position P “●” represented by the two map data 62 (wide-range map data) is displayed at the intersection of the diagonal lines of the display unit 14.
The second map data 62 (wide-range map data) displayed on the display unit 14 is scrolled by the operation of the operation unit 14 performed by the user. The display control unit 42 (CPU 10) controls the display unit 14 so that the second map data 62 (wide-range map data) is scrolled and displayed by the amount scrolled by the operation of the operation unit 14.
[0035]
The second map data 62 (wide-range map data) has a larger data amount and a larger capacity than the first map data 61 (basic range map data). Therefore, when the first map data 61 and the second map data 62 are not selected according to the communication environment, the second map data 62 is requested more than the first time from the request of the first map data 61 to the download. The second time from downloading to downloading is longer. Therefore, the time difference between the first time and the second time increases.
According to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, the first map data 61 (basic range map data) and the second map data 62 (wide range map data) are selected according to the communication environment. Therefore, the time difference can be reduced as compared with a case where the first map data 61 and the second map data 62 are not selected according to the communication environment.
[0036]
FIG. 7 is a flowchart showing the operation of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention.
The CPU 10 executes a position information acquisition process for acquiring position information (the position of the mobile phone 1) by the position measurement control program 20 (position measurement unit 21) (step S1).
The CPU 10 includes a map data request control program 30 #access request unit 31, communication speed measurement (monitoring) unit 32, communication speed comparison unit 33, map data request unit 34 (first map data request unit 35, second map data request unit) 36) The map data requesting process for requesting the first map data 61 (basic range map data) or the second map data 62 (wide range map data) is executed by｝ and the call control program 40 (display control unit 42). (Step S2).
[0037]
FIG. 8 is a flowchart showing a position information acquisition process (step S1), which is an operation of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention.
The user makes a position information acquisition request using the operation unit 13 (step S11).
[0038]
When a position information acquisition request (step S11) is made, the CPU 10 executes the position measurement unit 21 stored in the ROM 11, and the position measurement unit 21 (CPU 10) uses the position code of the GPS satellite 2 to determine the position. The GPS block 19 is controlled so that information (the position of the mobile phone 1) is obtained. The GPS radio section 19 of the GPS block 19 receives the radio wave transmitted from the GPS satellite 2, and the GPS decoder 17 of the GPS block 19 decodes the radio wave received by the GPS radio section 18 and outputs it to the CPU 10 (step). S12).
[0039]
The position measurement unit 21 (CPU 10) detects the latitude and longitude from the radio wave decoded by the GPS decoder 17, and obtains position information including the latitude and longitude. The position measurement unit 21 (CPU 10) replaces the acquired position information with the accurate position information (the position of the mobile phone 1, the current location of the mobile phone 1) instead of the position information (the position of the mobile phone 1) previously stored in the RAM 12. ) Is stored (updated) in the RAM 12 (step S13).
[0040]
FIG. 9 is a flowchart showing a map data request process (step S2) as an operation of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention.
When the position information (the position of the mobile phone 1) is stored in the RAM 12, the CPU 10 executes the display control unit 42, and the display control unit 42 (CPU 10) executes the position information 51 stored in the position information display database 50. , The position information 51 corresponding to the position information (the position of the mobile phone 1) is selected. The display control unit 42 (CPU 10) selects the location 51 associated with the selected location information 51 from the locations 51 stored in the location information display database 50. The display control unit 42 (CPU 10) controls the display unit 14 so that the selected location 51 is displayed. The display control unit 42 (CPU 10) causes the display unit 14 to display a display notification for notifying the user whether to download and display the map data representing the position information (the position of the mobile phone 1). Control is performed (step S21).
As a result of the display notification being displayed on the display unit 14, when the user does not want to display the map data (when the user is satisfied with the location 51 previously displayed on the display unit 14), the user operates the operation unit 13 to display the map data. A data request processing end notification is made (step S21-No). In this case, the CPU 10 ends the map data request processing (step S2).
[0041]
As a result of the display notification being displayed on the display unit 14, when the user desires to display the map data, the user makes a map data request using the operation unit 13 (Step S21-Yes). When a map data request (Step S21-Yes) is made, the CPU 10 executes the access request unit 31, the communication speed measurement (monitoring) unit 32, the communication speed comparison unit 33, and the map data request unit 34 stored in the ROM 11. I do.
The access request unit 31 (CPU 10) controls the mobile phone radio unit 16 to make an access request to the map server 4 via the network 7, the base station terminal 3, and the network 8 (Step S22).
[0042]
The communication speed measurement (monitoring) unit 32 (CPU 10) controls the mobile phone radio unit 16 to calculate the communication speed V when accessing the map server 4 via the network 7, the base station terminal 3, and the network 8 ( Monitoring / measurement) (step S23). As a method of calculating the communication speed V, a method of calculating based on a packet retransmission frequency, a method of calculating based on a bit error rate per packet, and a method of calculating based on an amount of received data included in a packet and a reception time when the received data is received. And a method of calculating based on the time stamp of the received data included in the packet.
The communication speed comparison unit 33 (CPU 10) compares the communication speed V with the set communication speed A (step S24).
[0043]
When the communication speed V is lower than the set communication speed A as a first comparison result between the communication speed V and the set communication speed A (Step S24-Yes), the first map data requesting unit 35 (CPU 10) is stored in the RAM 12. The first map data 61 (basic range map data) representing the position information (the position of the mobile phone 1) is requested to the map server 4 by referring to the position information (the position of the mobile phone 1) (step S25). ).
The download request includes position information (the position of the mobile phone 1), first request information for requesting the first map data 61 (basic range map data), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the first request information included in the download request, the map server 4 outputs the first map data 61 (basic range map data) associated with the selected position information 60 from the map data group stored in the map database 5. ). The map server 4 transmits the selected first map data 61 (basic range map data) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 issues a bill for billing the user of the mobile phone 1 from a map provider for a communication fee for transmitting the first map data 61 (basic range map data) to the mobile phone 1. .
In PDC and GPRS, one terminal can use one time slot depending on the communication environment. Therefore, the communication speed V depends on the communication environment between the mobile phone 1 and the map server 4 (the communication environment). (The state of the radio wave, the increase or decrease of traffic). Therefore, according to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, data representing the location information {the position of the mobile phone 1 (self)} {first map data 61 (basic range map data)} Is preferably selected according to the communication environment.
[0044]
When the mobile phone radio section 16 receives the first map data 61 (basic range map data) from the map server 4, the first map data request section 35 (CPU 10) receives the first map data 61 (basic range map data). The map data 61 (basic range map data) is downloaded and stored in the RAM 12 (step S26).
[0045]
The display control unit 42 (CPU 10) controls the display unit 14 so that the first map data 61 (basic range map data) stored in the RAM 12 is displayed (Step S28).
[0046]
As a second comparison result between the communication speed V and the set communication speed A, when the communication speed V is equal to or higher than the set communication speed A (No in step S24), the second map data request unit 36 (CPU 10) stores the data in the RAM 12. With reference to the position information (the position of the mobile phone 1), a download request is made to the map server 4 for the second map data 62 (wide-range map data) representing the position information (the position of the mobile phone 1) (step S27).
The download request includes position information (the position of the mobile phone 1), second request information for requesting the second map data 62 (wide-range map data), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. In accordance with the second request information included in the download request, the map server 4 outputs the second map data 62 (wide-range map data) associated with the selected position information 60 from the map data group stored in the map database 5. Select The map server 4 transmits the selected second map data 62 (wide-range map data) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 issues a bill to charge the user of the mobile phone 1 from a map provider for a communication fee for transmitting the second map data 62 (wide-range map data) to the mobile phone 1.
As described above, according to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, the data representing the location information {the position of the mobile phone 1 (self)} ｛the second map data 62 (wide-range map data) ｝ Can be selected according to the communication environment.
[0047]
When the mobile phone wireless unit 16 receives the second map data 62 (wide-range map data) from the map server 4, the second map data requesting unit 36 (CPU 10) sends the second map data received by the mobile phone wireless unit 16. The data 62 (wide-range map data) is downloaded and stored in the RAM 12 (step S26).
[0048]
The display control unit 42 (CPU 10) controls the display unit 14 to display the second map data 62 (wide-range map data) stored in the RAM 12 (Step S28).
[0049]
According to the above description, according to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, when the user operates the mobile phone 1, the mobile phone 1 obtains location information ｛mobile phone 1 (self) Is automatically measured, and the map data representing the position information (the position of the mobile phone 1) out of the map data group {the first map data 61 (basic range map data) and the second map data 62 (wide area map) Data) @ is downloaded from the map server 4 and displayed on the display unit 14. For this reason, according to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, a user can manually input his / her own position (current location) known in advance to obtain map data. As compared with the technique of the above, it is possible to accurately notify the user of data representing the own position {first map data 61 (basic range map data), second map data 62 (wide range map data)}.
[0050]
According to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, when the user is on a land unknown, the user indicates the position information (the position of the mobile phone 1) displayed on the display unit 14. Since the user can move while viewing the map data {first map data 61 (basic range map data), second map data 62 (wide range map data)}, he or she does not get lost.
[0051]
According to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, data representing position information {the position of the mobile phone 1 (self)} {first map data 61 (basic range map data), second data Map data 62 (wide-range map data)} can be selected according to the communication environment.
[0052]
According to the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, the first map data 61 (basic range map data) and the second map data 62 (wide range map data) are selected according to the communication environment. I do. This is because if the second map data 62 does not select the first map data 61 and the second map data 62 according to the communication environment, the first map data 61 has a larger amount of data than the first map data 61 and has a larger capacity. The second time from requesting the second map data 62 to downloading is longer than the first time from requesting the map data 61 to downloading (the time difference between the first time and the second time is longer). It is to avoid that it becomes larger). For this reason, according to the portable terminal (mobile phone 1) according to the first embodiment of the present invention, the first map data 61 and the second map data 62 are compared with the case where the first map data 61 and the second map data 62 are not selected according to the communication environment. The time difference between the time and the second time can be reduced.
[0053]
(2nd Embodiment)
In the mobile terminal (mobile phone 1) according to the first embodiment of the present invention, the basic range map data equal to the size W of the display unit 14 ｛the diameter of the display range 66 (circle) and the length of the diagonal line of the display unit 14 are different. The same {} is defined as the first map data 61, and the wide-area map data larger than the size W of the display unit 14 {the area of the display range 67 (circle) is larger than the area of the display range 66 (circle)} is the second map data 62. , But is not limited to this.
In the portable terminal (mobile phone 1) according to the second embodiment of the present invention, the surrounding detailed map data that represents the buildings (houses), roads, railway lines, rivers, and the like present in the vicinity of the current location P in detail is described. As one map data, wide-range schematic map data simply representing buildings (houses), roads, railway lines, rivers, and the like existing around the current location P can be used as the second map data. In the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, description overlapping with the first embodiment will be omitted.
[0054]
FIG. 10 shows information (data) stored in the map database 5 of the map server 4 in the communication system to which the mobile terminal according to the second embodiment of the present invention is applied. In the map database 5, the first map data 71 (peripheral detailed map data) and the second map data 72 (wide-range schematic map data) are stored as a map data group for each position information 60. The display range in which the first map data 71 (peripheral detailed map data) and the second map data 72 (wide-range schematic map data) are displayed on the display unit 14 is the same as the display range 66 in the first embodiment.
[0055]
FIG. 11 shows first map data 71 (peripheral detailed map data) displayed on the display unit 14 in the portable terminal (mobile phone 1) according to the second embodiment of the present invention. When the first map data request unit 35 (CPU 10) downloads the first map data 71 (peripheral detailed map data), the display control unit 42 (CPU 10) displays the first map data 71 (peripheral detailed map data). The display unit 14 is controlled so that the current position P “●” represented by the first map data 71 (the surrounding detailed map data) is displayed at the intersection of the diagonal lines of the display unit 14.
As shown in FIG. 11, the current location P “●” (corresponding to the user and the mobile phone 1) represented by the first map data 71 (peripheral detailed map data) displayed on the display unit 14 is displayed on the display unit 14. Existing on the road represented by the first map data 71 (surrounding detail map data). At the same time, the current location P “●” (user, mobile phone 1) represented by the first map data 71 (peripheral detail map data) displayed on the display unit 14 is displayed on the first map data 71 (periphery) displayed on the display unit 14. It exists between “post office” represented by the detailed map data) and “bank” represented by the first map data 71 (peripheral detailed map data) displayed on the display unit 14.
[0056]
FIG. 12 shows second map data 72 (wide-range schematic map data) displayed on the display unit 14 in the mobile terminal (mobile phone 1) according to the second embodiment of the present invention. The second map data 72 (wide-area schematic map data) includes reduced first map data 71 'obtained by reducing the first map data 71 (peripheral detailed map data). When the second map data requesting unit 36 (CPU 10) downloads the second map data 72 (wide-range outline map data), the display control unit 42 (CPU 10) displays the second map data 72 (wide-range outline map data). The display unit 14 is controlled so that the current location P “●” represented by the reduced first map data 71 ′ included in the second map data 72 (wide-range schematic map data) is displayed at the intersection of the display unit 14 on the diagonal line.
As shown in FIG. 12, the current location P “●” (corresponding to the user and the mobile phone 1) represented by the second map data 72 (wide-range schematic map data) displayed on the display unit 14 is displayed on the display unit 14. Existing on the road represented by the second map data 72 (wide-area schematic map data). The road represented by the second map data 72 (wide-area schematic map data) displayed on the display unit 14 is generated when the first map data requesting unit 35 (CPU 10) downloads the first map data 71 (peripheral detailed map data). The display control unit 42 (CPU 10) corresponds to the road where the current location P “●” represented by the first map data 71 (surrounding detailed map data) displayed on the display unit 14 exists.
When the reduced first map data 71 ′ is selected from the second map data 72 (wide-range schematic map data) displayed on the display unit 14 by the operation of the operation unit 13 by the user, the display control unit 42 (CPU 10) The first map data 71 (peripheral detailed map data) is displayed by enlarging the reduced first map data 71 'to the first map data 71 (peripheral detailed map data). The display unit 14 is controlled so that the current location P “●” represented by the data) is displayed at the intersection of the diagonal lines of the display unit 14.
[0057]
The first map data 71 (peripheral detailed map data) represents buildings (housings), roads, railway lines, rivers, and the like existing in the vicinity of the current location in detail, and the second map data 72 (wide-area schematic map data) represents the current location. A simple representation of buildings (houses), roads, railway lines, rivers, etc. existing in the vicinity of. For this reason, the second map data 72 (wide-range schematic map data) has a larger data amount and a larger capacity than the first map data 71 (peripheral detailed map data). Therefore, when the first map data 71 and the second map data 72 are not selected according to the communication environment, the second map data 72 is requested more than the first time from when the first map data 71 is requested to when the first map data is downloaded. The second time from downloading to downloading is longer. Therefore, the time difference between the first time and the second time increases.
According to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, the first map data 71 (peripheral detailed map data) and the second map data 72 (wide-range schematic map data) are selected according to the communication environment. Therefore, the time difference can be reduced as compared with a case where the first map data 71 and the second map data 72 are not selected according to the communication environment.
[0058]
The operation of the mobile terminal (mobile phone 1) according to the second embodiment of the present invention is different from the first embodiment in the map data requesting process (step S2).
FIG. 13 is a flowchart showing a map data requesting process (step S2) as an operation of the mobile terminal (mobile phone 1) according to the second embodiment of the present invention. The CPU 10 executes step S29 instead of step S25 of the map data requesting process (step S2) in the first embodiment, and executes step S29 instead of step S27 of the map data requesting process (step S2) in the first embodiment. Execute S30.
[0059]
When the communication speed V is lower than the set communication speed A as a first comparison result between the communication speed V and the set communication speed A (Step S24-Yes), the first map data requesting unit 35 (CPU 10) is stored in the RAM 12. With reference to the location information (the position of the mobile phone 1), a download request is made to the map server 4 for the first map data 71 (peripheral detailed map data) representing the location information (the location of the mobile phone 1) (step S29). ).
The download request includes position information (the position of the mobile phone 1), first request information for requesting the first map data 71 (peripheral detailed map data), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the first request information included in the download request, the map server 4 outputs the first map data 71 (peripheral detailed map data) associated with the selected position information 60 from the map data group stored in the map database 5. ). The map server 4 transmits the selected first map data 71 (surrounding detail map data) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 issues a bill for billing a user of the mobile phone 1 from a map provider for a communication fee for transmitting the first map data 71 (peripheral detailed map data) to the mobile phone 1. .
In PDC and GPRS, one terminal can use one time slot depending on the communication environment. Therefore, the communication speed V depends on the communication environment between the mobile phone 1 and the map server 4 (the communication environment). (The state of the radio wave, the increase or decrease of traffic). Therefore, according to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, data representing the position information {the position of the mobile phone 1 (self)} {first map data 71 (peripheral detailed map data)} Is preferably selected according to the communication environment.
[0060]
When the mobile phone radio unit 16 receives the first map data 71 (peripheral detailed map data) from the map server 4, the first map data requesting unit 35 (CPU 10) sends the first map data request unit 35 (CPU 10) The map data 71 (peripheral detailed map data) is downloaded and stored in the RAM 12 (step S26).
[0061]
The display control unit 42 (CPU 10) controls the display unit 14 to display the first map data 71 (peripheral detailed map data) stored in the RAM 12 (Step S28).
[0062]
As a second comparison result between the communication speed V and the set communication speed A, when the communication speed V is equal to or higher than the set communication speed A (No in step S24), the second map data request unit 36 (CPU 10) stores the data in the RAM 12. Referring to the position information (the position of the mobile phone 1), a download request is made to the map server 4 for the second map data 72 (wide-range outline map data) representing the position information (the position of the mobile phone 1) (step S30). .
The download request includes position information (the position of the mobile phone 1), second request information for requesting the second map data 72 (wide-area schematic map data), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the second request information included in the download request, the map server 4 outputs the second map data 72 (wide-range schematic map data) associated with the selected position information 60 from the map data group stored in the map database 5. ). The map server 4 transmits the selected second map data 72 (wide-range schematic map data) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 issues a bill to charge the user of the mobile phone 1 from a map provider for a communication fee for transmitting the second map data 72 (wide-range schematic map data) to the mobile phone 1. .
As described above, according to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, the position information {the position of the mobile phone 1 (self)} {the second map data 72 (wide-range schematic map data) )｝ Can be selected according to the communication environment.
[0063]
When the mobile phone wireless unit 16 receives the second map data 72 (wide-range schematic map data) from the map server 4, the second map data requesting unit 36 (CPU 10) sends the second map data request unit 36 (CPU 10) The map data 72 (wide-range schematic map data) is downloaded and stored in the RAM 12 (step S26).
[0064]
The display control unit 42 (CPU 10) controls the display unit 14 to display the second map data 72 (wide-range schematic map data) stored in the RAM 12 (Step S28).
[0065]
According to the above description, according to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, when the user operates the mobile phone 1, the mobile phone 1 obtains location information 位置 mobile phone 1 (self) Is automatically measured, and the map data representing the position information (the position of the mobile phone 1) out of the map data group {the first map data 71 (peripheral detailed map data) and the second map data 72 (wide area outline) The map data is downloaded from the map server 4 and displayed on the display unit 14. For this reason, according to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, a user who manually inputs his / her own position (current position) which is known in advance and obtains map data. Compared to the technology of the above, the data indicating the position information (the position of the mobile phone 1) {the first map data 71 (peripheral detailed map data), the second map data 72 (wide-range outline map data)} is notified to the user accurately. be able to.
[0066]
According to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, when the user is on a land unknown, the user indicates the position information (the position of the mobile phone 1) displayed on the display unit 14. Since the user can move while viewing the map data {first map data 71 (peripheral detailed map data), second map data 72 (wide-range schematic map data)}, he or she does not get lost.
[0067]
According to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, data representing position information {the position of the mobile phone 1 (self)} {first map data 71 (peripheral detailed map data), second Map data 72 (wide-range schematic map data)} can be selected according to the communication environment.
[0068]
According to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, the first map data 71 (peripheral detailed map data) and the second map data 72 (wide-range schematic map data) are selected according to the communication environment. I do. This is because if the second map data 72 is not selected according to the communication environment, the first map data 71 and the second map data 72 are not selected because the amount of data is larger and the capacity is larger than the first map data 71. The second time from requesting the second map data 72 to downloading is longer than the first time from requesting the map data 71 to downloading (the time difference between the first time and the second time is longer). It is to avoid that it becomes larger). For this reason, according to the mobile terminal (mobile phone 1) according to the second embodiment of the present invention, the time lag is smaller than the case where the first map data 71 and the second map data 72 are not selected according to the communication environment. Can be reduced.
[0069]
(Third embodiment)
The portable terminal (mobile phone 1) according to the first and second embodiments of the present invention receives a radio wave from the GPS satellite 2 and measures the position information {the position of the mobile phone 1 (self)} from the radio wave. Alone method is implemented, but is not limited to this.
In the portable terminal (mobile phone 1) according to the third embodiment of the present invention, one of the stand-alone method and the network assist method can be selected and executed. As a result, according to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, one of the stand-alone system and the network assist system is selected and executed, so that the location information ｛mobile phone 1 (self) Position｝ can be reliably obtained. In the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, the description overlapping with the first and second embodiments will be omitted.
Positioning auxiliary data is periodically stored (updated) in a storage device (not shown) of the base station terminal 3 of the base station 9. The positioning assistance data is data defined by GPS, and examples of the positioning assistance data include almanac data (Almanac Data) and ephemeris data (Ephemeris Data). When the positioning assistance data is almanac data, it is assumed that the data can be used, for example, for one week after acquiring the almanac data. If the positioning assistance data is ephemeris data, it is assumed that the data can be used, for example, for one and a half hours after acquiring the ephemeris data. In the network assist method, positioning assistance data is acquired from the base station terminal 3 of the base station 9, a radio wave from the GPS satellite 2 is received using the positioning assistance data, and position information (the position of the mobile phone 1) is obtained from the radio wave. measure. According to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, the positioning assistance data is used in the network assist system, so that the position information {the position of the mobile phone 1 (self)} is faster than in the stand-alone system. Can be measured.
[0070]
FIG. 14 is a block diagram showing a configuration of the ROM 11 of the mobile terminal (mobile phone 1) according to the third embodiment of the present invention. The ROM 11 further stores a database 55.
FIG. 15 shows information (data) stored in the database 55 in the ROM 11 of the mobile terminal (mobile phone 1) according to the first embodiment of the present invention. In the database 55, a base station terminal identifier 56 for identifying the base station terminal 3 is associated with a position 57 (base station area) of the base station 9 in which the base station terminal 3 is provided. Is stored. As a result of the position measurement unit 21 (CPU 10) selecting and executing one of the stand-alone method and the network assist method, the position is determined by the communication environment (the state of radio waves during communication) between the mobile phone 1 and the GPS satellite 2. Measurement of information (the position of the mobile phone 1) may fail. The base station area (the position 57 of the base station 9) stored in the database 55 is used when the measurement of the position information (the position of the mobile phone 1) fails.
[0071]
FIG. 16 shows a position measurement control program 20 in the ROM 11 of the portable terminal (mobile phone 1) according to the third embodiment of the present invention. The position measurement control program 20 further includes a base station access request unit 22, a base station communication speed measurement (monitoring) unit 23, and a base station communication speed comparison unit 24.
The base station access request unit 22 controls the mobile phone radio unit 16 to make an access request to each of the base station terminals 3 of the plurality of base stations 9 via the network 7.
The base station communication speed measurement (monitoring) unit 23 controls the mobile phone radio unit 16 to measure (monitor) the base station communication speed, which is the communication speed when accessing the base station terminal 3 via the network 7. .
The base station communication speed comparison unit 24 compares the base station communication speed with the set communication speed.
The position measurement unit 21 executes the stand-alone method based on the first comparison result between the base station communication speed and the set communication speed, and performs a second comparison other than the first comparison result between the base station communication speed and the set communication speed. The network assist method is executed based on the result. The above-mentioned base station communication speed changes according to the communication environment between the mobile phone 1 and the base station terminal 3 (state of radio waves during communication, increase / decrease of traffic). For this reason, the stand-alone method and the network assist method are determined by the position information (the position of the mobile phone 1) and the communication environment (base station communication speed).
[0072]
The operation of the mobile terminal (mobile phone 1) according to the third embodiment of the present invention is different from the first and second embodiments in the position information acquisition processing (step S1, acquisition of accurate position information). Before describing the position information acquisition processing (step S1, acquisition of accurate position information), first, the position information acquisition processing (simple acquisition of position information) will be described.
[0073]
FIG. 17 is a flowchart showing a position information acquisition process (simple position information acquisition), which is an operation of the portable terminal (mobile phone 1) according to the third embodiment of the present invention.
[0074]
The base station access request unit 22 (CPU 10) periodically controls the mobile phone radio unit 16 to make an access request to each of the base station terminals 3 of the plurality of base stations 9 via the network 7. The base station access request unit 22 (CPU 10) accesses the base station terminal 3 of the base station 9 closest to the mobile phone 1 among the plurality of base stations 9 (step S31). The base station access request unit 22 (CPU 10) executes Step S31 even when a telephone call, the Internet, or an e-mail is performed by the call control unit 41 (CPU 10).
As the base station 9 closest to the mobile phone 1, for example, the base station 9 provided with the base station terminal 3 that has the fastest response to the access request among the base station terminals 3 of the plurality of base stations 9 is set as the mobile phone 1 Is the base station 9 closest to. The response from the base station terminal 3 of the closest base station 9 (response to the access request) includes the base station terminal identifier 56.
In step S31, the base station access request unit 22 (CPU 10) selects, from among the base station terminal identifiers 56 stored in the database 55, a base station terminal identifier corresponding to the base station terminal identifier 56 included in the response to the access request. Select 56. The base station access request unit 22 (CPU 10), among the base station areas (the position 57 of the base station 9) stored in the database 55, selects the base station area (the closest area) associated with the selected base station terminal identifier 56. The position 57) of the base station 9 is selected. The base station access request unit 22 (CPU 10) simply replaces the selected base station area (the position 57 of the nearest base station 9) with the position information (the position of the mobile phone 1) previously stored in the RAM 12. Location information (the current location of the mobile phone 1, the location of the mobile phone 1) is stored in the RAM 12.
[0075]
FIG. 18 is a flowchart showing a position information acquisition process (step S1, acquisition of accurate position information) as an operation of the portable terminal (mobile phone 1) according to the third embodiment of the present invention. The CPU 10 executes steps S32 to S39 instead of step S12 of the position information acquisition process (step S1) in the first embodiment.
[0076]
When a position information acquisition request (step S11) is made, the CPU 10 stores the position measurement unit 21, the base station access request unit 22, the base station communication speed measurement (monitoring) unit 23, and the base station communication speed comparison stored in the ROM 11. The unit 24 is executed.
[0077]
The base station access request unit 22 (CPU 10) checks whether or not valid positioning auxiliary data is stored in the RAM 12 (Step S32). When the positioning assistance data is almanac data, valid positioning assistance data (almanac data) is positioning assistance data (almanac data) that has not been passed for more than one week. When the positioning assistance data is ephemeris data, the effective positioning assistance data (ephemeris data) is positioning assistance data (ephemeris data) that has not passed one and a half hours since the acquisition.
[0078]
If valid positioning assistance data is not stored in the RAM 12 (step S32-Yes), the base station access request unit 22 (CPU 10) controls the mobile phone radio unit 16 to determine the closest location as in step S31 described above. It accesses the base station terminal 3 of the base station 9 and requests the base station terminal 3 for positioning assistance data. The base station access request unit 22 (CPU 10) stores the positioning auxiliary data from the base station terminal 3 of the nearest base station 9 in the RAM 12 instead of the invalid (not valid) positioning auxiliary data stored in the RAM 12. (Step S33).
[0079]
The base station communication speed measurement (monitoring) unit 23 (CPU 10) controls the mobile phone radio unit 16 to access the base station terminal 3 closest to the mobile phone 1 via the network 7. Is calculated (monitored / measured) (step S34). The method for calculating the base station communication speed X is the same as the method for calculating the communication speed V in the first embodiment.
[0080]
The base station communication speed comparison unit 24 (CPU 10) compares the base station communication speed X with the set communication speed B (Step S35).
[0081]
When the base station communication speed X is lower than the set communication speed B (step S35-Yes), the position measuring unit 21 (CPU 10) executes the positioning by the stand-alone method (step S36). In step S36, position measurement section 21 (CPU 10) controls GPS block 19 so that position information (position of mobile phone 1) is acquired using a unique code of GPS satellite 2. The GPS radio unit 19 of the GPS block 19 receives the radio wave transmitted from the GPS satellite 2, and the GPS decoder 17 of the GPS block 19 decodes the radio wave received by the GPS radio unit 18 and outputs the radio wave to the CPU 10.
In the stand-alone method, when the positioning (Step S36) is successful (Step S38-Yes), the position measuring unit 21 (CPU 10) detects the latitude / longitude from the radio wave decoded by the GPS decoder 17, and detects the latitude / longitude. Get location information including. The position measurement unit 21 (CPU 10) replaces the acquired position information with the accurate position information (the position of the mobile phone 1) instead of the position information {the base station area (the position 57 of the nearest base station 9)} stored in the RAM 12. Is stored (updated) in the RAM 12 as the current location of the mobile phone 1 (step S13).
As described above, according to the portable terminal (mobile phone 1) according to the third embodiment of the present invention, one of the stand-alone method and the network assist method can be selected according to the communication environment.
[0082]
On the other hand, when valid positioning auxiliary data is stored in the RAM 12 (Step S31-No), or when the base station communication speed X is equal to or higher than the set communication speed B (Step S35-No), the position measurement unit 21 ( The CPU 10) executes the positioning by the network assist method (Step S37). In step S37, position measurement section 21 (CPU 10) controls GPS block 19 so that position information (position of mobile phone 1) is acquired using a unique code of GPS satellite 2. The GPS radio unit 19 of the GPS block 19 receives the radio wave transmitted from the GPS satellite 2, and the GPS decoder 17 of the GPS block 19 decodes the radio wave received by the GPS radio unit 18 and outputs the radio wave to the CPU 10.
In the network assist method, when the positioning (Step S37) is successful (Step S38-Yes), the position measuring unit 21 (CPU 10) uses the valid positioning auxiliary data to convert the radio wave decoded from the GPS Detecting longitude and acquiring position information including latitude and longitude. The position measurement unit 21 (CPU 10) replaces the acquired position information with the accurate position information (the position of the mobile phone 1) instead of the position information {the base station area (the position 57 of the nearest base station 9)} stored in the RAM 12. Is stored (updated) in the RAM 12 as the current location of the mobile phone 1 (step S13).
According to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, when the network assist system is selected, the positioning information (position of the mobile phone 1) is faster than in the stand-alone system because the positioning assistance data is used. ) Can be measured.
[0083]
When positioning by the stand-alone method (step S36) or positioning by the network assist method (step S37) fails (step S38-No), the position measuring unit 21 (CPU 10) stores the position information stored in the RAM 12 ｛ The station area (the position 57 of the nearest base station 9)｝ is not updated as the current location.
As a result of the mobile phone 1 selecting and executing one of the stand-alone method and the network assist method, the location information ｛the mobile phone depends on the communication environment (the state of radio waves during communication) between the mobile phone 1 and the GPS satellite 2. The measurement of the position (1) of 1 (self) may fail. Also in this case, according to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, the base station area (the position 57 of the closest base station 9) is stored in the storage unit 12 as the position information (own position). Since the information is stored, the position information (the position of the mobile phone 1) can be reliably obtained.
[0084]
As described above, according to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, in addition to the effects of the first and second embodiments, one of the stand-alone method and the network assist method is selected. Therefore, the position information {the position of the mobile phone 1 (self)} can be reliably obtained.
[0085]
According to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, in addition to the effects of the first and second embodiments, one of a stand-alone system and a network assist system is selected according to a communication environment. can do. According to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, when the network assist system is selected, the network assist system uses the positioning assistance data, so that the position information is faster than the standalone system. The position の of the mobile phone 1 (self) can be measured.
[0086]
According to the mobile terminal (mobile phone 1) according to the third embodiment of the present invention, as a result of selecting and executing one of the stand-alone method and the network assist method, the position information {the position of the mobile phone 1 (self)} is obtained. Even if the measurement of the cell phone fails, since the base station area (the position 57 of the nearest base station 9) is stored in the storage unit 12 as the position information (own position), the position information (the position of the mobile phone 1) is stored. Can be obtained reliably.
[0087]
(Fourth embodiment)
In the portable terminal (mobile phone 1) according to the second embodiment of the present invention, when the communication speed V is lower than the set communication speed A as a first comparison result between the communication speed V and the set communication speed A, the first map data When the communication speed V is equal to or higher than the set communication speed A as a second comparison result between the communication speed V and the set communication speed A, the second map data 72 (wide-range outline map data) is downloaded. Downloaded, but not limited to.
In the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, a plurality of set communication speeds may be provided instead of one set communication speed (set communication speed A) for comparison with the communication speed V. it can. A plurality of set communication speeds are set as a set communication speed C, a set communication speed D, and a set communication speed E, and the relationship is C <D <E. The set communication speed C may be the same as the set communication speed A in the first embodiment. In this case, A <D <E. In the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, a description overlapping with the second and third embodiments will be omitted.
[0088]
FIG. 19 shows a map data request control program 30 in the ROM 11 of the portable terminal (mobile phone 1) according to the fourth embodiment of the present invention. The map data request unit 34 of the map data request control program 30 further includes a third map data request unit 37 and a fourth map data request unit 38.
The first map data requesting unit 35 determines, based on the first comparison result of the communication speed V and the set communication speed C, the position information (the mobile phone 1) of the map data group stored in the map database 5 of the map server 4. ) Is downloaded from the map server 4.
The second map data requesting unit 36 determines a second comparison result other than the first comparison result between the communication speed V and the set communication speed C, and a third comparison result between the communication speed V and the set communication speed D, From the map data group stored in the map database 5 of the map server 4, the second map data 72 (wide-range schematic map data) representing the position information (the position of the mobile phone 1) is downloaded from the map server 4.
The third map data request unit 37 performs a fifth comparison between the second comparison result, a fourth comparison result other than the third comparison result between the communication speed V and the set communication speed D, and a communication speed V and the set communication speed E. Based on the result, from the map data group stored in the map database 5 of the map server 4, third map data (described later) representing position information (the position of the mobile phone 1) is downloaded from the map server 4.
The fourth map data requesting unit 38 determines the map server 4 based on the second comparison result, the fourth comparison result, and the sixth comparison result other than the fifth comparison result between the communication speed V and the set communication speed E. From the map data group stored in the map database 5, fourth map data (described later) representing position information (the position of the mobile phone 1) is downloaded from the map server 4.
[0089]
FIG. 20 shows information (data) stored in the map database 5 of the map server 4 in the communication system to which the mobile terminal according to the fourth embodiment of the present invention is applied. In the map database 5, the first map data 71 (peripheral detailed map data), the second map data 72 (wide-area schematic map data), the third map data 73, and the fourth map data 74 are associated with each other and the positional information 60 is provided. It is stored as the above-mentioned map data group for each.
[0090]
The third map data 73 includes second map data 72 (wide-range schematic map data) and text-form first contents related to the second map data 72 (wide-range schematic map data). For example, the map provider collects in advance information (text) for describing the buildings (houses), roads, railway lines, and rivers represented in the second map data 72 (wide-range schematic map data), One content is a sentence for explaining the building (house), road, railway line, and river.
Of the third map data 73 (wide-range schematic map data, first content) displayed on the display unit 14, the third map data 73 (wide-range schematic map) displayed on the display unit 14 by the user operating the operation unit 13. When a building (house) represented by the data and the first content) is selected, the display control unit 42 (CPU 10) displays the first content {a sentence for explaining the selected building (house)}. The display unit 14 is controlled.
[0091]
The fourth map data 74 includes second map data 72 (wide-range schematic map data) and second content related to the second map data 72 (wide-range schematic map data). The second content includes the first content and an image related to the first content. For example, the map provider previously photographs a building (house), a road, a railway line, and a river represented by the second map data 72 (wide-range schematic map data) with a camera, and the image included in the second content is , Its buildings (houses), roads, railway lines, and rivers.
The fourth map data 74 displayed on the display unit 14 out of the fourth map data 74 {wide-area schematic map data, second content (first content, image)} displayed by the user on the operation unit 13. When the building (house) represented by the map data 74 {wide-area schematic map data, second content (first content, image)} is selected, the display control unit 42 (CPU 10) determines the first content included in the second content. The display unit 14 is controlled so that {a sentence for explaining the selected building (house)} and an image included in the second content {a photograph of the selected building (house)} are displayed. I do.
[0092]
Since the first content is a text for explaining the building (house), road, railway line, and river, the third map data 73 has a larger amount of data than the second map data 72 and has a larger capacity. Since the image included in the second content is a photograph of the building (house), road, railway line, and river, the fourth map data 74 has a larger amount of data than the third map data 73 and has a larger capacity. Is heavy. As described above, the amount of data is large in the order of the fourth map data 74, the third map data 73, the second map data 72, and the first map data 71, and the capacity is also large in the fourth map data 74, the third map data 73, the second map data 72, and the first map data 71 in order of weight.
Therefore, when the first map data 71, the second map data 72, the third map data 73, and the fourth map data 74 are not selected according to the communication environment, the first map data 71 is requested to be downloaded from the first map data 71 until the download. The second time from requesting the second map data 72 to downloading it is longer than one hour, and the time difference between the first time and the second time is larger. Similarly, the third time from when the third map data 73 is requested to when it is downloaded is longer than the second time, and the time difference between the first and second times and the third time is larger. Similarly, the fourth time from when the fourth map data 74 is requested to when it is downloaded is longer than the third time, and the time difference between the first to third times and the fourth time is larger.
According to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, the first map data 71, the second map data 72, the third map data 73, and the fourth map data 74 are selected according to the communication environment. Therefore, the time difference can be reduced as compared with a case where the first map data 71, the second map data 72, the third map data 73, and the fourth map data 74 are not selected according to the communication environment.
[0093]
The operation of the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention is different from the second and third embodiments in the map data request processing (step S2).
FIG. 21 is a flowchart showing a map data request process (step S2) as an operation of the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention. The CPU 10 executes steps S41 to S45 instead of step S24 of the map data requesting process (step S2) in the second embodiment, and replaces step S28 of the map data requesting process (step S2) in the second embodiment. Step S46 is executed.
The communication speed comparison unit 33 (CPU 10) compares the communication speed V with the set communication speed C (Step S41).
[0094]
When the communication speed V is lower than the set communication speed C as a first comparison result between the communication speed V and the set communication speed C (Step S41-Yes), the first map data request unit 35 (CPU 10) is stored in the RAM 12. With reference to the location information (the position of the mobile phone 1), a download request is made to the map server 4 for the first map data 71 (peripheral detailed map data) representing the location information (the location of the mobile phone 1) (step S29). ).
The download request includes position information (the position of the mobile phone 1), first request information for requesting the first map data 71 (peripheral detailed map data), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the first request information included in the download request, the map server 4 outputs the first map data 71 (peripheral detailed map data) associated with the selected position information 60 from the map data group stored in the map database 5. ). The map server 4 transmits the selected first map data 71 (surrounding detail map data) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 issues a bill for billing a user of the mobile phone 1 from a map provider for a communication fee for transmitting the first map data 71 (peripheral detailed map data) to the mobile phone 1. .
As described above, according to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, the position information {the position of the mobile phone 1 (self)} {the first map data 71 (peripheral detailed map data) )｝ Can be selected according to the communication environment.
[0095]
When the mobile phone radio unit 16 receives the first map data 71 (peripheral detailed map data) from the map server 4, the first map data requesting unit 35 (CPU 10) sends the first map data request unit 35 (CPU 10) The map data 71 (peripheral detailed map data) is downloaded and stored in the RAM 12 (step S26).
[0096]
The display control unit 42 (CPU 10) controls the display unit 14 to display the first map data 71 (peripheral detailed map data) stored in the RAM 12 (Step S28).
[0097]
As a second comparison result between the communication speed V and the set communication speed C, the communication speed V is equal to or higher than the set communication speed C (No at step S41), and the communication speed V is set as a third comparison result between the communication speed V and the set communication speed D. When V is lower than the set communication speed D (step S42-Yes), the second map data requesting unit 36 (CPU 10) refers to the position information (the position of the mobile phone 1) stored in the RAM 12, and A download request is made to the map server 4 for the second map data 72 (wide-range schematic map data) representing the information (the position of the mobile phone 1) (step S30).
The download request includes position information (the position of the mobile phone 1), second request information for requesting the second map data 72 (wide-area schematic map data), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the second request information included in the download request, the map server 4 outputs the second map data 72 (wide-range schematic map data) associated with the selected position information 60 from the map data group stored in the map database 5. ). The map server 4 transmits the selected second map data 72 (wide-range schematic map data) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 issues a bill to charge the user of the mobile phone 1 from a map provider for a communication fee for transmitting the second map data 72 (wide-range schematic map data) to the mobile phone 1. .
As described above, according to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, the position information {the position of the mobile phone 1 (self)} {the second map data 72 (wide-range schematic map data) )｝ Can be selected according to the communication environment.
[0098]
When the mobile phone wireless unit 16 receives the second map data 72 (wide-range schematic map data) from the map server 4, the second map data requesting unit 36 (CPU 10) sends the second map data request unit 36 (CPU 10) The map data 72 (wide-range schematic map data) is downloaded and stored in the RAM 12 (step S26).
[0099]
The display control unit 42 (CPU 10) controls the display unit 14 to display the second map data 72 (wide-range schematic map data) stored in the RAM 12 (Step S28).
[0100]
The fourth comparison result between the communication speed V and the set communication speed D is the second comparison result (step S41-No), and the communication speed V is equal to or higher than the set communication speed D (step S42-No). As a fifth comparison result with the set communication speed E, when the communication speed V is lower than the set communication speed E (step S43-Yes), the third map data requesting unit 37 (CPU 10) stores the position information ( With reference to the location of the mobile phone 1, a download request is made to the map server 4 for the third map data 73 (wide-range schematic map data, first content) representing the location information (the location of the mobile phone 1) (step S30). ).
The download request includes position information (the position of the mobile phone 1), third request information for requesting the third map data 73 (wide-area schematic map data, first content), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the third request information included in the download request, the map server 4 outputs the third map data 73 (wide-range schematic map data) associated with the selected position information 60 from the map data group stored in the map database 5. , First content). The map server 4 transmits the selected third map data 73 (wide-area schematic map data, first content) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 charges the communication fee for transmitting the third map data 73 (wide-range schematic map data, first content) to the mobile phone 1 from the map provider to the user of the mobile phone 1. Issue a letter.
As described above, according to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, the position information {the position of the mobile phone 1 (self)} {the third map data 73 (wide-range schematic map data) , First content)} can be selected according to the communication environment.
[0101]
When the mobile phone radio section 16 receives the third map data 73 (wide-range schematic map data, first content) from the map server 4, the third map data request section 37 (CPU 10) receives the third map data 73 via the mobile phone radio section 16. The downloaded third map data 73 (wide-range schematic map data, first content) is downloaded and stored in the RAM 12 (step S26).
[0102]
The display control unit 42 (CPU 10) controls the display unit 14 to display the third map data 73 (wide-range schematic map data, first content) stored in the RAM 12 (Step S28).
[0103]
The second comparison result (step S41-No), the fourth comparison result (step S42-No), and the sixth comparison result between the communication speed V and the set communication speed E indicates that the communication speed V is equal to or higher than the set communication speed E (Step S43-No), the fourth map data requesting unit 38 (CPU 10) refers to the position information (the position of the mobile phone 1) stored in the RAM 12 and ) Is sent to the map server 4 to download the fourth map data 74 (wide-range outline map data, second content) (step S30).
The download request includes position information (the position of the mobile phone 1), fourth request information for requesting the fourth map data 74 (wide-area schematic map data, second content), and the address of the mobile phone 1. According to the position information (the position of the mobile phone 1) included in the download request, the map server 4 selects the position information corresponding to the position information (the position of the mobile phone 1) from the position information 60 stored in the map database 5. Select 60. According to the fourth request information included in the download request, the map server 4 outputs the fourth map data 74 (wide-range schematic map data) associated with the selected position information 60 from the map data group stored in the map database 5. , Second content). The map server 4 transmits the selected fourth map data 74 (wide-area schematic map data, second content) to the mobile phone 1 according to the address included in the download request. At this time, the map server 4 charges the communication fee for transmitting the fourth map data 74 (wide-range schematic map data, second content) to the mobile phone 1 from the map provider to the user of the mobile phone 1. Issue a letter.
As described above, according to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, the data representing the location information {the position of the mobile phone 1 (self)} {the fourth map data 74 (wide-range schematic map data) , Second content)｝ can be selected according to the communication environment.
[0104]
When the mobile phone radio unit 16 receives the fourth map data 74 (wide-range outline map data, second content) from the map server 4, the fourth map data request unit 38 (CPU 10) receives the fourth map data 74 (CPU 10) using the mobile phone radio unit 16. The downloaded fourth map data 74 (wide-range schematic map data, second content) is downloaded and stored in the RAM 12 (step S26).
[0105]
The display control unit 42 (CPU 10) controls the display unit 14 to display the fourth map data 74 (wide-range schematic map data, second content) stored in the RAM 12 (Step S28).
As described above, according to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, the first map data 71, the second map data 72, the third map data 73, and the fourth map data 74 are communicated. Select according to the environment. This is because the amount of data is large in the order of the fourth map data 74, the third map data 73, the second map data 72, and the first map data 71, and the capacity is also large in the fourth map data 74 and the third map data 73. When the first map data 71, the second map data 72, the third map data 73, and the fourth map data 74 are not selected in accordance with the communication environment, The second time from the request of the second map data 72 to the download is longer than the first time from the request of the first map data 71 to the download (the first time and the second time). This is to prevent the time difference from increasing). Similarly, it is assumed that the third time from requesting the third map data 73 to downloading it is longer than the second time (the time difference between the first and second times and the third time is larger). To avoid. Similarly, it is assumed that the fourth time from when the fourth map data 74 is requested to when the fourth map data 74 is downloaded is longer than the third time (the time difference between the first to third times and the fourth time is larger). To avoid. Therefore, according to the mobile terminal (mobile phone 1) according to the fourth embodiment of the present invention, in addition to the effects of the second and third embodiments, the first map data 71, the second map data 72, and the third The time difference can be reduced as compared with a case where the map data 73 and the fourth map data 74 are not selected according to the communication environment.
[0106]
【The invention's effect】
The mobile terminal according to the present invention can accurately notify the user of data representing its own position.
With the mobile terminal of the present invention, the user does not get lost.
The portable terminal of the present invention can select data representing its own position according to the communication environment.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a communication system to which a mobile terminal (mobile phone) according to a first embodiment of the present invention is applied.
FIG. 2 is a block diagram illustrating a configuration of a mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 3 is a block diagram illustrating a configuration of a ROM of the mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 4 shows information (data) stored in a position information display database in a ROM of the mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 5 shows information (data) stored in a map database of a map server in the communication system to which the mobile terminal according to the first embodiment of the present invention is applied.
FIG. 6 is a view showing a display range in which first map data (basic range map data) is displayed on a display unit and a second map data in a mobile terminal (mobile phone) according to the first embodiment of the present invention; (Wide-range map data) is displayed on the display unit.
FIG. 7 is a flowchart showing an operation of the mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 8 is a flowchart illustrating a position information acquisition process that is an operation of the mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 9 is a flowchart showing a map data request process as an operation of the mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 10 shows information (data) stored in a map database of a map server in a communication system to which a mobile terminal according to a second embodiment of the present invention is applied.
FIG. 11 shows first map data (peripheral detailed map data) displayed on a display unit in a mobile terminal (mobile phone) according to a second embodiment of the present invention.
FIG. 12 shows second map data (wide-range schematic map data) displayed on a display unit in a portable terminal (mobile phone) according to a second embodiment of the present invention.
FIG. 13 is a flowchart illustrating a map data request process as an operation of the mobile terminal (mobile phone) according to the second embodiment of the present invention.
FIG. 14 is a block diagram showing a configuration of a ROM of a mobile terminal (mobile phone) according to a third embodiment of the present invention.
FIG. 15 shows information (data) stored in a database in a ROM of the mobile terminal (mobile phone) according to the first embodiment of the present invention.
FIG. 16 shows a position measurement control program in a ROM of a portable terminal (mobile phone) according to a third embodiment of the present invention.
FIG. 17 is a flowchart showing position information acquisition processing (simple position information acquisition) as an operation of the portable terminal (mobile phone) according to the third embodiment of the present invention.
FIG. 18 is a flowchart illustrating a position information acquisition process (acquisition of accurate position information) as an operation of the portable terminal (mobile phone) according to the third embodiment of the present invention.
FIG. 19 shows a map data request control program in a ROM of a portable terminal (mobile phone) according to a fourth embodiment of the present invention.
FIG. 20 shows information (data) stored in a map database of a map server in a communication system to which a mobile terminal according to a fourth embodiment of the present invention is applied.
FIG. 21 is a flowchart showing a map data request process as an operation of the mobile terminal (mobile phone) according to the fourth embodiment of the present invention.
[Explanation of symbols]
1 mobile phone
2 GPS satellites
3 base station terminals
4 Map server
5 map database
6, 7, 8 network
9 base stations
10 CPU
11 ROM
12 RAM
13 Operation section
14 Display
15 Power supply section
16 Mobile phone radio
17 GPS decoder
18 GPS radio section
19 GPS block
20 Position measurement control program
21 Position measurement unit
22 Base station access request section
23 Base station communication speed measurement (monitoring) unit
24 Base station communication speed comparison unit
30 Map data request control program
31 Access request section
32 Communication speed measurement (monitoring) section
33 Communication speed comparison unit
34 Map Data Request Section
35 1st map data request section
36 2nd map data request section
37 Third Map Data Request Section
38 4th map data request section
40 Call control program
41 Call control unit
42 Display control unit
50 Position information display database
51 Location information
52 Location
55 Database
56 base station terminal identifier
57 Location of base station 9
60 location information
61 1st map data (basic range map data)
62 Second map data (wide-area map data)
66 Display range of first map data 61
67 Display range of second map data 62
71 First map data (Detailed map data around)
71 'reduced first map data
72 Second map data (wide-range outline map data)
73 Third map data
74 4th map data

Claims (20)

A portable terminal connected via a network to a map server having a map database in which a group of map data is stored,
A position measuring unit for measuring the position of the self,
An access request unit for requesting access to the map server;
A communication speed measurement unit that measures a communication speed when accessing the map server;
A communication speed comparison unit that compares the communication speed with a set communication speed,
A map data requesting unit that downloads, from the map server, map data representing the position in the map data group, based on a comparison result between the communication speed and the set communication speed;
A display unit,
A portable terminal comprising: a display control unit configured to display the map data on the display unit. The mobile terminal according to claim 1,
The map data request unit includes:
A first map data requesting unit that downloads, from the map server, first map data representing the position in the map data group as the map data based on a first comparison result between the communication speed and the set communication speed. When,
Downloading, from the map server, second map data representing the position in the map data group as the map data based on a second comparison result other than the first comparison result between the communication speed and the set communication speed. And a second map data requesting unit. The mobile terminal according to claim 2,
The second map data is larger than the first map data,
The mobile terminal, wherein the second map data displayed on the display unit is scrolled by a user operation. The mobile terminal according to claim 2,
The mobile terminal, wherein the second map data includes map data obtained by reducing the first map data. The mobile terminal according to any one of claims 2 to 4,
The second map data requesting unit is configured to perform the second map data request based on the second comparison result between the communication speed and the first set communication speed as the set communication speed, and a third comparison result between the communication speed and a second set communication speed. Downloading the second map data from the map server as the map data;
The map data request unit further includes:
Based on the second comparison result, a fourth comparison result other than the third comparison result between the communication speed and the second set communication speed, and a fifth comparison result between the communication speed and the third set communication speed. A third map data requesting unit that downloads third map data representing the position in the map data group from the map server as the map data;
The position in the map data group based on the second comparison result, the fourth comparison result, and a sixth comparison result other than a fifth comparison result between the communication speed and the third set communication speed. And a fourth map data requesting unit that downloads fourth map data representing the following from the map server as the map data. The mobile terminal according to claim 5,
The third map data includes the second map data and first content in a text format related to the second map data,
The fourth map data includes the second map data and a second content related to the second map data,
The mobile terminal, wherein the second content includes the first content and an image related to the first content. The mobile terminal according to any one of claims 1 to 6,
The position measurement unit measures the position using radio waves,
A portable terminal used when the radio wave communicates with a GPS (Global Positioning System) satellite. The mobile terminal according to claim 7,
The mobile terminal, wherein the position measurement unit selects and executes one of a stand-alone method for measuring the position and a network assist method for measuring the position using positioning auxiliary data defined by GPS. The mobile terminal according to claim 8,
Furthermore,
A base station access request unit for requesting access via a network to a base station terminal provided in the base station,
A base station communication speed measurement unit that measures a base station communication speed that is a communication speed when accessing the base station terminal,
A base station communication speed comparison unit that compares the base station communication speed with a base station setting communication speed,
The mobile terminal, wherein the position measurement unit selects and executes one of the stand-alone method and the network assist method based on a comparison result between the base station communication speed and a base station set communication speed. The mobile terminal according to claim 9,
Furthermore,
A storage unit,
A database in which the position of the base station provided with the base station terminal is stored for each base station,
The base station access request unit, among the plurality of base stations, accesses the base station terminal of a base station closest to itself, stores the position of the closest base station as the position in the storage unit,
The base station communication speed measurement unit measures the base station communication speed when accessing the base station terminal of the closest base station,
The position measurement unit, when one of the stand-alone method and the network assist method is executed and the position is successfully measured, stores the position in the storage unit instead of the position of the closest base station. And
The portable terminal, wherein the map data requesting unit downloads the map data representing the position in the map data group from the map server with reference to the position stored in the storage unit. A map server having a map database in which map data groups are stored;
A portable terminal connected to the map server via a network,
The mobile terminal,
A position measuring unit for measuring the position of the self,
An access request unit for requesting access to the map server;
A communication speed measurement unit that measures a communication speed when accessing the map server;
A communication speed comparison unit that compares the communication speed with a set communication speed,
A map data requesting unit that downloads, from the map server, map data representing the position in the map data group, based on a comparison result between the communication speed and the set communication speed;
A display unit,
A communication system comprising: a display control unit configured to display the map data on the display unit. In the communication system according to claim 11,
The map data request unit includes:
A first map data requesting unit that downloads, from the map server, first map data representing the position in the map data group as the map data based on a first comparison result between the communication speed and the set communication speed. When,
Downloading, from the map server, second map data representing the position in the map data group as the map data based on a second comparison result other than the first comparison result between the communication speed and the set communication speed. And a second map data requesting unit. In the communication system according to claim 12,
The second map data is larger than the first map data,
The communication system in which the second map data displayed on the display unit is scrolled by a user operation. In the communication system according to claim 12,
The communication system, wherein the second map data includes map data obtained by reducing the first map data. In the communication system according to any one of claims 12 to 14,
The second map data requesting unit is configured to perform the second map data request based on the second comparison result between the communication speed and the first set communication speed as the set communication speed, and a third comparison result between the communication speed and a second set communication speed. Downloading the second map data from the map server as the map data;
The map data request unit further includes:
Based on the second comparison result, a fourth comparison result other than the third comparison result between the communication speed and the second set communication speed, and a fifth comparison result between the communication speed and the third set communication speed. A third map data requesting unit that downloads third map data representing the position in the map data group from the map server as the map data;
The position in the map data group based on the second comparison result, the fourth comparison result, and a sixth comparison result other than a fifth comparison result between the communication speed and the third set communication speed. And a fourth map data requesting unit that downloads fourth map data representing the following from the map server as the map data. In the communication system according to claim 15,
The third map data includes the second map data and first content in a text format related to the second map data,
The fourth map data includes the second map data and a second content related to the second map data,
The communication system, wherein the second content includes the first content and an image related to the first content. In the communication system according to any one of claims 11 to 16,
The position measurement unit measures the position using radio waves,
A communication system used when the radio wave communicates with a GPS (Global Positioning System) satellite. In the communication system according to claim 17,
A communication system in which the position measurement unit selects and executes one of a stand-alone method of measuring the position and a network assist method of measuring the position using positioning auxiliary data defined by GPS. In the communication system according to claim 18,
The mobile terminal,
Furthermore,
A base station access request unit for requesting access via a network to a base station terminal provided in the base station,
A base station communication speed measurement unit that measures a base station communication speed that is a communication speed when accessing the base station terminal,
A base station communication speed comparison unit that compares the base station communication speed with a base station setting communication speed,
A communication system wherein the position measurement unit selects and executes one of the stand-alone method and the network assist method based on a comparison result between the base station communication speed and a base station set communication speed. In the communication system according to claim 19,
The mobile terminal further comprises:
A storage unit,
A database in which the position of the base station provided with the base station terminal is stored for each base station,
The base station access request unit, among the plurality of base stations, accesses the base station terminal of the base station closest to the portable terminal, and stores the position of the closest base station as the position in the storage unit. ,
The base station communication speed measurement unit measures the base station communication speed when accessing the base station terminal of the closest base station,
The position measurement unit, when one of the stand-alone method and the network assist method is executed and the position is successfully measured, stores the position in the storage unit instead of the position of the closest base station. And
The communication system, wherein the map data requesting unit refers to the position stored in the storage unit and downloads, from the map server, the map data representing the position in the map data group.

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