JP3719511B2 - Mobile communication terminal and computer program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile communication terminal used in a position specifying system including a position server configured to specify the position of the mobile communication terminal based on a measurement result of a base station signal received from the mobile communication terminal, and The present invention relates to a computer program executed by the mobile communication terminal.
[0002]
[Problems to be solved by the invention]
For example, as one of position specifying systems for specifying the position of a mobile communication terminal such as a mobile phone, there is one that uses a base station signal from a peripheral base station located around a communication base station with which the mobile communication terminal is communicating. is there. In this case, when the mobile communication terminal tries to specify its own position alone, the mobile communication terminal needs to hold the almanac information of the base station, and the mobile communication terminal needs to perform a complicated calculation. However, there are circumstances that the price of the mobile communication terminal becomes high and the configuration becomes complicated.
[0003]
From such a background, the location server holds the almanac information of the base station, the mobile communication terminal transmits the measurement result of the base station signal to the location server, and the location server receives the base station signal received from the mobile communication terminal. Assisted positioning type systems that perform calculations based on measurement results and identify the position of a mobile communication terminal have become widespread.
[0004]
Now, in such an assist positioning type system in which the position server specifies the position of the mobile communication terminal, the mobile communication terminal is received when receiving a base station signal from a peripheral base station located around the communication base station. The reception intensity and phase of the base station signal are measured, and the measurement result of the base station signal is transmitted to the location server through the communication base station. When the location server receives the measurement result of the base station signal from the mobile communication terminal, the location server performs an operation based on the received measurement result of the base station signal, identifies the location of the mobile communication terminal, and transmits the identification result to the communication base Transmit to the mobile communication terminal through the station. In this way, between the mobile communication terminal and the location server, the measurement result of the base station signal necessary for the calculation and the identification result specifying the position of the mobile communication terminal are transmitted and received through the communication base station.
[0005]
By the way, in an idle state, a mobile communication terminal receives a paging channel from a communication base station, and acquires a neighbor list representing a list of neighboring base stations located around the communication base station. In this case, every time the mobile communication terminal changes the communication base station, the mobile communication terminal receives the paging channel from the communication base station after changing the communication base station and acquires the neighbor list. Therefore, the mobile communication terminal always acquires the latest neighbor list. It will be. Then, when positioning, the mobile communication terminal receives a base station signal from a base station existing in the neighbor list held at that time, and measures the base station signal.
[0006]
Now, since a mobile communication terminal is generally configured to set a base station with good reception of radio waves as a communication base station, normally, as shown in FIG. The located base station (A), for example, is set as the communication base station. Here, in FIG. 17, the solid line indicates communication between the mobile communication terminal and the communication base station.
[0007]
As a result, in this case, for example, base stations (B), (C), (D), (E) and base stations located in the vicinity of the base station (A), that is, a short distance from the mobile communication terminal. Since (F) is a base station that exists in the neighbor list, the mobile communication terminal has a high possibility of successful search when searching for a base station that exists in the neighbor list. A base station signal from the base station can be measured, and an appropriate base station signal measurement result can be transmitted to the location server. Here, in FIG. 17, a broken line indicates communication between the mobile communication terminal and the base station existing in the neighbor list. In this way, the location server can perform the calculation based on the measurement result of the appropriate base station signal received from the mobile communication terminal, and can appropriately specify the location of the mobile communication terminal.
[0008]
However, as shown in FIG. 18, the mobile communication terminal moves to a shadowed place such as a building, and when a radio wave from a base station located at a short distance is blocked by the building or the like, Rather than setting a base station located at a distance as a communication base station, it is easy to see far away (there is no obstacle to block radio waves with a mobile communication terminal). For example, a base station (K) is a communication base May be set as a station.
[0009]
Then, in this case, for example, base stations (I), (J), (L), (M) and (N) located near the base station (K), that is, distant from the mobile communication terminal. ) Becomes a base station that exists in the neighbor list, so when the mobile communication terminal searches for a base station that exists in the neighbor list, it is unlikely that the search will succeed and the mobile station exists in the neighbor list. Even if the base station signal from a certain base station cannot be received well, and the base station signal can be received after successful search, the appropriate base station signal measurement result is obtained. And the measurement result of the appropriate base station signal cannot be transmitted to the location server. Therefore, the location server cannot appropriately specify the location of the mobile communication terminal.
[0010]
In addition, such a problem is not limited to the case where a mobile communication terminal is set as a communication base station and a base station with good visibility, which is located far away, as shown in FIG. 19, a repeater base station such as a base station (I) ′ May be generated as a communication base station, or as shown in FIG. 20, for example, when a base station (H) located on the opposite bank is set as a communication base station.
[0011]
The present invention has been made in view of the above circumstances, and its purpose is used in a system in which a location server identifies the location of a mobile communication terminal based on a measurement result of a base station signal received from a mobile communication terminal. In the mobile communication terminal, even when the mobile communication terminal is set as a communication base station, such as a base station with a good prospect that is located far away, the measurement result of the appropriate base station signal can be transmitted to the location server, Accordingly, an object of the present invention is to provide a mobile communication terminal and a computer program that allow a position server to appropriately specify its own position.
[0012]
[Means for Solving the Problems]
  According to the mobile communication terminal of claim 1, the control means searches for a base station that does not exist in the neighbor list received from the communication base station when in the idle state, and if the search is successful, The base station search list is created so as to include base stations existing in the base station and base stations that have been successfully searched. And the control meansWhen a positioning start instruction is detected, before the positioning start instruction is detectedThe base station existing in the created base station search list is searched, the base station signal from the base station that has been successfully searched is measured, and the measurement result of the base station signal is transmitted from the communication means to the location server through the communication base station. Send it. Then, the location server identifies the location of the mobile communication terminal based on the measurement result of the base station signal received from the mobile communication terminal.
[0013]
  That is, when the mobile communication terminal is in an idle state, even if a base station located at a short distance from the mobile communication terminal does not exist in the neighbor list, the mobile communication terminal searches for a base station that does not exist in the neighbor list. If the search is successful, the base station search list is created to include the base stations that are successfully searched, that is, the base stations that are close to the base station. Will do. And the mobile communication terminalWhen a positioning start instruction is detected, it is before the positioning start instruction is detected.Search for a base station that exists in the created base station search list, that is, a base station located at a short distance from itself, measure the base station signal from the base station that was successfully searched, and measure the base station signal The result is transmitted to the location server through the communication base station.
[0014]
Therefore, when a mobile communication terminal sets a base station, a repeater base station, or a base station located on the opposite bank as a communication base station located far away from itself, that is, a base station located at a short distance from itself. Even if it does not exist in the neighbor list, by creating the base station search list as described above, it will measure the base station signal from the base station located at a short distance from itself The measurement result of the appropriate base station signal can be transmitted to the position server, and the position server can be appropriately specified.
[0015]
According to the mobile communication terminal of the second aspect, the control means is determined based on the base station signal reception intensity of the base stations successfully searched for or a phase of the base station signal that is equal to or higher than a specified value. Including a base station whose distance to the mobile communication terminal is less than a specified value, and whose base station signal reception strength is less than the specified value or based on the phase of the base station signal. A base station search list is created so as not to include base stations whose distance between them is a predetermined value or more.
[0016]
Therefore, the mobile communication terminal selects a base station from a base station with good conditions by selecting a base station with a high base station signal reception strength or a base station with a small distance from the mobile communication terminal. The measurement result of the station signal can be transmitted to the position server, and its own position can be appropriately specified by the position server.
[0017]
According to the mobile communication terminal of claim 3, the control means searches for at least a base station that is not present in the base station search list when in the idle state, and if the search is successful, the base station that has succeeded in the search Update the base station search list to include Then, the control means searches for the base station existing in the updated base station search list, measures the base station signal from the base station that has been successfully searched, and communicates the measurement result of the base station signal from the communication means. Transmit to the location server through the base station. Then, the location server identifies the location of the mobile communication terminal based on the measurement result of the base station signal received from the mobile communication terminal.
[0018]
That is, when the mobile communication terminal is in an idle state, even if a base station located at a short distance from itself is not present in the base station search list, at least a base station not present in the base station search list Searching for a base station located at a short distance from itself will result in a search, and if the search is successful, it will include a base station that was successfully searched, that is, a base station located at a short distance from itself. The base station search list will be updated. Then, the mobile communication terminal searches for a base station existing in the updated base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station successfully searched. Then, the measurement result of the base station signal is transmitted to the location server through the communication base station.
[0019]
Therefore, even if the base station located at a short distance from the mobile communication terminal does not exist in the base station search list, the mobile communication terminal also updates the base station search list as described above. Since the base station signal from the base station located at a short distance from itself is measured, the measurement result of the appropriate base station signal can be transmitted to the position server, and the own position is appropriately set to the position server. Can be identified. In addition, by repeatedly updating the base station search list in this way, it is possible to transmit the measurement result of the base station signal from the base station with better conditions to the position server, and to appropriately position its own position to the position server. Can be identified.
[0020]
According to the mobile communication terminal of the fourth aspect, the control means is determined based on the base station signal reception strength of the base stations that have been successfully searched or the phase of the base station signal that is greater than or equal to the specified value. Including a base station whose distance to the mobile communication terminal is less than a specified value, and whose base station signal reception strength is less than the specified value or based on the phase of the base station signal. The base station search list is updated so as not to include base stations whose distance between them is equal to or greater than a specified value.
[0021]
Therefore, in the same manner as described in claim 2, the mobile communication terminal is a base station with good conditions such as a base station having a high reception strength of a base station signal or a base station having a small distance from the mobile communication terminal. By selecting, the measurement result of the base station from the base station in good condition can be transmitted to the position server, and the position of itself can be appropriately specified by the position server.
[0022]
According to the mobile communication terminal described in claim 5, the control means sets a prescribed time prescribed in advance for a base station existing in the neighbor list or a base station that has been successfully searched, and the corresponding base station Until the specified time elapses. Therefore, the mobile communication terminal sets whether or not a base station existing in the neighbor list or a base station that has been successfully searched is set as a search target based on the set time by setting a predetermined time specified in advance. Can be determined.
[0023]
According to the mobile communication terminal of the sixth aspect, the control unit is configured to communicate with the mobile communication terminal determined based on the reception strength of the base station signal and the phase of the base station signal with respect to the base station that has been successfully searched. A specified time according to the distance is set, and the corresponding base station is searched until the specified time elapses. Therefore, the mobile communication terminal exists in the neighbor list based on the time set according to the distance from the mobile communication terminal determined based on the reception strength of the base station signal and the phase of the base station signal. It is possible to determine whether or not to search base stations or base stations that have been successfully searched.
[0024]
  According to the mobile communication terminal described in claim 7,When the number of base stations present in the base station search list reaches a specified number, the control means determines the mobile communication terminal to be determined based on the order in which the reception strength of the base station signal is small or the phase of the base station signal Corresponding base stations are deleted from the base station search list in descending order of the distance between them. Therefore, the mobile communication terminal restricts the number of base stations existing in the base station search list, so that an unnecessarily large number of base stations exist in the base station search list. It can be avoided in advance.
[0025]
  According to the mobile communication terminal described in claim 8,The control means creates a base station search list so as to include base stations existing in the neighbor list received by the communication means from the communication base station before changing the communication base station when the communication base station is changed. . Then, the control means searches for a base station existing in the created base station search list, measures a base station signal from the base station that has succeeded in the search, and communicates a measurement result of the base station signal from the communication means. Transmit to the location server through the base station. Then, the location server identifies the location of the mobile communication terminal based on the measurement result of the base station signal received from the mobile communication terminal.
[0026]
  That is, when a mobile communication terminal changes a communication base station, if a base station located at a short distance from itself exists in the neighbor list received from the communication base station before changing the communication base station, A base station search list is created so as to include base stations located at a short distance from the base station. Then, the mobile communication terminal searches for a base station existing in the created base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station that has succeeded in the search. Then, the measurement result of the base station signal is transmitted to the location server through the communication base station.
[0027]
  Therefore, when the mobile communication terminal changes the communication base station, when a base station with a good prospect located far from itself, a repeater base station or a base station located on the opposite bank is set as a communication base station, that is, Even if a base station located at a short distance from itself does not exist in the neighbor list, a base station located at a short distance from itself in the neighbor list received from the communication base station before changing the communication base station In this case, a base station signal from a base station located at a short distance from itself is measured by creating a base station search list as described above. The measurement result of the base station signal can be transmitted to the location server, and the location server can be appropriately identified by the location server.
[0028]
  According to the mobile communication terminal described in claim 13, the control means includes a base station so as to include a base station existing in the base station search list before changing the communication base station when the communication base station is changed. Update the search list. Then, the control means searches for the base station existing in the updated base station search list, measures the base station signal from the base station that has been successfully searched, and communicates the measurement result of the base station signal from the communication means. Transmit to the location server through the base station. Then, the location server identifies the location of the mobile communication terminal based on the measurement result of the base station signal received from the mobile communication terminal.
[0029]
  That is, when the mobile communication terminal changes the communication base station, if there is a base station located at a short distance from itself in the base station search list before changing the communication base station, the mobile communication terminal is located at a short distance from itself. The base station search list is updated so that the base station to be included is included. Then, the mobile communication terminal searches for a base station existing in the updated base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station successfully searched. Then, the measurement result of the base station signal is transmitted to the location server through the communication base station.
[0030]
  Therefore, when the mobile communication terminal changes the communication base station, when a base station with a good prospect located far from itself, a repeater base station or a base station located on the opposite bank is set as a communication base station, that is, Even if a base station located at a short distance from itself does not exist in the neighbor list, a base station located at a short distance from itself exists in the base station search list before changing the communication base station. For example, by updating the base station search list as described above, the base station signal from the base station located at a short distance from itself is measured in this case as well. The result can be sent to the location server and the location server can be made to properly identify its location.
[0031]
  According to the computer program recited in claim 17, a location server configured to identify the location of the mobile communication terminal based on the measurement result of the base station signal received from the mobile communication terminal. Neighbors representing a list of neighboring base stations located in the vicinity of the communication base station received from the communication base station when in an idle state when installed and executed in a mobile communication terminal used in the location system provided A procedure for searching for a base station that does not exist in the list, a procedure for generating a base station search list so as to include base stations that are present in the neighbor list and base stations that have been successfully searched, and the created base station A procedure for searching for a base station existing in the search list, a procedure for measuring a base station signal from a base station that has been successfully searched, Since so to perform a procedure for transmitting the measurement results of the station signals to the location server through a communication base station, it is possible to obtain the same effects as those described in claim 1 described above.
[0032]
  According to a computer program according to claim 18,A mobile communication terminal used in a position specifying system comprising a position server configured to specify the position of the mobile communication terminal based on a measurement result of a base station signal received from the mobile communication terminal. When installed and executed, a procedure for searching at least a base station that does not exist in the base station search list when in an idle state, and a procedure for updating the base station search list to include a base station that has been successfully searched And a procedure for searching for a base station existing in the updated base station search list, a procedure for measuring a base station signal from a base station that has been successfully searched, and a measurement result of the base station signal through a communication base station The procedure to be transmitted to the location server is executed, so that the same effect as that described in claim 3 can be obtained. .
[0033]
  According to a computer program according to claim 19,A mobile communication terminal used in a position specifying system comprising a position server configured to specify the position of the mobile communication terminal based on a measurement result of a base station signal received from the mobile communication terminal. When installed and executed, the base station search list is created to include base stations that exist in the neighbor list received from the communication base station before changing the communication base station when the communication base station is changed. The base station search list, the base station search procedure for searching for base stations that exist in the created base station search list, the base station signal measurement results, and the base station signal measurement results. Since the procedure of transmitting to the location server through the station is executed, the same effect as that described in claim 9 can be obtained.
[0034]
  According to a computer program according to claim 20,A mobile communication terminal used in a position specifying system comprising a position server configured to specify the position of the mobile communication terminal based on a measurement result of a base station signal received from the mobile communication terminal. When the base station search list is installed and executed, the base station search list is updated to include the base stations existing in the base station search list created before the communication base station is changed when the communication base station is changed. And a procedure for searching for a base station existing in the updated base station search list, a procedure for measuring a base station signal from a base station that has been successfully searched, and a measurement result of the base station signal through a communication base station Since the procedure to be transmitted to the location server is executed, it is possible to obtain the same operational effects as those described in the above-described claim 14.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the mobile communication terminal of the present invention determines the position of the mobile phone based on GPS satellite signals from GPS (Global Positioning System) satellites and base station signals from neighboring base stations located around the communication base station. An embodiment applied to a mobile phone used in an identifiable position specifying system will be described with reference to FIGS.
[0037]
First, FIG. 2 schematically shows the overall configuration of the position specifying system. The mobile phone 1 determines a communication base station from a plurality of base stations 2 based on, for example, the reception strength of the base station signal, and the determined communication base station communicates with the location server 4 through a CDMA (Code Division Multiple Access) network 3. Send and receive various signals between them. The mobile phone 1 and the location server 4 receive GPS satellite signals from the GPS satellite 5. The position server 4 holds almanac information about the GPS satellite 5 and almanac information about the base station 2 (installation position, antenna direction (directivity), service area, etc.).
[0038]
FIG. 3 schematically shows functional blocks of the mobile phone 1. The cellular phone 1 has a CDMA network between a central processing unit (CPU) 6 (control means in the present invention) and a GPS radio unit 7 that searches for a GPS satellite 5 and a base station 2 and a location server 4. 3, a CDMA radio unit 8 (communication means in the present invention) for transmitting and receiving information, a voice processing unit 11 for processing a transmission voice input from the microphone 9 and a reception voice output from the speaker 10, and a “call start” key. , An operation unit 12 composed of a keypad on which a large number of keys such as a “call end” key and “number” keys “0” to “9” are arranged, and a liquid crystal display for displaying date / time, telephone number, etc. And a storage unit 14 including a RAM (Random Access Memory) and a ROM (Read Only Memory). In this case, the operation unit 12 may be a touch panel type displayed on the display unit 13 or may have a configuration in which the antenna of the GPS radio unit 7 and the antenna of the CDMA radio unit 8 are combined. .
[0039]
Next, the operation of the above configuration will be described. Here, a case will be described in which the position server 4 specifies the position of the mobile phone 1 based only on the base station signal from the base station, that is, without using the GPS satellite signal from the GPS satellite 5. In the following explanation,
(1) When the mobile phone 1 is in an idle state
(2) When the mobile phone 1 changes the communication base station
These will be described in order.
[0040]
(1) When the mobile phone 1 is in an idle state
First, a case where the mobile phone 1 is in an idle state will be described with reference to FIGS. 1 and 4 to 11. Here, as shown in FIGS. 4 and 5, description will be made on the assumption that the base station (A) is set as a communication base station when the mobile phone 1 is in an idle state.
[0041]
In the mobile phone 1, when the paging channel is received by the CDMA radio unit 8 from the base station (A) that is the communication base station in the idle state, the CPU 6 analyzes the received paging channel and determines the neighbor list (Step S1 in FIG. 1).
[0042]
Next, the CPU 6 searches for a base station that does not exist in the acquired neighbor list (step S2 in FIG. 1). More specifically, when the base station (B), (C), (D), (E), and (F) exists in the acquired neighbor list, for example, the CPU 6 other than that, for example, Search for base stations (G), (H), (I), (K) and (P). In this case, the CPU 6 may select and search for the base station so that the base station ID is in ascending order, for example, based on the base station ID individually assigned to the base station, or in the neighbor list. A base station to which a base station ID close to the base station ID of the existing base station is assigned may be selected and searched.
[0043]
Then, when the search is successful, the CPU 6 creates a base station search list so as to include the base stations existing in the previously acquired neighbor list and the base stations that have been successfully searched (step S3 in FIG. 1). ). Specifically, as shown in FIG. 4, the CPU 6, for example, of the searched base stations (G), (H), (I), (K), and (P), for example, the base stations (G), ( If the search of (H) and (P) is successful, as shown in FIG. 6, the base stations (B), (C), (D), (E) and (E) existing in the previously acquired neighbor list are obtained. F) and a base station search list are created so as to include base stations (G), (H), and (P) that have been successfully searched.
[0044]
At this time, the CPU 6 sets a lifetime corresponding to the time for which the corresponding base station is to be searched based on the reception intensity and phase of the base station signal. Specifically, the CPU 6 assumes that the base station is located at a short distance from the mobile phone 1 when the received signal strength of the base station signal is high or the phase is small, thereby determining the lifetime. On the other hand, when the reception strength of the base station signal is low or the phase is large, the lifetime is set small by assuming that the corresponding base station is located far from the mobile phone 1 To do. That is, the CPU 6 sets the lifetime large for the base station with good conditions, while setting the lifetime small for the base station with poor conditions.
[0045]
Next, the CPU 6 searches for a base station that exists in the base station search list created in this way and a base station that does not exist in the base station search list (step S4 in FIG. 1). More specifically, the CPU 6 adds the base stations (B), (C), (D), (E), (F), (G), (H) to the base station search list created as described above. ) And (P) exist, so search for those base stations (B), (C), (D), (E), (F), (G), (H) and (P) For example, other base stations (I), (J) and (O) are also searched. Also in this case, the CPU 6 may select and search for the base station so that the base station ID is in ascending order, for example, based on the base station ID assigned to each base station. A base station to which a base station ID close to the base station ID of the base station existing in the list may be selected and searched.
[0046]
When the search is successful, the CPU 6 updates the base station search list so as to include the base stations that have been successfully searched (step S5 in FIG. 1). Specifically, as shown in FIG. 5, when the CPU 6 succeeds in searching, for example, the base stations (I) and (O) among the searched base stations (I), (J), and (O), As shown in FIG. 7, the base station search list is updated to include base stations (I) and (O) that have been successfully searched.
[0047]
Thereafter, the CPU 6 repeatedly performs the same processing as this, and repeatedly updates the base station search list. The CPU 6 sets the lifetime to “∞” for the base stations (B), (C), (D), (E) and (F) existing in the neighbor list.
[0048]
When the CPU 6 detects that the user has performed an operation to instruct positioning start (step S6 in FIG. 1), for example, the CPU 6 sends a positioning request and base station information from the CDMA radio unit 8 to the base station (communication base station). The data is transmitted to the location server 4 through A). When the location server 4 receives the positioning request and the base station information from the mobile phone 1, the location server 4 identifies the communication base station based on the received base station information (step T1 in FIG. 1), and identifies the reference base station. Then, the positioning response is transmitted to the mobile phone 1 (step T2 in FIG. 1).
[0049]
In the mobile phone 1, when the positioning response is received from the location server 4 by the CDMA radio unit 8, the CPU 6 searches for a base station existing in the base station search list at that time (step S7 in FIG. 1). Then, the base station signal from the base station that has succeeded in the search is measured (step S8 in FIG. 1), and the measurement result of the base station signal is acquired (step S9 in FIG. 1). Then, the CPU 6 causes the location server 4 to transmit the measurement result of the base station signal acquired in this way from the CDMA radio unit 8 through the base station (A) which is a communication base station.
[0050]
When the location server 4 receives the measurement result of the base station signal from the mobile phone 1, the location server 4 performs an operation based on the received measurement result and specifies the location of the mobile phone 1 (step T3 in FIG. 1). Then, the location server 4 transmits to the mobile phone 1 a result of specifying the location of the mobile phone 1.
[0051]
As described above, when the mobile phone 1 is in the idle state, even if the base station located at a short distance from the mobile phone 1 does not exist in the neighbor list, the mobile phone 1 does not exist in the neighbor list. By searching for stations (G), (H), (I), (K), and (P), a base station located at a short distance from itself is searched. If the search is successful, the search is successful. Thus, the base station search list is created so as to include, for example, base stations (G), (H), and (P) located at a short distance from the base station. Then, the mobile phone 1 searches for a base station existing in the created base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station that has succeeded in the search. Then, the measurement result of the base station signal is transmitted to the location server 4 through the base station (A) which is a communication base station.
[0052]
Further, when the mobile phone 1 is in an idle state, even if a base station located at a short distance from the mobile phone 1 does not exist in the base station search list, the mobile phone 1 does not exist in the base station search list. By searching for (I), (J), and (O), a base station located at a short distance from itself is searched. If the search is successful, the base station that has succeeded in the search, that is, a base station that is close to itself is searched. The base station search list is updated to include base stations located at a distance. Then, the mobile phone 1 searches for a base station existing in the updated base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station successfully searched. Then, the measurement result of the base station signal is transmitted to the location server 4 through the base station (A) which is a communication base station.
[0053]
By the way, when creating the base station search list, the CPU 6 is not limited to creating the base station search list so as to include the base stations existing in the neighbor list and all the base stations successfully searched. It is also possible to create a base station search list so as to include base stations that exist in the neighbor list and base stations that satisfy a predetermined condition among the base stations that have been successfully searched.
[0054]
Specifically, as shown in FIG. 8, when the base stations that have succeeded in the search are the base stations (G), (H), and (P), as shown in FIG. A base station search list that includes a base station (H) having the longest lifetime and a base station (G) having the longest lifetime and does not include a base station (P) having the shortest lifetime. It is also possible to create.
[0055]
Further, as shown in FIG. 9, when the base stations that have been successfully searched are the base stations (G), (H), and (P), for example, when the reception strength of the base station signal is used as the selection criterion, A base station (G) having the highest received strength of the base station signal and a base station (P) having the highest received strength of the base station signal at the next point, and a base station having the lowest received strength of the base station signal It is also possible to create a base station search list so as not to include (H). In this case, as described above, the selection time is not limited to the lifetime or the reception intensity of the base station signal, and for example, the phase of the base station signal may be used as the selection reference.
[0056]
Similarly, when updating the base station search list, the CPU 6 is not limited to updating the base station search list so as to include all the base stations that have been successfully searched. It is also possible to update the base station search list so as to include base stations satisfying a predetermined condition.
[0057]
Specifically, as shown in FIG. 10, when the base stations that have been successfully searched are base stations (I), (O), and (N), as shown in FIG. A base station search list that includes the base station (I) having the longest lifetime and the base station (O) having the longest lifetime, and does not include the base station (N) having the shortest lifetime. Can also be updated. Also in this case, the lifetime is not limited to the selection criterion, and the reception intensity or phase of the base station signal may be used as the selection criterion, for example.
[0058]
Further, when updating the base station search list, the CPU 6 updates the base station search list so as to delete the base stations existing in the base station search list at the same time as including the base stations that have been successfully searched. Is also possible.
[0059]
Specifically, as shown in FIG. 11, when the base stations successfully searched are base stations (I), (O), and (N), the CPU 6, as shown in FIG. ) And (N) at the same time, it is also possible to update the base station search list so as to delete the base station (H) having the shortest lifetime among the base stations existing in the base station search list. is there. Also in this case, for example, the reception strength of the base station signal may be used as the selection criterion, or the phase of the base station signal may be used as the selection criterion.
[0060]
The CPU 6 can also limit the number of base stations that can exist (can be registered) in the base station search list. More specifically, the CPU 6 sets the specified number of stations in advance, and when creating or updating the base station search list, the number of base stations existing in the base station search list has reached the specified number of stations. Sometimes, as described above, base stations that have been successfully searched out of base stations are not included in the base station search list, or conditions of base stations that are present in the base station search list are not included. It is also possible to delete a bad base station from the base station search list.
[0061]
(2) When the mobile phone 1 changes the communication base station
Next, a case where the mobile phone 1 changes the communication base station will be described with reference to FIGS. Here, as shown in FIG. 12, description will be made on the assumption that the mobile phone 1 changes the communication base station from the base station (A) to the base station (H).
[0062]
In the mobile phone 1, the CPU 6 sets the base station (A) as a communication base station, and when in the idle state, the paging channel is transmitted from the base station (A) serving as the communication base station to the CDMA radio. When received by the unit 8, the above-described steps S1 to S3 are performed to create a base station search list.
[0063]
Here, the CPU 6 changes the communication base station from the base station (A) to the base station (H) (step S11 in FIG. 13), and the base station that is the communication base station after changing the communication base station When the paging channel is received by the CDMA radio unit 8 from (H), the received paging channel is analyzed and a neighbor list is acquired (step S12 in FIG. 13). And CPU6 is a communication base station after changing the base station and communication base station which exist in the neighbor list received from the base station (A) which is a communication base station before changing a communication base station A base station search list is created so as to include base stations that are present from the neighbor list received from the base station (H) (step S13 in FIG. 13).
[0064]
Specifically, as shown in FIG. 14, the CPU 6 adds, for example, base stations (B), (C) to the neighbor list received from the base station (A) that is the communication base station before changing the communication base station. ), (D), (E), and (F) exist, and the neighbor list received from the base station (H) that is the communication base station after changing the communication base station includes, for example, the base station (B), ( If G), (I) and (J) are present, these base stations (B), (C), (D), (E), (F), (G), (I) and A base station search list is created so as to include (J).
[0065]
Thereafter, the CPU 6 performs processing similar to the processing described in “(1) When the mobile phone 1 is in the idle state”, and repeatedly updates the base station search list. Further, when the CPU 6 detects that the user has performed an operation to instruct the positioning start (step S6 in FIG. 13), it has been described in “(1) When the mobile phone 1 is in the idle state”. The same processing as the processing is performed.
[0066]
As described above, when the mobile phone 1 changes the communication base station from the base station (A) to the base station (H), the base station (A) that is the communication base station before changing the communication base station. If a base station located at a short distance from itself exists in the neighbor list received from, a base station search list is created so as to include a base station located at a short distance from itself. Then, the mobile phone 1 searches for a base station existing in the created base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station that has succeeded in the search. Then, the measurement result of the base station signal is transmitted to the location server 4 through the base station (H) which is a communication base station.
[0067]
By the way, in this case, the CPU 6 changes the communication base station and the base station existing in the neighbor list received from the base station (A) that is the communication base station before the communication base station is changed. The base station search list is generated not only in the base station search list so as to include the base station existing in the neighbor list received from the base station (H) that is the station, but as follows. It is also possible.
[0068]
That is, the CPU 6 sets the communication base station to the base station that has succeeded in the search among the base stations existing in the neighbor list received from the base station (A) that is the communication base station before changing the communication base station. It is also possible to create a base station search list so as to add a base station that exists in the neighbor list received from the base station (H) that is the communication base station after the change. Further, the CPU 6 determines that the distance from the base station whose reception intensity of the base station signal among the successfully searched base stations is equal to or higher than a specified value and the mobile phone 1 determined based on the phase of the base station signal is a specified value. Create a base station search list so that base stations existing in the neighbor list received from the base station (H) that is the communication base station after changing the communication base station are added to the base stations of less than Is also possible. Furthermore, the CPU 6 searches for a base station existing in the neighbor list received from the base station (A) that is the communication base station before changing the communication base station, and includes the base station that has been successfully searched. It is also possible to create a base station search list.
[0069]
In addition, after changing the communication base station from the base station (A) to the base station (H), the CPU 6 changes the base station and the communication base station existing in the base station search list before changing the communication base station. Then, the base station search list is updated so as to include the base station in the neighbor list received from the base station (H) which is the communication base station (step S21 in FIG. 15).
[0070]
Specifically, as shown in FIG. 16, the CPU 6 adds, for example, base stations (B), (C), (D), (E), (F) to the base station search list before changing the communication base station. ), (G), and (P), and the neighbor list received from the base station (H) that is the communication base station after changing the communication base station includes, for example, the base stations (B), (G), ( If I) and (J) are present, these base stations (B), (C), (D), (E), (F), (G), (P), (I) and Update the base station search list to include (J).
[0071]
Thereafter, in this case as well, the CPU 6 performs the same process as described in “(1) When the mobile phone 1 is in the idle state”, and repeatedly updates the base station search list. Further, when the CPU 6 detects that the user has performed an operation for instructing the positioning start (step S6 in FIG. 15), it has been described in “(1) When the mobile phone 1 is in the idle state”. The same processing as the processing is performed.
[0072]
As described above, when the mobile phone 1 changes the communication base station from the base station (A) to the base station (H), the mobile phone 1 is in a short distance from itself in the base station search list before changing the communication base station. If there is a base station located, the base station search list is updated to include a base station located at a short distance from itself. Then, the mobile phone 1 searches for a base station existing in the updated base station search list, that is, a base station located at a short distance from itself, and measures a base station signal from the base station successfully searched. Then, the measurement result of the base station signal is transmitted to the location server 4 through the base station (H) which is a communication base station.
[0073]
By the way, in this case, the CPU 6 is received from the base station (H) which is the communication base station after changing the communication base station and the base station existing in the base station search list before changing the communication base station. The base station search list is not limited to be updated so as to include the base stations existing in the neighbor list, but the base station search list can also be updated as follows.
[0074]
That is, the CPU 6 is a base station that is a communication base station after changing the communication base station to a base station that has been successfully searched among the base stations existing in the base station search list before changing the communication base station. It is also possible to update the base station search list so as to add the base station in which the neighbor list received from (H) exists. Further, the CPU 6 determines that the distance from the base station whose reception intensity of the base station signal among the successfully searched base stations is equal to or higher than a specified value and the mobile phone 1 determined based on the phase of the base station signal is a specified value. Update the base station search list so that base stations existing in the neighbor list received from the base station (H) that is the communication base station after changing the communication base station are added to the base stations below Is also possible.
[0075]
As described above, according to the present embodiment, the mobile phone 1 searches for a base station that does not exist in the neighbor list received from the communication base station when in the idle state, and if the search is successful, Create a base station search list to include base stations that exist in the list and base stations that have been successfully searched, search for base stations that exist in the created base station search list, and succeed in the search The base station signal from the base station is measured, and the measurement result of the base station signal is transmitted to the location server 4.
[0076]
Accordingly, the mobile phone 1 is configured such that a base station, a repeater base station, or a base station located on the opposite bank located far away from itself is set as a communication base station, that is, a base station located at a short distance from itself. Base station from a base station located at a short distance from itself by creating a base station search list to include base stations located at a short distance from itself, even if the Since the signal is measured, the measurement result of the appropriate base station signal can be transmitted to the position server 4 and the position server 4 can be appropriately specified.
[0077]
Further, when the mobile phone 1 is in an idle state, it searches for a base station that does not exist in the base station search list, and if the search is successful, the base station search list is updated to include the base station that has been successfully searched. The base station existing in the updated base station search list is searched, the base station signal from the base station that has been successfully searched is measured, and the measurement result of the base station signal is transmitted to the location server 4 did.
[0078]
Therefore, the mobile phone 1 sets the base station search list so as to include the base station located at a short distance from itself even when the base station located at a short distance from the mobile phone 1 does not exist in the base station search list. By updating, in this case as well, since the base station signal from the base station located at a short distance from itself is measured, the measurement result of the appropriate base station signal can be transmitted to the position server 4, It is possible to make the position server 4 appropriately identify its own position. In addition, by repeatedly updating the base station search list in this way, the measurement result of the base station signal from the base station with better conditions can be transmitted to the location server 4, and the location server 4 can change its own location. It can be identified appropriately.
[0079]
Further, in the mobile phone 1, when the communication base station is changed, a base station search list is created so as to include a base station existing in the neighbor list received from the communication base station before the communication base station is changed. The base station existing in the created base station search list is searched, the base station signal from the base station that has been successfully searched is measured, and the measurement result of the base station signal is transmitted to the location server 4 did.
[0080]
Therefore, when the mobile phone 1 changes the communication base station, the mobile phone 1 is set as a communication base station such as a base station with a good view located far from itself, a repeater base station, or a base station located on the opposite bank, that is, Even if a base station located at a short distance from itself does not exist in the neighbor list, a base station located at a short distance from itself in the neighbor list received from the communication base station before changing the communication base station In this case, the base station signal from a base station located at a short distance from itself is also measured by creating a base station search list to include base stations located at a short distance from itself. As a result, the measurement result of the appropriate base station signal can be transmitted to the location server 4, and the location server 4 can be made to specify the location of itself appropriately.
[0081]
Further, in the mobile phone 1, when the communication base station is changed, the base station search list is updated so as to include the base station existing in the base station search list before changing the communication base station, and the updated base station The base station existing in the station search list is searched, the base station signal from the base station that has been successfully searched is measured, and the measurement result of the base station signal is transmitted to the location server 4.
[0082]
Therefore, when the mobile phone 1 changes the communication base station, the mobile phone 1 is set as a communication base station such as a base station with a good view located far from itself, a repeater base station, or a base station located on the opposite bank, that is, Even if a base station located at a short distance from itself does not exist in the neighbor list, a base station located at a short distance from itself exists in the base station search list before changing the communication base station. For example, by updating the base station search list so as to include a base station located at a short distance from itself, a base station signal from a base station located at a short distance from itself is also measured in this case. The measurement result of the appropriate base station signal can be transmitted to the position server 4, and the position server 4 can be made to appropriately specify its own position.
[0083]
The present invention is not limited to the above-described embodiments, and can be modified or expanded as shown below, for example.
The mobile communication terminal is not limited to a mobile phone, but may be another type such as a mobile information terminal having a communication function.
The base station may have a location server function.
[0084]
You may apply when specifying the position of a mobile telephone using both a GPS satellite signal and a base station signal.
A configuration may be adopted in which a lifetime corresponding to a time for which the corresponding base station is searched is determined based on network information of the communication base station.
[0085]
The computer program executed by the CPU is not limited to the one stored from the beginning (for example, at the stage of commercialization), but may be downloaded from a specific server through a network, or may be a CD-ROM (Compact Disk-Read Only Memory) or a card. It may be transferred from a recording medium or the like and installed.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing a processing flow of an embodiment of the present invention.
FIG. 2 is a diagram schematically showing the overall configuration of the system
FIG. 3 is a functional block diagram showing the configuration of a mobile phone
FIG. 4 is a diagram schematically showing an aspect when a base station (A) is set as a communication base station;
FIG. 5 is a view corresponding to FIG.
FIG. 6 is a diagram showing a base station search list and the like
7 is a view corresponding to FIG.
FIG. 8 is a view corresponding to FIG.
FIG. 9 is a view corresponding to FIG.
FIG. 10 is a view corresponding to FIG.
11 is equivalent to FIG.
FIG. 12 is a diagram schematically showing an aspect when a communication base station is changed from a base station (A) to a base station (H).
FIG. 13 is a view corresponding to FIG.
14 is a view corresponding to FIG.
15 is equivalent to FIG.
FIG. 16 is equivalent to FIG.
FIG. 17 is a diagram schematically showing an aspect when a base station (A) located at a short distance is set as a communication base station;
FIG. 18 is a diagram schematically showing an aspect in a case where a base station (K) that is located far away and has a good line of sight is set as a communication base station;
FIG. 19 is a diagram schematically showing an aspect when a repeater base station (I) ′ is set as a communication base station;
FIG. 20 is a diagram schematically showing an aspect when a base station (H) located on the opposite bank is set as a communication base station;
[Explanation of symbols]
1 is a mobile phone (mobile communication terminal), 2 is a base station, 4 is a location server, 6 is a CPU (control means), and 8 is a CDMA radio unit (communication means).

Claims (22)

A mobile communication terminal used in a location system comprising a location server configured to identify the location of a mobile communication terminal based on a measurement result of a base station signal received from a mobile communication terminal,
A communication means for receiving a neighbor list representing a list of neighboring base stations located around the communication base station from the communication base station, and transmitting a measurement result of the base station signal to the position server through the communication base station;
A base station that does not exist in the neighbor list received by the communication means from the communication base station when in the idle state is searched, and includes a base station that exists in the neighbor list and a base station that has been successfully searched A base station search list is created at the same time, and when a positioning start instruction is detected, a base station existing in the base station search list created before detecting a positioning start instruction is searched and searched. And a control means for transmitting a measurement result of a base station signal from a base station that has been successfully transmitted from the communication means to a location server through the communication base station. In the mobile communication terminal according to claim 1,
The control means is configured such that a base station signal reception intensity of base stations that have been successfully searched is a predetermined value or a distance from a mobile communication terminal that is determined based on a base station signal or a phase of the base station signal. Base stations whose base station signal reception strength is lower than the specified value or base stations whose distance from the mobile communication terminal determined based on the phase of the base station signal is higher than the specified value. A mobile communication terminal characterized by creating a base station search list. In the mobile communication terminal according to claim 1 or 2,
The control means searches for a base station that is not present in the base station search list at least when in the idle state, updates the base station search list to include a base station that has been successfully searched, and updated base stations A mobile communication terminal characterized in that a base station existing in a station search list is searched and a measurement result of a base station signal from a base station that has been successfully searched is transmitted from the communication means to a location server through the communication base station. . In the mobile communication terminal according to claim 3,
The control means is configured such that a base station signal reception intensity of base stations that have been successfully searched is a predetermined value or a distance from a mobile communication terminal that is determined based on a base station signal or a phase of the base station signal. Base stations whose base station signal reception strength is lower than the specified value or base stations whose distance from the mobile communication terminal determined based on the phase of the base station signal is higher than the specified value. A mobile communication terminal characterized in that a base station search list is updated so as not to exist. In the mobile communication terminal according to any one of claims 1 to 4,
The control means sets a predetermined time specified in advance for a base station existing in a neighbor list or a base station that has been successfully searched, and makes the corresponding base station a search target until the predetermined time elapses. A mobile communication terminal characterized by the above. In the mobile communication terminal according to any one of claims 1 to 4,
The control means sets a specified time according to the distance from the mobile communication terminal determined based on the reception strength of the base station signal and the phase of the base station signal for the base station that has been successfully searched, A mobile communication terminal characterized in that a base station to be searched is a search target until a predetermined time elapses. The mobile communication terminal according to any one of claims 1 to 6 ,
When the number of base stations existing in the base station search list reaches the specified number, the control means is determined based on the order in which the reception strength of the base station signal is small or the phase of the base station signal. A mobile communication terminal, wherein a corresponding base station is deleted from a base station search list in descending order of distance from the mobile communication terminal. The mobile communication terminal according to any one of claims 1 to 7,
The control means includes a base station search list so as to include a base station existing in a neighbor list received by the communication means from a communication base station before changing the communication base station when the communication base station is changed. A base station existing in the created base station search list is searched and a measurement result of a base station signal from the base station that has been successfully searched is transmitted from the communication means to the location server through the communication base station . A mobile communication terminal characterized by the above. In the mobile communication terminal according to claim 8 ,
The control means includes a base station existing in a neighbor list received by the communication means from the communication base station before changing the communication base station and a communication base station after changing the communication base station by the communication means. A mobile communication terminal characterized by creating a base station search list so as to include at least one of base stations present in a received neighbor list . In the mobile communication terminal according to claim 8 ,
The control means has changed the communication base station to a base station that has been successfully searched from among the base stations present in the neighbor list received by the communication means from the communication base station before changing the communication base station. A mobile communication terminal that creates a base station search list so as to add a base station existing in a neighbor list received by the communication means from a later communication base station . In the mobile communication terminal according to claim 10 ,
The control means is configured such that a base station signal reception intensity of base stations that have been successfully searched is a predetermined value or a distance from a mobile communication terminal that is determined based on a base station signal or a phase of the base station signal. The base station search list is created so that base stations existing in the neighbor list received by the communication means from the communication base station after changing the communication base station are added to the base stations of less than Mobile communication terminal. In the mobile communication terminal according to claim 10 ,
The control means searches for a base station existing in a neighbor list received by the communication means from a communication base station before changing the communication base station, and searches for a base station to include a base station that has been successfully searched. A mobile communication terminal characterized by creating a list . The mobile communication terminal according to any one of claims 1 to 7 ,
The control means updates the base station search list so that the base station existing in the base station search list created before changing the communication base station when the communication base station is changed is updated. The base station search list is searched for a base station, and the base station signal measurement result from the base station that has been successfully searched is transmitted from the communication means to the location server through the communication base station. Communication terminal. In the mobile communication terminal according to claim 13 ,
The control means includes a base station existing in a base station search list created before changing the communication base station and a neighbor list received by the communication means from the communication base station after changing the communication base station. A mobile communication terminal , wherein a base station search list is updated to include at least one of existing base stations . In the mobile communication terminal according to claim 13 ,
The control means, from the communication base station after changing the communication base station to the base station that has been successfully searched out of the base stations that exist in the base station search list created before changing the communication base station A mobile communication terminal , wherein a base station search list is updated so as to add a base station existing in a neighbor list received by the communication means . In the mobile communication terminal according to claim 15 ,
The control means is configured such that a base station signal reception intensity of base stations that have been successfully searched is a predetermined value or a distance from a mobile communication terminal that is determined based on a base station signal or a phase of the base station signal. The base station search list is updated so that base stations existing in the neighbor list received by the communication means from the communication base station after changing the communication base station are added to the base stations of less than Mobile communication terminal. In a mobile communication terminal used in a position specifying system comprising a position server configured to specify the position of the mobile communication terminal based on a measurement result of a base station signal received from the mobile communication terminal,
A procedure for searching for a base station that does not exist in a neighbor list that represents a list of neighboring base stations located around the communication base station received from the communication base station when in an idle state;
Creating a base station search list to include base stations present in the neighbor list and successfully searched base stations;
A procedure for searching for a base station existing in a created base station search list created before detecting a positioning start instruction when detecting a positioning start instruction;
Procedure to measure the base station signal from the base station successfully searched,
A computer program for executing a procedure for transmitting a measurement result of a base station signal to a location server through a communication base station. The computer program according to claim 17,
A procedure to search for a base station that is not present in at least the base station search list when in an idle state;
Updating the base station search list to include base stations that have been successfully searched;
A procedure for searching for a base station existing in the updated base station search list;
Procedure to measure the base station signal from the base station that was successfully searched,
A computer program for executing a procedure for transmitting a measurement result of a base station signal to a location server through a communication base station . The computer program according to claim 17 or 18,
A procedure for creating a base station search list so as to include a base station existing in a neighbor list received from a communication base station before changing the communication base station when the communication base station is changed,
A procedure for searching for a base station existing in the created base station search list,
Procedure to measure the base station signal from the base station that was successfully searched,
A computer program for executing a procedure for transmitting a measurement result of a base station signal to a location server through a communication base station . The computer program according to claim 17 or 18 ,
A procedure for updating the base station search list to include base stations existing in the base station search list created before changing the communication base station when the communication base station is changed;
A procedure for searching for a base station existing in the updated base station search list;
Procedure to measure the base station signal from the base station that was successfully searched,
A computer program for executing a procedure for transmitting a measurement result of a base station signal to a location server through a communication base station . A mobile communication terminal used in a location system comprising a location server configured to identify the location of a mobile communication terminal based on a measurement result of a base station signal received from a mobile communication terminal,
A communication means for receiving a neighbor list representing a list of neighboring base stations located around the communication base station from the communication base station, and transmitting a measurement result of the base station signal to the position server through the communication base station;
A base station that does not exist in the neighbor list received by the communication means from the communication base station when in the idle state is searched, and the base station that exists in the neighbor list and the base station that has been successfully searched are included. The base station search list is created at the same time, the base station existing in the created base station search list is searched, and the measurement result of the base station signal from the base station successfully searched is sent from the communication means to the communication base station. Control means for transmitting to the location server through,
When the number of base stations present in the base station search list reaches a specified number, the control means is determined based on the order of decreasing base station signal reception strength or the phase of the base station signal. A mobile communication terminal, wherein a corresponding base station is deleted from a base station search list in descending order of distance from the mobile communication terminal. A mobile communication terminal used in a location system comprising a location server configured to identify the location of a mobile communication terminal based on a measurement result of a base station signal received from a mobile communication terminal,
A neighbor list representing a list of neighboring base stations located around the communication base station. Communication means for transmitting the measurement result of the base station signal to the location server through the communication base station,
A base station that does not exist in the neighbor list received by the communication means from the communication base station when in the idle state is searched, and includes a base station that exists in the neighbor list and a base station that has been successfully searched The base station search list is created, the base station existing in the created base station search list is searched, and the measurement result of the base station signal from the base station that has been successfully searched is transmitted from the communication means to the communication base station. Control means for transmitting to the location server through,
The control means updates the base station search list so that the base station existing in the base station search list created before changing the communication base station when the communication base station is changed is updated. The base station search list is searched for a base station, and the base station signal measurement result from the base station that has been successfully searched is transmitted from the communication means to the location server through the communication base station. Communication terminal.

Images