JP3758616B2 - Mobile communication system, base station control device, and computer program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a mobile communication terminal capable of capturing any one of a plurality of base stations as a communication base station.A base station controller for controlling a base station that can be captured as a communication base station by a mobile communication terminal;A mobile communication system comprising:Base station controllerAnd saidBase station controllerThe computer program executed in
[0002]
[Problems to be solved by the invention]
2. Description of the Related Art In recent years, mobile phones using a code division multiple access (CDMA) system have been provided as one of mobile communication terminals. Since a mobile phone adopting the CDMA system basically captures a base station having a high pilot signal reception strength as a communication base station, a base station located at a short distance from the mobile phone is captured as a communication base station. It is like that.
[0003]
Then, when the mobile phone captures a base station located at a short distance from the mobile phone as a communication base station, a signal (downlink signal) transmitted from the base station where the mobile phone is captured as a communication base station is appropriately In addition, the base station captured as the communication base station can appropriately receive the signal (uplink signal) transmitted from the mobile phone, and the communication quality can be appropriately maintained.
[0004]
By the way, mobile phones exist at high altitudes, such as the rooftops of high-rise buildings, and there are no obstacles that block radio waves between the mobile phone and a base station located far away. When the line of sight is good with a base station located in the base station, a base station located at a short distance from the mobile phone is not captured as a communication base station, but a base station located far from the mobile phone is captured as a communication base station. There is a case.
[0005]
However, when the mobile phone captures a base station located far from the mobile phone as a communication base station, the mobile phone can appropriately receive a signal transmitted from the base station captured as the communication base station. On the other hand, there is a case where a base station captured as a communication base station cannot properly receive a signal transmitted from a mobile phone, and as a result, there is a problem that communication quality deteriorates.
[0006]
  The present invention has been made in view of the above circumstances, and its purpose is a mobile communication system capable of avoiding a decrease in communication quality,Base station controllerAnd providing a computer program.
[0007]
[Means for Solving the Problems]
  According to the mobile communication system according to claim 1,Base station controllerIsMobile communication terminalWhen capturing any one of the plurality of base stations as a communication base station, the altitude of the position where the mobile communication terminal exists is detected by the altitude detection means, and the position where the mobile communication terminal exists is detected. When the altitude determining means determines that the altitude is above the predetermined altitude,The mobile communication terminalPermits to capture a base station whose distance from the mobile communication terminal is less than a predetermined distance as a communication base station,The mobile communication terminalThe base station having a distance from the mobile communication terminal equal to or greater than a predetermined distance is prohibited from being captured as a communication base station.
[0008]
Therefore, the mobile communication terminal exists at a high altitude such as the rooftop of a high-rise building, and there is no obstacle that blocks radio waves between the mobile communication terminal and a distant base station. Even when a base station located far from the terminal can be captured as a communication base station, it is possible to avoid capturing a base station located far from the mobile communication terminal as a communication base station. A base station located at a short distance from the communication terminal can be captured as a communication base station.
[0009]
Thereby, the mobile communication terminal can appropriately receive a signal (downlink signal) transmitted from the base station captured as the communication base station, and the base station captured as the communication base station can Thus, it is possible to appropriately receive a signal (uplink signal) transmitted from the mobile station, and to prevent a reduction in communication quality.
[0010]
According to the mobile communication system described in claim 2, when the mobile communication terminal captures a base station whose distance from the mobile communication terminal is a predetermined distance or more as a communication base station, the mobile communication terminal exists. If the altitude determination means determines that the altitude of the position where the mobile communication terminal is present is equal to or higher than the predetermined altitude, the distance from the mobile communication terminal is the predetermined distance. The communication base station switching operation is performed so as to capture the base stations existing below the communication base station.
[0011]
Therefore, the mobile communication terminal detects the base station whose distance from the mobile communication terminal is less than the predetermined distance from the state where the base station whose distance from the mobile communication terminal is greater than or equal to the predetermined distance is captured as the communication base station. It is possible to quickly switch to a state where it is captured as a station, and it is possible to quickly switch to a state where the call quality can be appropriately maintained.
[0012]
According to the mobile communication system described in claim 3, the mobile communication terminal detects the altitude at the position where the mobile communication terminal exists by the altitude detecting means, and the altitude at the position where the mobile communication terminal exists is predetermined. When the altitude determination means determines that the altitude is higher than the altitude, the base station whose distance from the mobile communication terminal is greater than or equal to the predetermined distance is excluded from the acquisition candidate list representing a group of base stations that can be acquired as a communication base station. Configured.
[0013]
Therefore, the mobile communication terminal excludes a base station whose distance from the mobile communication terminal is equal to or greater than a predetermined distance from the acquisition candidate list, and thereafter captures a base station located far from the mobile communication terminal as a communication base station. Thus, it is possible to reliably avoid this, and it is possible to reliably capture a base station located at a short distance from the mobile communication terminal as a communication base station.
[0014]
According to the mobile communication system described in claim 4, the altitude detecting means detects the altitude of the position where the mobile communication terminal exists based on the GPS satellite signal received from the GPS satellite by the mobile communication terminal. Configured.
[0015]
Therefore, it is possible to improve the reliability when detecting the position of the mobile communication terminal because the positioning accuracy using the GPS satellite signal is generally high.
[0016]
According to the mobile communication system described in claim 5, the altitude detecting means comprises a positioning server that detects the altitude of the position where the mobile communication terminal exists based on the positioning data received from the mobile communication terminal, The altitude determination means is composed of a base station controller that determines the relationship between the altitude of the position where the mobile communication terminal exists and the predetermined altitude based on the detection result received from the positioning server.
[0017]
Therefore, it is not necessary for the mobile communication terminal to detect the altitude at the position where the mobile communication terminal is present, and the mobile communication terminal can obtain the relationship between the altitude at the position where the mobile communication terminal exists and the predetermined altitude. There is no need to make a determination, thereby reducing the load on the mobile communication terminal and simplifying the configuration of the mobile communication terminal.
[0018]
  Claim 6Base station controllerAccording toIf the mobile communication terminal captures a base station whose distance from the mobile communication terminal is a predetermined distance or more as a communication base station, and the altitude of the position where the mobile communication terminal exists is a predetermined altitude or higher, the mobile communication terminal The terminal is configured to control the base station so that the base station whose distance from the mobile communication terminal is less than a predetermined distance is captured as the communication base station.
[0020]
  Claim 7Computer programAccording toWhen the computer program is installed and executed in a base station controller that controls a base station that can be captured as a communication base station by the mobile communication terminal, the mobile communication terminal has a distance from the mobile communication terminal equal to or greater than a predetermined distance When a base station is captured as a communication base station and the altitude of the position where the mobile communication terminal is present is greater than or equal to a predetermined altitude, the mobile communication terminal is a base whose distance from the mobile communication terminal is less than the predetermined distance Since the procedure for controlling the base station to capture the station as a communication base station is executed, the same operational effects as those described in claim 6 can be obtained.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, in the mobile communication system of the present invention, the mobile phone measures the GPS satellite signal received from the GPS satellite and the pilot signal received from the base station, and transmits the measurement result to the positioning server as positioning data. An embodiment applied to a mobile phone system configured to be able to detect the position of a mobile phone based on positioning data received from the mobile phone will be described with reference to the drawings.
[0028]
First, FIG. 1 schematically shows the overall configuration of a mobile phone system. In the mobile phone system 1, the mobile phone 2, when powered on (so-called standby state), sets the base station 3 having the maximum pilot signal reception intensity among the plurality of base stations 3 as a communication base station. To capture as. When the mobile phone 2 performs positioning, the mobile phone 2 measures a GPS satellite signal (indicated by a broken line arrow G in FIG. 1) received from the GPS satellite 4 and a base station ( A pilot signal (indicated by a broken line arrow P in FIG. 1) received from the neighboring base station) 3 is measured, and the measurement result is used as positioning data through the communication base station to the base station controller (switching station) 5 (this Altitude determination means in the invention).
[0029]
When the positioning data is received from the mobile phone 2, the base station control device 5 transmits the received measurement data to the positioning server 6 (the altitude detection means in the present invention).
The positioning server 6 holds almanac information (GPS satellite number, satellite position, etc.) related to the GPS satellite 4 and almanac information (base station number, base station position, etc.) related to the base station 3. When the data is received, the received positioning data is analyzed, and an operation for detecting the position of the mobile phone 2 is performed by referring to the almanac information about the GPS satellite 4 and the almanac information about the base station 3. The result is transmitted to the base station controller 5. In this case, the position of the mobile phone 2 is represented by latitude, longitude, and altitude.
[0030]
  FIG. 2 shows the electrical configuration of the mobile phone 2 as a functional block diagram. The mobile phone 2 has a control programLambA CPU (Central Processing Unit) 7 to be executed searches the GPS satellite 4 and receives a GPS satellite signal, and searches for the base station 3 to receive a pilot signal and communicate with the communication base station. A CDMA radio unit 9 that performs communication processing, a voice processing unit 12 that processes transmission voice input from the microphone 10 and reception voice output from the speaker 11, a “call start” key, a “call end” key, and “0” To an operation unit 13 composed of a keypad in which a large number of keys such as a “number” key of “9” are arranged, and a display unit 14 composed of a liquid crystal display for displaying date / time, telephone number, etc. The storage unit 15 includes a RAM (Random Access Memory) and a ROM (Read Only Memory). In this case, the operation unit 13 may be a touch panel type displayed on the display unit 14, or may have a configuration in which the antenna of the GPS radio unit 8 and the antenna of the CDMA radio unit 9 are combined. good.
[0031]
Next, the operation of the above configuration will be described with reference to FIGS. Here,
(1) When mobile phone 2 makes a call
(2) When the mobile phone 2 receives an incoming call
Each will be described in turn.
[0032]
(1) When mobile phone 2 makes a call
First, the case where the mobile phone 2 makes a call will be described with reference to FIG. 3, FIG. 5, and FIG.
When the user performs a call origination operation, the mobile phone 2 transmits a connection request to the base station control device 5 through the communication base station (S1, S2 in FIG. 3). When the base station control device 5 receives the connection request from the mobile phone 2, it determines whether or not it can respond to the connection request from the mobile phone 2, and determines that it can respond, The response is transmitted to the mobile phone 2 through the communication base station (S3 and S4 in FIG. 3).
[0033]
Now, when the mobile phone 2 receives the connection response from the base station control device 5 in this way, the mobile phone 2 does not establish a communication link with the base station 3 captured as the communication base station. Instead, the following processing is performed. That is, when a connection response is received from the base station control device 5, the mobile phone 2 transmits a positioning request to the base station control device 5 through the communication base station to perform positioning (S5 and S6 in FIG. 3).
[0034]
When receiving a positioning request from the mobile phone 2, the base station control device 5 determines whether or not it can respond to the positioning request from the mobile phone 2, and determines that it can respond, The response is transmitted to the mobile phone 2 through the communication base station (S7, S8 in FIG. 3).
[0035]
When the mobile phone 2 receives the positioning response from the base station control device 5 in this manner, it performs positioning (step A1 in FIG. 3). More specifically, the mobile phone 2 causes the GPS radio unit 9 to search for the GPS satellite 4, measures the GPS satellite signal received from the GPS satellite 4 by the GPS radio unit 9, and communicates with the CDMA radio unit 10. A base station (peripheral base station) 3 located in the vicinity of the station is searched, and a pilot signal received from the base station 3 by the CDMA radio unit 10 is measured. Then, the cellular phone 2 transmits the measurement results as positioning data to the base station control device 5 through the communication base station (S9 and S10 in FIG. 3).
[0036]
When the positioning data is received from the mobile phone 2, the base station control device 5 transmits the received measurement data to the positioning server 6 (S11 in FIG. 3).
When the positioning server 6 receives the positioning data from the base station controller 5, the positioning server 6 analyzes the received positioning data and refers to the almanac information about the GPS satellite 4 and the almanac information about the base station 3, thereby The calculation for detecting the position is performed (step C1 in FIG. 3). And the positioning server 6 transmits a calculation result to the base station control apparatus 5 (in FIG. 3, S12).
[0037]
Now, when the calculation result is received from the positioning server 6, the base station control device 5 determines whether or not to switch the communication base station (step B1 in FIG. 3). That is, the base station control device 5 extracts the altitude at the position where the mobile phone 2 is present from the calculation result received from the positioning server 6, and is set in advance as the altitude at the position where the mobile phone 2 is present. The reference altitude (predetermined altitude referred to in the present invention) is compared. In this case, the reference altitude is an altitude that is suitable for avoiding a reduction in communication quality of the mobile phone 2. For example, the reference altitude is a surrounding environment where the mobile phone 2 is located, and performance specific to the mobile phone 2. In addition, it may be determined by comprehensively evaluating various elements (parameters) such as experimental results, or may be determined uniformly regardless of those elements. Also good.
[0038]
Here, when the base station control device 5 determines that the altitude of the position where the mobile phone 2 is present is equal to or higher than the reference altitude, the mobile phone 2 communicates with the base station 3 at a short distance from the mobile phone 2. While permitting the mobile phone 2 to be captured as a base station, the mobile phone 2 is prohibited from capturing the base station 3 far from the mobile phone 2 as a communication base station, and the following processing is performed.
[0039]
That is, the base station control device 5 acquires the distance between the mobile phone 2 and the base station 3 captured by the mobile phone 2 as a communication base station, and acquires the acquired distance and a preset reference. The distance (predetermined distance in the present invention) is compared. In this case, the reference distance is a distance suitable for avoiding the deterioration of the communication quality of the mobile phone 2, and, for example, in the same manner as the reference altitude described above, for example, around the location where the mobile phone 2 is located. It may be determined by comprehensively evaluating various elements (parameters) such as environment, performance peculiar to the mobile phone 2, and experimental results, and may be determined uniformly regardless of those elements. It may be determined.
[0040]
When the base station controller 5 determines that the distance between the mobile phone 2 and the base station 3 captured by the mobile phone 2 as a communication base station is greater than or equal to the reference distance, The base station 3 whose distance is less than the reference distance is determined as a target base station to be a new communication base station.
[0041]
Specifically, as shown in FIG. 5, the base station controller 5 does not capture the base station 3 located at a short distance from the mobile phone 2 as a communication base station, as shown in FIG. If the distance between the mobile phone 2 and the mobile phone 2 is greater than the reference distance, for example, the base station (A) is captured as a communication base station, the distance between the mobile phone 2 and the mobile phone 2 is less than the reference distance. Station (E) is determined as the target base station. In this case, if there are a plurality of base stations 3 whose distance from the mobile phone 2 is less than the reference distance, the base station control device 5 has, for example, the maximum reception intensity of the pilot signal. Are determined as target base stations.
[0042]
Next, the base station control device 5 transmits a handoff instruction to the mobile phone 2 through the communication base station (S13 and S14 in FIG. 3). When a handoff instruction is received from the base station control device 5, the mobile phone 2 transmits a handoff request to the base station control device 5 through the communication base station (S15 and S16 in FIG. 3).
[0043]
Then, when the handoff request is received from the mobile phone 2, the base station control device 5 transmits a traffic signal transmission instruction to the target base station (S17 in FIG. 3), and transmits the traffic signal transmission instruction to the communication base station. (S18 in FIG. 3).
[0044]
In response to this, when the traffic signal transmission instruction is received from the base station controller 5, the target base station transmits a traffic signal to the mobile phone 2 (S19 in FIG. 3). When a traffic signal transmission instruction is received from the control device 5, a traffic signal is transmitted to the mobile phone 2 (S20 in FIG. 3).
[0045]
When the traffic signal is received from the target base station and the traffic signal is received from the communication base station, the cellular phone 2 rake-combines the received traffic signals (step A2 in FIG. 3). Thereby, the cellular phone 2 captures the base station 3 determined as the target base station as a new communication base station. Then, the mobile phone 2 transmits a connection request to the base station control device 5 through the new communication base station (S21 and S22 in FIG. 3).
[0046]
When the base station control device 5 receives the connection request from the mobile phone 2, it determines whether or not it can respond to the connection request from the mobile phone 2, and determines that it can respond, The response is transmitted to the mobile phone 2 through the new communication base station (S23, S24 in FIG. 3).
[0047]
When the mobile phone 2 receives the connection response from the base station control device 5 in this way, the mobile phone 2 establishes a communication link with the base station 3 captured as a new communication base station. The mobile phone 2 establishes a communication link with the base station 3 captured as a new communication base station in this way, and then captures the disconnection request as the original communication base station. 3 (S25 in FIG. 3).
[0048]
Through the processing described above, when the mobile phone 2 is operated to make a call, the altitude at the position where the mobile phone 2 is present is equal to or higher than the reference altitude, and the distance from the mobile phone 2 is determined as the reference. When a base station 3 (in FIG. 5, the base station (A) is equivalent) that is more than the distance is captured as a communication base station, the base station 3 (FIG. 5) whose distance from the mobile phone 2 is less than the reference distance. Then, the switching operation (handoff) is performed so as to capture the base station (E) as a communication base station.
[0049]
Now, when the mobile phone 2 receives a capture candidate list representing a group of base stations 3 that can be captured next from the base station 3 that has been captured as a new communication base station, the received capture is performed. The base station 3 whose distance from the mobile phone 2 is greater than or equal to the reference distance is excluded from the candidate list. Specifically, as shown in FIG. 6, the mobile phone 2 has a base station (A) as a base station 3 that can be captured next from a base station (E) that has been captured as a new communication base station, When the acquisition candidate list including the base station (B), the base station (C), the base station (D), the base station (F), the base station (G), and the base station (H) is received, For example, the base station (A) and the base station (D) whose distance from the mobile phone 2 is greater than or equal to the reference distance are excluded from the captured candidate list.
[0050]
As a result, the mobile phone 2 thereafter has a distance from the base station 3 existing in the acquisition candidate list from which the base station (A) and the base station (D) are excluded, that is, the distance from the mobile phone 2 is less than the reference distance. Any one of the base stations 3 in the base station 3 is captured as a communication base station.
[0051]
(2) When the mobile phone 2 receives an incoming call
Next, a case where the mobile phone 2 receives an incoming call will be described with reference to FIG.
In this case, when the base station control device 5 detects an incoming call with the mobile phone 2 as the destination, it transmits a connection request to the mobile phone 2 through the communication base station (S31, S32 in FIG. 4). When the mobile phone 2 receives a connection request from the base station control device 5, the mobile phone 2 determines whether it can respond to the connection request from the base station control device 5, and determines that it can respond. The connection response is transmitted to the base station controller 5 through the communication base station (S33, S34 in FIG. 4).
[0052]
Now, when the connection response is received from the mobile phone 2 in this way, the base station controller 5 also establishes a communication link with the base station 3 captured as the communication base station. Instead of establishing, the following processing is performed.
[0053]
That is, when a connection response is received from the mobile phone 2, the base station control device 5 transmits a positioning request to the mobile phone 2 through the communication base station (S35 and S36 in FIG. 4). When the mobile phone 2 receives a positioning request from the base station control device 5, the mobile phone 2 determines whether it can respond to the positioning request from the base station control device 5, and determines that it can respond. Then, the positioning response is transmitted to the base station controller 5 through the communication base station (S37, S38 in FIG. 4).
[0054]
Then, when the mobile phone 2 transmits the positioning response to the base station control device 5 in this way, the mobile phone 2 performs positioning (step A1 in FIG. 3), and thereafter, “(1) the mobile phone 2 transmits the above-described information. The same processing as that in the case is performed.
[0055]
That is, when the mobile phone 2 receives an incoming call, the base station 3 having the altitude at the position where the mobile phone 2 is present is greater than or equal to the reference altitude and the distance from the mobile phone 2 is greater than or equal to the reference distance. When capturing as a station, a switching operation (handoff) is performed so that the base station 3 whose distance from the mobile phone 2 is less than the reference distance is captured as a communication base station.
[0056]
By the way, as described above, the cellular phone 2 measures the GPS satellite signal from the GPS satellite 4 and the pilot signal from the base station 3, and transmits the measurement result to the positioning server 6 as positioning data. The case where the position of the mobile phone 2 is detected based on the measurement results of both the signal and the pilot signal has been described. The mobile phone 2 measures only the GPS satellite signal from the GPS satellite 4 and determines the measurement result. By transmitting the data to the positioning server 6, the positioning server 6 may be configured to detect the position of the mobile phone 2 based only on the measurement result of the GPS satellite signal.
[0057]
Further, the case has been described above where the positioning server 6 holds the almanac information regarding the GPS satellite 4 and the almanac information regarding the base station 3 so that the positioning server 6 detects the position of the mobile phone 2 and determines the reference altitude. However, the mobile phone 2 holds the almanac information about the GPS satellite 4 and the almanac information about the base station 3 so that the mobile phone 2 detects the position of the mobile phone 2 and determines the reference altitude. It is also possible to do.
[0058]
Further, the above describes the case where the altitude at the position where the mobile phone 2 exists is detected when the mobile phone 2 makes a call or receives a call, but the mobile phone 2 waits for a call or an incoming call. It is also possible to configure so that the above processing is performed by periodically detecting the altitude of the position where the mobile phone 2 is present when in the standby state.
[0059]
As described above, according to the present embodiment, in the mobile phone 2, if the altitude at the position where the mobile phone 2 exists is equal to or higher than the reference altitude, the distance from the mobile phone 2 is less than the reference distance. The mobile phone 2 is permitted to capture the station 3 as a communication base station and prohibited from capturing the base station 3 whose distance from the mobile phone 2 is equal to or greater than the reference distance as a communication base station. Is located far from the mobile phone 2 even when the base station located far from the mobile phone 2 can be captured as a communication base station. It is possible to avoid capturing a base station as a communication base station, and a base station located at a short distance from the mobile phone 2 can be captured as a communication base station. Thereby, the mobile phone 2 can appropriately receive the signal transmitted from the base station 3 captured as the communication base station, and the base station 3 captured as the communication base station transmits from the mobile phone 2. It is possible to appropriately receive the received signal and to prevent the communication quality from deteriorating.
[0060]
In the mobile phone 2, when the base station 3 whose distance from the mobile phone 2 is equal to or larger than the reference distance is captured as a communication base station, the altitude at the position where the mobile phone 2 is present is higher than the reference altitude. If so, since the communication base station switching operation is performed so that the base station 3 whose distance from the mobile phone 2 is less than the reference distance is captured as the communication base station, the mobile phone 2 is Is quickly switched from the state where the base station 3 whose distance is equal to or greater than the reference distance is captured as a communication base station to the state where the base station 3 whose distance from the mobile phone 2 is less than the reference distance is captured as a communication base station. Therefore, it is possible to quickly switch to a state where the call quality can be appropriately maintained.
[0061]
Further, since the mobile phone 2 is configured to exclude the base station 3 whose distance from the mobile phone 2 is greater than or equal to the reference distance from the capture candidate list representing the group of base stations 3 that can be captured as communication base stations, the mobile phone 2 The telephone set 2 excludes the base station 3 whose distance from the mobile phone 2 is greater than or equal to the reference distance from the acquisition candidate list, and thereafter acquires the base station 3 located far from the mobile phone 2 as a communication base station. This can surely be avoided, and the base station 3 located at a short distance from the mobile phone 2 can be reliably captured as a communication base station.
[0062]
In addition, since the mobile phone 2 is configured to detect the altitude of the position where the mobile phone 2 is present based on the GPS satellite signal received from the GPS satellite 4 by the mobile phone 2, the GPS satellite signal is generally used. Due to the fact that the positioning accuracy using is high, the reliability when detecting the position of the mobile phone 2 can be improved.
[0063]
Further, the positioning server 6 detects the altitude of the position where the mobile phone 2 is present based on the positioning data received from the mobile phone 2, and the base station control device 5 is based on the detection result received from the positioning server 6. Since the mobile phone 2 is configured to determine the relationship between the altitude at the position where the mobile phone 2 exists and the reference altitude, the mobile phone 2 does not need to detect the altitude at the location where the mobile phone 2 exists. In addition, it is not necessary for the mobile phone 2 to determine the relationship between the altitude at the position where the mobile phone 2 is present and the reference altitude, thereby reducing the load on the mobile phone 2 and the mobile phone. The configuration of 2 can be simplified.
[0064]
The present invention is not limited to the embodiments described above, and can be modified or expanded as follows.
The mobile communication terminal is not limited to a mobile phone, and may be another mobile information terminal having a communication function or an in-vehicle terminal mounted on an automobile.
The base station control device may have a configuration of a positioning server.
[0065]
The switching operation of the communication base station performed by the mobile phone is not limited to the operation in which the mobile phone transmits a disconnection request to the original communication base station after the mobile phone has established a communication link with the new communication base station. An operation may be performed in which the mobile phone establishes a communication link with a new communication base station after the mobile phone transmits a disconnection request to the original communication base station.
[0066]
The control program executed by the mobile phone 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) It may be transferred from a recording medium such as a card and installed.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing an overall configuration of an embodiment of the present invention.
FIG. 2 is a functional block diagram showing an electrical configuration of the mobile phone
FIG. 3 is a sequence diagram showing a flow of processing when a mobile phone makes a call.
FIG. 4 is a sequence diagram showing the flow of processing when a mobile phone receives an incoming call.
FIG. 5 is a diagram schematically illustrating a positional relationship between a mobile phone, a communication base station, and a target base station.
FIG. 6 is a diagram showing an example of a capture candidate list
[Explanation of symbols]
In the drawings, 1 is a mobile phone system (mobile communication system), 2 is a mobile phone (mobile communication terminal), 3 is a base station, 4 is a GPS satellite, 5 is a base station controller (altitude determination means), and 6 is a positioning server. (Altitude detection means).

Claims (7)

A mobile communication terminal comprising: a mobile communication terminal capable of capturing any one of a plurality of base stations as a communication base station; and a base station controller for controlling a base station that can be captured as a communication base station by the mobile communication terminal A communication system,
Altitude detecting means for detecting the altitude of the position where the mobile communication terminal exists;
Altitude determination means for determining the relationship between the altitude of the position where the mobile communication terminal detected by the altitude detection means exists and a predetermined altitude,
In the base station control device , the altitude determination means indicates that the altitude at the position where the mobile communication terminal exists is detected by the altitude detection means, and the altitude at the position where the mobile communication terminal exists is equal to or higher than a predetermined altitude. When the mobile communication terminal determines that the mobile communication terminal captures a base station whose distance from the mobile communication terminal is less than a predetermined distance as a communication base station, the mobile communication terminal A mobile communication system characterized by prohibiting the acquisition of a base station having a predetermined distance or more as a communication base station. The mobile communication system according to claim 1, wherein
The mobile communication terminal captures a base station whose distance from the mobile communication terminal is a predetermined distance or more as a communication base station, and the altitude at which the mobile communication terminal exists is detected by the altitude detecting means. When the altitude determining means determines that the altitude of the position where the mobile communication terminal exists is greater than or equal to a predetermined altitude, a base station whose distance from the mobile communication terminal is less than the predetermined distance is A mobile communication system, wherein a switching operation of a communication base station is performed so as to be captured as a station. The mobile communication system according to claim 1 or 2,
The altitude determination means indicates that the altitude at the position where the mobile communication terminal exists is detected by the altitude detection means, and that the altitude at the position where the mobile communication terminal exists is equal to or higher than a predetermined altitude. A base station whose distance from the mobile communication terminal is a predetermined distance or more is excluded from a capture candidate list representing a group of base stations that can be captured as communication base stations when determined by . The mobile communication system according to any one of claims 1 to 3,
The altitude detecting means detects the altitude of a position where the mobile communication terminal exists based on a GPS satellite signal received by the mobile communication terminal from a GPS satellite. The mobile communication system according to any one of claims 1 to 4,
The altitude detection means comprises a positioning server that detects the altitude of the position where the mobile communication terminal exists based on the positioning data received from the mobile communication terminal,
The altitude determination means is composed of a base station controller that determines the relationship between the altitude of the position where the mobile communication terminal exists and a predetermined altitude based on the detection result received from the positioning server. Mobile communication system. A base station controller for controlling a base station that can be captured as a communication base station by a mobile communication terminal,
The mobile communication terminal captures a base station whose distance from the mobile communication terminal is a predetermined distance or more as a communication base station, and moves when the altitude of the position where the mobile communication terminal exists is a predetermined altitude or higher. A base station control apparatus for controlling a base station so that a communication terminal captures a base station whose distance from the mobile communication terminal is less than a predetermined distance as a communication base station. To a base station controller that controls a base station that can be captured as a communication base station by a mobile communication terminal,
The mobile communication terminal captures a base station whose distance from the mobile communication terminal is a predetermined distance or more as a communication base station, and moves when the altitude of the position where the mobile communication terminal exists is a predetermined altitude or higher. A computer program for causing a communication terminal to execute a procedure for controlling a base station so that a base station whose distance from the mobile communication terminal is less than a predetermined distance is captured as a communication base station.

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