JP2003174666A - Mobile communication terminal and operating method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication terminal and an operating method thereof that can maintain a stable communication state while being capable of utilizing a new communication system first. <P>SOLUTION: The mobile communication terminal and its operating method of this invention includes: a step S5 of discriminating whether or not data nA denoting the number of peripheral cells are greater than data X (threshold value) when a located area is discriminated to be an area located within a communication service zone able to be communicated by first and second communication system (a first area in a step S1); a step S6 of discriminating whether or not data SS denoting the strength of a received signal are greater than data Y (threshold value) when the data nA are discriminated to be the data X or below; a step S7 of discriminating whether or not data tC denoting a waiting consecutive time for a concerned station selected by any of base stations compatible with the second communication system are greater than data Z (threshold value) when the data SS are discriminated to be greater than the data Y; and steps S2, S3 of selecting a communication network including a transmission destination on the basis of the result of discrimination at the steps S5 to S7. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a mobile communication terminal and an operating method thereof.

[0002]

2. Description of the Related Art Mobile communication terminals capable of wireless communication using a plurality of communication systems have been developed. One of the purposes of developing such mobile communication terminals is to enable the communication of a relatively narrow communication service area with the existing communication method in the process of gradually expanding the communication service area adopting a new communication method. It can be cited as complemented by a relatively wide communication service area. For example, American Standard IS-95
CDMA (Code Division Multiple Acces)
s) type and analog type mobile phones are available
It was developed to facilitate the transition of users from existing analog mobile phones to new CDMA mobile phones.

[0003]

When making a call from a mobile communication terminal capable of utilizing such a plurality of communication methods, it is possible to automatically select a communication network corresponding to the communication method to be used. Has been. For example, a method of detecting that a new communication method is available and selecting a communication network corresponding to that communication method as a destination, or a destination according to the result of comparing the received signal strength for each communication method. The method of selecting the communication network of is considered.

From the viewpoint of the quality of the mobile communication service, the new communication system is usually superior, and it is desirable to preferentially use the new communication system. However, when the communication service area that can communicate with the new communication method is expanding, if the communication network corresponding to the new communication method is simply prioritized and the destination is selected, the communication state becomes unstable. Problems such as easy disconnection during a call occur.

The present invention has been made in view of the above circumstances, and a mobile communication terminal capable of maintaining a stable communication state while giving priority to use of a new communication system, and an operating method thereof. The purpose is to provide.

[0006]

In order to achieve the above object, a mobile communication terminal according to a first aspect of the present invention is a first mobile that provides a mobile communication service using a first communication system. The mobile communication network or the second mobile communication network that provides the mobile communication service using the second communication method is selected and transmitted as the communication network of the transmission destination. A mobile communication terminal that enables wireless communication using any of the second communication methods, and monitors the communication environment at the location, and monitors the state to identify a communication method that can be used at the location. Means, a peripheral cell number indicating means for indicating the number of peripheral cells of the own station which is waiting corresponding to the second communication method, and a received signal from the own station which is waiting for the second communication method Intensity indicating means indicating the intensity of the second communication Time measuring means for measuring the duration of the standby time in which any one of the base stations corresponding to the formula is used, and at the time of transmission, both the first and second communication methods are based on the monitoring result of the state monitoring means. When the availability is detected, it is detected that the number of neighboring cells indicated by the neighboring cell number indicating means is larger than a predetermined first threshold value, and the second mobile communication network is set as a destination. First selection processing for selecting as a communication network, detecting that the strength of the received signal indicated by the strength indicating means is equal to or less than a predetermined second threshold value, and the first mobile communication network as a destination Second selection process for selecting the second mobile communication network as the communication network of the destination by detecting that the duration measured by the time measuring means is longer than a predetermined third threshold value. Of the third selection process to select as By running one of the selection process even Ku, and a selection processing means for selecting a destination of a communication network, characterized in that.

According to the present invention, the selection processing means uses the first number of peripheral cells indicated by the peripheral cell number designating means.
Of at least one of the second selection process using the intensity of the received signal indicated by the intensity instruction unit and the third selection process using the duration measured by the time measuring unit. It can be executed to select the destination communication network.

A mobile communication terminal according to a second aspect of the present invention includes a first mobile communication network which provides a mobile communication service using the first communication system and a second communication system. Any one of the second mobile communication networks that provide the used mobile communication service is selected and transmitted as the communication network of the transmission destination to use one of the first and second communication systems. A mobile communication terminal capable of wireless communication, corresponding to the second communication method, and a state monitoring means for monitoring a communication environment at the location and specifying a communication method usable at the location. And a peripheral cell number indicating means for indicating the number of peripheral cells of the own station that is waiting, and an intensity indicating means for indicating the intensity of a received signal from the own station that is waiting for the second communication method, One of the base stations that support the The time measuring means for measuring the duration time of the standby and the peripheral cell when it is detected that both the first and second communication methods can be used based on the monitoring result of the state monitoring means at the time of calling. A first determination process for determining whether or not the number of neighboring cells indicated by the number indicating means is larger than a predetermined first threshold, and it is determined that the number is equal to or less than the first threshold in the first determination process. The second threshold value in the second determination processing for determining whether or not the strength of the received signal indicated by the strength instruction means is larger than a predetermined second threshold value. A third step of determining whether or not the duration measured by the time measuring means is longer than a predetermined third threshold value when it is determined to be greater than
Selection processing means for selecting the communication network of the transmission destination based on the determination processing of.

According to the present invention, the selection processing means uses the first number of peripheral cells indicated by the peripheral cell number designating means.
Of the transmission destination based on the discrimination result of the discrimination processing of No. 3, the second discrimination processing using the intensity of the received signal indicated by the intensity instruction unit, and the third discrimination processing using the duration time measured by the time measuring unit. A communication network can be selected. This makes it possible to maintain a stable communication state while allowing the second communication method, which is a new communication method, to be preferentially used.

More specifically, the selection processing means determines that the number of peripheral cells is greater than the first threshold value in the first determination processing and the duration time is determined to be the second in the third determination processing. Three
When it is determined that the second mobile communication network is longer than the threshold value, it is desirable to select the second mobile communication network as the communication network of the transmission destination.

Further, the selection processing means determines that the intensity of the received signal is less than or equal to the second threshold value in the second determination processing, and the duration is the third threshold value in the third determination processing. If the following is determined, it is desirable to select the first mobile communication network as the communication network of the transmission destination.

A mobile communication terminal according to a third aspect of the present invention uses a first mobile communication network for providing a mobile communication service using the first communication system and a second communication system. By selecting one of the second mobile communication networks that provide the mobile communication service as the communication network of the transmission destination and transmitting, the wireless communication using any one of the first and second communication systems is performed. A mobile communication terminal that enables the peripheral cell number indicating means for indicating the number of peripheral cells of its own station that is waiting for the second communication method, and the first cell at the time of transmission.
When it is detected that both the second communication method and the second communication method can be used, it is determined whether or not the number of peripheral cells indicated by the peripheral cell number indicating means is larger than a first threshold value set in advance. Selection processing means for selecting the second mobile communication network as a communication network of a transmission destination when the determination is made.

According to the present invention, the selection processing means sets the transmission destination of the second mobile communication network when the number of peripheral cells indicated by the peripheral cell number designating means is larger than a predetermined first threshold value. Select as communication network. This makes it possible to maintain a stable communication state while allowing the second communication method, which is a new communication method, to be preferentially used.

[0016] Further, there is provided a strength indicating means for indicating the strength of a received signal from the own station which is waiting corresponding to the second communication system, and the selection processing means is indicated by the peripheral cell number indicating means. When it is determined that the number of peripheral cells is less than or equal to the first threshold value, it is determined whether or not the intensity of the received signal indicated by the intensity instruction means is greater than a predetermined second threshold value, and the second threshold value or less is determined. It is desirable to select the first mobile communication network as the destination communication network when it is determined that

Further, there is provided time measuring means for measuring the duration of the standby time with any one of the base stations corresponding to the second communication system as its own station, and the selection processing means is indicated by the strength instructing means. When it is determined that the intensity of the received signal is larger than the second threshold value, it is determined whether or not the duration measured by the time measuring means is longer than a predetermined third threshold value. If it is determined that
If the first mobile communication network is selected as the communication network of the transmission destination and it is determined that it is longer than the third threshold, the second mobile communication network is selected.
It is desirable to select the mobile communication network as the communication network of the transmission destination.

A method of operating a mobile communication terminal according to a fourth aspect of the present invention is a first mobile communication network which provides a mobile communication service using the first communication method, and a second communication method. Any one of the second mobile communication networks that provide the mobile communication service using is selected and transmitted as the communication network of the transmission destination, thereby using one of the first and second communication systems. A method of operating a mobile communication terminal capable of performing wireless communication, comprising: detecting at the time of call origination that both of the first and second communication methods are available.
It is determined whether or not the number of neighboring cells of the own station which is waiting corresponding to the communication method of is larger than a predetermined first threshold value,
When it is determined that it is large, the second mobile communication network is selected as the communication network of the transmission destination, and when it is determined that it is less than or equal to the first threshold value, it waits corresponding to the second communication method. It is determined whether or not the intensity of the received signal from the own station is larger than a predetermined second threshold value, and when it is determined that the intensity is equal to or lower than the second threshold value, the first mobile communication network When it is selected as a communication network and is determined to be larger than the second threshold value, a third threshold value in which the duration of standby for which one of the base stations corresponding to the second communication method is the own station is predetermined Is longer than the third threshold, and when it is determined that the length is less than or equal to the third threshold, the first mobile communication network is selected as the communication network of the transmission destination, and it is determined that it is longer than the third threshold. In this case, the second mobile communication network is selected as a destination communication network. To.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION A mobile communication terminal 100 according to an embodiment of the present invention will be described in detail below with reference to the drawings. This mobile communication terminal 100 is applied to, for example, a communication system as shown in FIG. 1, and is used for another mobile communication terminal 100, a telephone 106, or a computer 10.
Communication with 7 is enabled. This communication system
Base station 103 connected to the first mobile communication network 101
And the base station 10 connected to the second mobile communication network 102.
4 and.

The first mobile communication network 101 is, for example, a PD.
A network for providing a mobile communication service by using a first communication method such as a C (Personal Digital Cellular) method. The cell formed by the base station 103 connected to the first mobile communication network 101 covers the communication service area provided by the first mobile communication network 101.

The second mobile communication network 102 is, for example, W-
CDMA (Wideband-Code Division Multiple Access)
It is a network for providing a mobile communication service by using a second communication method such as a communication method. The cell formed by the base station 104 connected to the second mobile communication network 102 covers the communication service area provided by the second mobile communication network 102.

First and second mobile communication networks 101, 10
Reference numeral 2 is connected to the public line network 105, and enables communication between the mobile communication terminal 100 and the telephone 106 or the computer 107.

The mobile communication terminal 100, as shown in FIG. 2, has a communication processing unit 11, a processing control unit 12, and a storage unit 13.
And an input / output processing unit 14.

The communication processing unit 11 includes, for example, an antenna and an RF.
(Radio Frequency) A signal processing circuit, a baseband signal processing circuit, and the like, which are used for communication by transmitting and receiving radio signals to and from the base stations 103 and 104. For example, the communication processing unit 11 is a first transmission / reception unit 11a provided for communicating using the first communication method.
And a second transmission / reception unit 11b provided for communicating using the second communication method.

The processing control unit 12 is, for example, a CPU (Centra).
A processing unit (microprocessor) or the like for controlling the operation of the entire mobile communication terminal 100. That is, the processing control unit 12 executes the operation program stored in the storage unit 13, and according to the input information from the input / output processing unit 14, the communication processing unit 11
It is possible to provide a mobile communication service or the like by controlling the operation of (1) or storing various data in the storage unit 13. The processing control unit 12 also includes a state monitoring unit 12a.

The state monitoring unit 12a is for monitoring the communication environment and the like at the location of the mobile communication terminal 100 based on the signals received from the base stations 103 and 104 by the communication processing unit 11.

The storage unit 13 is a RAM (Random Access Me
mory), ROM (Read Only Memory), EEPROM
It is composed of (Electronically Erasable and Programmable ROM) and the like, and is for storing operation programs and data used for execution in the processing control unit 12. For example, the storage unit 13 stores the data n _A , S _S , t _C , X, Y,
Remember Z.

The data n _A is data indicating the number of neighboring cells when the mobile communication terminal 100 uses the base station 104 connected to the second mobile communication network 102 as its own station. The data S _S is data indicating the strength of the received signal in the mobile communication terminal 100.

When the mobile communication terminal 100 is waiting for the base station 104 connected to the second mobile communication network 102 as its own station, the data t _C is the standby state in which the base station 104 is its own station. This is data for measuring the duration of. That is, for example, the data t _C is reset (restarted) every time the start of standby with one of the base stations 104 as its own station is detected by the state monitoring unit 12a,
One is added by the interrupt process executed by the process control unit 12 at regular intervals.

The data X, Y, and Z are data n, respectively.
It is data serving as a threshold value for switching the process executed by the process control unit 12 based on _A , S _S , and t _C. The data X, Y, and Z are determined based on, for example, the result of a field test executed in advance, and E provided in the storage unit 13.
It is stored in EPROM or the like.

The input / output processing unit 14 is composed of, for example, a keypad, a liquid crystal display, a speaker, a microphone, a light emitting diode, etc., and provides a user interface to input or output various information. is there.

Next, in the communication system to which the mobile communication terminal 100 is applied, the configuration of the communication service area where the mobile communication service is provided will be described. Figure 3
FIG. 3 is a diagram illustrating a configuration of a communication service area covered by cells formed by base stations 103 and 104. In the following, because the first mobile communication network 101 is laid in a wider area than the second mobile communication network 102, a communication service area in which communication is possible in the first communication method and a second It is assumed that the communication service areas that can be communicated by this communication method have different distributions. For example, the second mobile communication network 102 is laid after the first mobile communication network 101, the communication service area is expanding, and the communication service area is the communication of the first mobile communication network 101. It is smaller than the service area.

The area to which the location of the mobile communication terminal 100 belongs is the first to fourth areas 21 to 24 shown in FIG.
Can be classified into. The first area 21 is an area within a communication service area where both the first and second communication methods can be used. The second area 22 is an area within the communication service area where only the first communication method can be used, and cannot be used because the second communication method is outside the communication service area. The third area 23 is an area within a communication service area in which only the second communication method can communicate,
The first communication method cannot be used because it is out of the communication service area. The fourth area 24 is an area that cannot be used because both the first and second communication methods are outside the communication service area.

The mobile communication terminal 100 includes the first area 2
When located in the first or second area 22, any of the base stations 103 connected to the first mobile communication network 101 can be awaited as its own station. Further, the mobile communication terminal 100, when located in the first area 21 or the third area 23, can wait for the base station 104 connected to the second mobile communication network 102 as its own station.

The operation of mobile communication terminal 100 according to the embodiment of the present invention will be described below. In the following, it is assumed that mobile communication terminal 100, when located in first area 21, can simultaneously wait for both base stations 103 and 104 as its own station. However, it is not possible to perform a handover between the base station 103 and the base station 104.

First and second mobile communication networks 101, 10
Both can provide mobile communication services such as voice communication and packet communication. Where the second
The mobile communication network 102 is installed after the first mobile communication network 101, and has advantages such as higher packet communication speed and better voice communication quality than the first mobile communication network 101. Have However, the second mobile communication network 102 is expanding its communication service area, and
It is narrower than the communication service area of the mobile communication network 101.

When the location of the mobile communication terminal 100 belongs to the first area 21 or the third area 23, the state monitoring unit 12a stores various information on the basis of the received signal from the base station 104. 13 to memorize. For example, the state monitoring unit 12a stores the number of neighboring cells specified by the system information from the base station 104 as data n _A. The state monitoring unit 12a also identifies the strength of the received signal and stores it as data S _S. The content stored in the storage unit 13 is referred to by the processing control unit 12 when a call is made from the mobile communication terminal 100, and is used in the process for selecting the communication network of the call destination.

When the processing control unit 12 detects that the own station has been changed to any one of the base stations 104 connected to the second mobile communication network 102 based on the monitoring result of the state monitoring unit 12a, The data t _C is set to 0 and initialized. After that, the process control unit 12 executes an interrupt process at regular time intervals, increments the data t _C by one, and so on, and the base station 10
Measure the duration of the standby time with any one of 4 as its own station.

In response to the input of a predetermined call instruction signal from the input / output processing unit 14 to the processing control unit 12, the mobile communication terminal 100 executes the processing shown in the flowchart of FIG. 1 and second mobile communication network 1
The communication network of the transmission destination is selected from 01 and 102.

When the processing shown in the flowchart of FIG. 4 is started, the processing control section 12 determines that the area where the mobile communication terminal 100 is located is the first to fourth areas 21 based on the monitoring result of the state monitoring section 12a. It is discriminated which of 24 to 24 (step S1).

When the processing control unit 12 determines that the location area is the second area 22 (the second area in step S1), only the first communication method can be used.
The first mobile communication network 101 is selected as the transmission destination communication network by controlling the first transmission / reception unit 11a, and the processing shown in the flowchart of FIG. 4 is terminated (step S2).

On the other hand, when the processing control unit 12 determines that the location area is the third area 23 (third area in step S1), only the second communication method can be used, so that the second transmission / reception is performed. The second mobile communication network 102 is selected as the communication network of the transmission destination by controlling the unit 11b, and the processing shown in the flowchart of FIG. 4 is terminated (step S).
3).

When the processing control unit 12 determines that the location area is the fourth area 24 (the fourth area in step S1), both the first and second communication methods cannot be used. The transmission is stopped and the processing shown in the flowchart of FIG. 4 is ended (step S4).

On the other hand, when the processing control unit 12 determines that the location area is the first area 21 (the first area in step S1), the processing control unit 12 proceeds to the processing of step S5 and thereafter, according to the current communication environment. Select the destination.

Upon proceeding to the processing of step S5, the processing control section 12 compares the data n _A with the data X to obtain the data n _A.
Is larger than the data X (step S
5). That is, the processing control unit 12 determines whether or not the number of peripheral cells is larger than a predetermined threshold value indicated by the data X.

When the data n _A is larger than the data X (YES in step S5), for example, as shown in FIG. 5 (a), there are many cells around the own station,
It is considered that the mobile communication terminal 100 is located near the center of the communication service area in which the mobile communication terminal 100 can communicate with the second communication method. In addition, handover can be performed between the base stations 104 connected to the second mobile communication network 102,
It is presumed that the time allowed to stay in the first area 21 and the third area 23 will be sufficiently long. Then, the processing control unit 12 determines that the second communication method can be used stably, and proceeds to the processing in step S3, and the second mobile communication network 10
2 is selected as the transmission destination communication network, and the processing shown in the flowchart of FIG. 4 is terminated.

On the other hand, if the data n _A is less than or equal to the data X (NO in step S5), for example, as shown in FIG. 5 (b), there are few cells around the own station. It is considered that the body communication terminal 100 is located near the periphery of the communication service area in which the communication can be performed by the second communication method. Therefore, as the location changes, the second
There is a possibility that communication using this communication method will not be possible. Therefore, the processing control unit 12 compares the data S _S and the data Y, data S _S it is determined whether or not greater than the data Y (step S6). That is, the processing control unit 12 determines whether or not the intensity of the received signal is larger than the predetermined threshold value indicated by the data Y.

When the data S _S is less than or equal to the data Y (NO in step S6), the strength of the received signal is relatively small and the mobile communication terminal 100 can communicate in the second communication method. It is thought that it is located near the periphery of. Therefore, there is a high possibility that communication by the second communication method will be disabled within a short time due to movement of the location. In addition, since it is determined that the data n _A is equal to or less than the data X in the process of step S5, it is known that only a small number of cells exist around the own station.
Therefore, the processing control unit 12 proceeds to the processing of step S2, selects the first mobile communication network 101 as the communication network of the transmission destination, and ends the processing shown in the flowchart of FIG.

On the other hand, when the data S _S is larger than the data Y (YES in step S6), the intensity of the received signal is sufficiently high, and the mobile communication terminal 100 can continue the communication by the second communication method. The sex is also fully left. Therefore, the processing control unit 12 compares the data t _C and data Z, the data t _C it is determined whether or not greater than the data Z (step S7). That is, the processing control unit 12 determines whether or not the duration of the standby state in the own station is longer than the predetermined threshold value indicated by the data Z.

When data t _C is larger than data Z (YES in step S7), it can be considered that the location of mobile communication terminal 100 is unlikely to move across cells in the near future. it can. Therefore, the processing control unit 1
No. 2 determines that the second communication method can be used stably, and proceeds to the process of step S3, and the second mobile communication network 102
Is selected as the communication network of the transmission destination, and the processing shown in the flowchart of FIG. 4 is terminated.

On the other hand, when data t _C is equal to or less than data Z (NO in step S7), the location of mobile communication terminal 100 may move across cells in the near future. In addition, since it is determined that the data n _A is equal to or less than the data X in the process of step S5, it is known that only a small number of cells exist around the own station. Therefore, the processing control unit 12 proceeds to the processing of step S2, selects the first mobile communication network 101 as the communication network of the transmission destination, and ends the processing shown in the flowchart of FIG.

As described above, according to the present invention,
Based on the number of neighboring cells, the strength of the received signal, the duration of the standby state, etc., the first and second mobile communication networks 101, 1
Any of 02 can be selected as the communication network of the transmission destination. Here, when the second communication method can be stably used, the second mobile communication network 102 is preferentially selected as the communication network of the transmission destination. As a result, a stable communication state can be maintained while preferentially using a new communication method whose communication service area is expanding.

In the above embodiment, the processing control unit 12 is
It has been described that the three determination processes (steps S5 to S7 in FIG. 4) are executed in the order of the number of neighboring cells, the strength of the received signal, and the duration of the standby state in the own station. However, the present invention is not limited to this, and the data X,
By adjusting Y and Z to appropriate values, it is possible to arbitrarily change the order in which the discrimination processing is executed. Alternatively, the data X, Y, and Z may be adjusted to appropriate values, and the communication network of the transmission destination may be selected based on the processing result of at least one of the three determination processing.

In the above embodiment, the first communication system is the PDC system and the second communication system is the W-CDMA system.
Although it has been described as a method, it is not limited to this.
It can be applied to a mobile communication terminal that can communicate using an existing communication system and a new communication system. In this case, the processing described in the above embodiment may be executed by using the existing communication method as the first communication method and the new communication method as the second communication method. For example, PHS (Personal
Handy-phone System) method and GSM (Global System fo)
The r Mobile communication) method or the like may be the first communication method, and the HDR (High Data Rate) method or the like may be the second communication method.

[0053]

According to the present invention, it is possible to maintain a stable communication state while allowing a new communication system to be preferentially used.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a communication system to which a mobile communication terminal according to an embodiment of the present invention is applied.

FIG. 2 is a diagram showing a configuration of a mobile communication terminal.

FIG. 3 is a diagram for explaining classification of areas to which a location of a mobile communication terminal belongs.

FIG. 4 is a flowchart for explaining a process executed by a mobile communication terminal to select a communication network of a transmission destination.

FIG. 5A is a diagram showing an example of a case where there are many cells around the own station, and FIG. 5B is a diagram showing an example of a case where there are few cells around the own station.

[Explanation of symbols]

11 Communication processing unit 11a, 11b transmitter / receiver 12 Processing control unit 12a Status monitoring unit 13 Storage 14 Input / output processing unit 100 mobile communication terminals 101, 102 mobile communication network 103, 104 Base station 105 public network 106 telephone 107 computer

Claims (8)

[Claims] 1. A first mobile communication network which provides a mobile communication service using a first communication system, and a second mobile communication which provides a mobile communication service using a second communication system. A mobile communication terminal capable of wireless communication using any one of the first and second communication methods by selecting and transmitting one of the networks as a destination communication network, State monitoring means for monitoring the communication environment at the position and specifying the communication method that can be used at the location, and peripheral cells indicating the number of peripheral cells of the own station that are in standby corresponding to the second communication method Number instructing means, intensity instructing means for indicating the intensity of a received signal from its own station waiting for the second communication method, and base station corresponding to the second communication method With a time measuring means to measure the duration of standby , When it is detected that both the first and second communication methods are available based on the monitoring result of the state monitoring means at the time of transmission, the number of peripheral cells indicated by the peripheral cell number indicating means is predetermined. And a strength of the received signal indicated by the strength instructing means in advance, when the second mobile communication network is detected as being larger than the first threshold value and the second mobile communication network is selected as a destination communication network. Second selection processing of detecting that the first mobile communication network is the destination communication network by detecting that it is less than or equal to a second threshold value that has been set, and the duration time measured by the time measuring means is predetermined. At least any one of the third selection processing of detecting that the second mobile communication network is longer than the third threshold value and selecting the second mobile communication network as the communication network of the transmission destination.
A mobile communication terminal, comprising: a selection processing unit that executes one selection process to select a communication network of a transmission destination. 2. A first mobile communication network which provides a mobile communication service using a first communication system, and a second mobile communication which provides a mobile communication service using a second communication system. A mobile communication terminal capable of wireless communication using any one of the first and second communication methods by selecting and transmitting one of the networks as a destination communication network, State monitoring means for monitoring the communication environment at the position and specifying the communication method that can be used at the location, and peripheral cells indicating the number of peripheral cells of the own station that are in standby corresponding to the second communication method Number instructing means, intensity instructing means for indicating the intensity of a received signal from its own station waiting for the second communication method, and base station corresponding to the second communication method With a time measuring means to measure the duration of standby , When it is detected that both the first and second communication methods are available based on the monitoring result of the state monitoring means at the time of transmission, the number of peripheral cells indicated by the peripheral cell number indicating means is predetermined. And a received signal indicated by the intensity instructing means when it is determined to be equal to or less than the first threshold value in the first determination process. Determination processing for determining whether or not the intensity of is greater than a predetermined second threshold value, and the time measuring means measures when it is determined to be greater than the second threshold value in the second determination processing. And a selection processing unit that selects a communication network of a transmission destination based on a third determination processing that determines whether or not the continued time is longer than a predetermined third threshold value. Body communication terminal. 3. The selection processing means determines when the number of peripheral cells is greater than a first threshold value in the first determination processing, and when the duration is less than the third threshold value in the third determination processing. The mobile communication terminal according to claim 2, wherein the second mobile communication network is selected as a destination communication network when it is determined that it is also long. 4. The selection processing means determines when the intensity of the received signal is less than or equal to a second threshold in the second determination processing, and when the duration is a third threshold in the third determination processing. The mobile communication terminal according to claim 2 or 3, wherein the first mobile communication network is selected as a communication network of a transmission destination when it is determined to be the following. 5. A first mobile communication network that provides a mobile communication service using the first communication method, and a second mobile communication that provides a mobile communication service using the second communication method. A mobile communication terminal that enables wireless communication using any one of the first and second communication methods by selecting any one of the networks as a communication network of a transmission destination and transmitting the selected communication network. The peripheral cell number indicating means for indicating the number of peripheral cells of the own station which is waiting corresponding to the second communication method, and when it is detected that both the first and second communication methods can be used at the time of transmission, It is determined whether or not the number of peripheral cells indicated by the peripheral cell number indicating means is larger than a predetermined first threshold value, and when it is determined that the peripheral cell number is larger than the predetermined first threshold value, the second mobile communication network communicates with the destination. A selection processing means for selecting as a network, The mobile communication terminal to the butterflies. 6. A strength indicating means for indicating the strength of a received signal from its own station, which corresponds to the second communication method, is provided, and the selection processing means is indicated by the peripheral cell number indicating means. When it is determined that the number of peripheral cells is less than or equal to the first threshold value, it is determined whether or not the intensity of the received signal indicated by the intensity instruction means is greater than a predetermined second threshold value, and the second threshold value or less is determined. The mobile communication terminal according to claim 5, wherein the first mobile communication network is selected as a communication network of a transmission destination when it is determined that it is. 7. A time measuring means for measuring the duration of a standby time in which any one of the base stations corresponding to the second communication system is a local station is provided, and the selection processing means is indicated by the strength instructing means. When it is determined that the intensity of the received signal is larger than the second threshold value, it is determined whether or not the duration measured by the time measuring means is longer than a predetermined third threshold value. If it is determined that the first mobile communication network is longer than the third threshold, the second mobile communication network is selected as the destination communication network. The mobile communication terminal according to claim 6, wherein the mobile communication terminal is selected as the communication network. 8. A first mobile communication network which provides a mobile communication service using the first communication system, and a second mobile communication which provides a mobile communication service using the second communication system. A method for operating a mobile communication terminal, which enables wireless communication using any one of the first and second communication methods by selecting and transmitting one of the networks as a communication network of a transmission destination. Then, when it is detected that both the first and second communication methods are available at the time of calling, the number of neighboring cells of the own station waiting corresponding to the second communication method is set to a predetermined first number. Is larger than the threshold value, the second mobile communication network is selected as the destination communication network when it is determined to be larger, and the second mobile communication network is selected to be equal to or smaller than the first threshold value. Received signal from the own station waiting for the second communication method It is determined whether or not the signal strength is greater than a predetermined second threshold value, and when it is determined that the signal strength is less than or equal to the second threshold value, the first mobile communication network is selected as the communication network of the transmission destination. , If it is determined that the duration is longer than the second threshold, whether or not the duration of standby for any one of the base stations compatible with the second communication method is longer than a predetermined third threshold. If it is determined that it is less than or equal to the third threshold value, the first mobile communication network is selected as the communication network of the transmission destination, and the third mobile communication network is selected.
When it is determined that the second mobile communication network is longer than the threshold of, the second mobile communication network is selected as a communication network of a transmission destination.