JP2005020198A - Communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication terminal with which a specified mobile communication system is not always preferentially selected, but a mobile communication system that a user desires is preferentially selected when the mobile communication system is automatically selected. <P>SOLUTION: The mobile communication terminal judges the power voltage when a processing for selecting the mobile communication system is selected. When the power voltage is smaller prescribed (YES in S400), the communication system whose consumption power is previously decided to be small is preferentially selected (S403) and a position is registered (S306). When the power voltage is not less than prescribed (NO in S400), the communication system whose selection order is higher is preferentially selected by communication connection history information of the user (S408), and the position is registered (S306). <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication terminal capable of communicating with an external terminal via one of a plurality of mobile communication systems.
[0002]
[Prior art]
Currently, mobile terminal communication services using various mobile communication systems such as PDC, PHS, GSM, and UMTS are provided. Each mobile communication system has different characteristics such as communication cost, call quality, communication speed, etc., and the user can select a mobile communication system according to each individual.
[0003]
Although these mobile communication systems have different communication methods, mobile communication terminals that can use a plurality of mobile communication systems with one terminal have been proposed and used.
For example, two different mobile communication systems can be used, and there is means for automatically selecting or manually selecting which mobile communication system is the reception standby, and in the case of automatic selection, the power consumption is always constant. A mobile communication terminal that preferentially selects a specific mobile communication system that can be reduced is disclosed in Patent Document 1 below.
[0004]
[Patent Document 1] Japanese Patent No. 335832
[0005]
[Problems to be solved by the invention]
The conventional mobile communication terminal is excellent in energy saving and economical efficiency because when a mobile communication system is automatically selected, a specific mobile communication system that always consumes less power is preferentially selected.
However, in such mobile communication terminals, for example, a mobile communication system with high power consumption and high communication speed is not always selected with priority. As described above, when a communication system is automatically selected, a mobile communication system that is not desired by the user may be selected, and the user needs to manually switch to the desired mobile communication system each time. There is a problem that the operation is troublesome.
[0006]
The present invention has been made in order to solve the above-described problem. When a mobile communication system is automatically selected, a specific mobile communication system is not always preferentially selected and used. An object of the present invention is to provide a mobile communication terminal that predicts a mobile communication system desired by a person and preferentially selects it.
[0007]
[Means for Solving the Problems]
The communication terminal according to the present invention is a communication terminal that communicates with an external terminal via one of a plurality of mobile communication systems, and includes a voltage detection unit that detects a power supply voltage that drives the communication terminal, and the voltage detection unit. System selection means for processing which mobile communication system to select by reflecting the obtained power supply voltage value, and position registration for transmitting a position registration signal to the mobile communication system selected by the system selection means Means.
[0008]
Further, the communication terminal according to the present invention is a communication terminal that communicates with an external terminal via one of a plurality of mobile communication systems, and relates to which mobile communication system is used for each communication connection with the external communication terminal. History storage means for storing history information, system selection means for selecting a mobile communication system reflecting the history information stored by the history storage means, and position relative to the mobile communication system selected by the system selection means And a position registration means for transmitting a registration signal.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, mobile communication terminals according to embodiments of the present invention will be described with reference to the drawings. In the embodiments described below, it is assumed that GSM (Global System for Mobile Communications) is used as the first mobile communication system and UMTS (Universal Mobile Telecommunications System) is used as the second mobile communication system.
[0010]
<Configuration>
FIG. 1 is a diagram showing the relationship between a mobile communication terminal 100 and a mobile communication system according to the present invention. In FIG. 1, a radio base station 101 and a radio base station 104 indicate GSM radio base stations that relay GSM communication, and a radio base station 102 and a radio base station 103 indicate UMTS radio base stations that relay UMTS communication. The mobile communication terminal location management station 106 has a function of centrally managing information on the location of the mobile communication terminal 100 and which mobile communication system is used. The mobile communication terminal 100 selects one of the mobile communication systems, and registers the position in the mobile communication terminal location management station 106 through the radio base station of the mobile communication system, thereby waiting for communication via the mobile communication system. It becomes possible.
[0011]
The location registration is to notify the mobile communication terminal location management station 106 of the wireless zone (location registration area) where the mobile communication terminal 100 is currently located. When the mobile terminal moves beyond the location registration area to another location registration area or when the power is turned on, the mobile terminal performs a location registration operation, so the user does not need to be aware of the location registration area. When the mobile communication terminal 100 is registered in a location registration area including, for example, the GSM radio base station 101, an external communication terminal 107 attempting to communicate with the mobile communication terminal 100 communicates with the mobile communication terminal location management station 106 through the public line 105. Make an inquiry. Based on the type and location information of the mobile communication system with which the mobile communication terminal 100 has registered the location, the mobile communication terminal location management station 106 is connected to the GSM radio base station 101 with which the mobile communication terminal 100 is registered. The mobile communication terminal 100 is called. When the mobile communication terminal 100 responds to the call, communication between the mobile communication terminal 100 and the external communication terminal 107 is established.
[0012]
FIG. 2 is a block diagram showing the configuration of the mobile communication terminal 100 according to the present invention. The mobile communication terminal 100 includes a common antenna 201, a GSM radio unit 202, a UMTS radio unit 203, an electric field strength measurement unit 204, a control unit 205, a speaker 206, a microphone 207, an input unit 208, a display unit 209, a storage unit 210, a power source The voltage detection unit 211 is configured.
[0013]
The common antenna 201 has a function of converting each electrical signal from the GSM radio unit 202 and the UMTS radio unit 203 into an electromagnetic wave and emitting it to the outside of the mobile communication terminal 100. The common antenna 201 has a function of receiving electromagnetic waves from the GSM radio base station and the UMTS radio base station indicated by 101 to 104 in FIG. 1 and converting them into electrical signals. The converted electrical signal is transmitted to the GSM radio unit 202 or the UMTS radio unit 203. The GSM radio unit 202 and the UMTS radio unit 203 have a function of demodulating the electrical signal supplied from the common antenna 201 and sending it to the control unit 205 as received data. The GSM radio unit 202 and the UMTS radio unit 203 further have a function of modulating transmission data from the control unit 205 and sending it to the common antenna 201.
[0014]
The electric field strength measurement unit 204 receives radio waves through either the GSM radio unit 202 or the UMTS radio unit 203, and measures and controls the electric field strength (RSSI (Received Signal Strength Indicator)) of the received radio waves of GSM or UMTS. The unit 205 has a function of transmitting measurement values. The power supply voltage detection unit 211 has a function of measuring the power supply voltage and transmitting the measurement value to the control unit 205. The speaker 206 generates a received voice based on the voice signal from the control unit 205. The microphone 207 converts the sound to be transmitted into an electric signal and supplies it to the control unit 205. The input unit 208 is provided with, for example, a power switch for turning on the power and a numeric keypad for inputting a dial number. The input unit 208 has a function of transmitting operation information input by the user using the numeric keypad to the control unit 205. The display unit 209 is configured by, for example, an LCD (liquid crystal display), and the control unit 205 has a function of displaying date, time, received electric field strength, dial number, and other various messages.
[0015]
The storage unit 210 is a memory group that stores programs and data executed by the control unit 205, and includes a nonvolatile memory area and a volatile memory area.
The data stored in the storage unit 210 includes the following data described in detail later. They are communication system selection mode data, communication system selection reference data, predetermined voltage data, low voltage priority system data, and communication connection history selection data. The area in which these data are stored is a non-volatile memory area in the storage unit 210 where the data is not lost even when the power of the mobile communication terminal 100 is turned off.
[0016]
The control unit 205 has a function of controlling each unit of the mobile communication terminal 100 by performing processing according to the program stored in the storage unit 210 and the operation information acquired from the input unit 208. The control unit 205 has a function of acquiring a signal from the electric field intensity measurement unit 204 and determining the electric field intensity, and a function of acquiring a signal from the power supply voltage detection unit and determining a power supply voltage. The control unit 205 can be configured by, for example, a microprocessor (CPU).
[0017]
<Data>
Hereinafter, communication system selection mode data stored in the storage unit 210 will be described.
FIG. 6 is a diagram showing a configuration and example contents of communication system selection mode data. The communication system selection mode data 600 is data indicating how to select a mobile communication system for registering the location of the mobile communication terminal 100. The automatic communication mode is automatically selected by the mobile communication terminal 100, and is fixed to GSM and selected. It is assumed that the mode is always set to one of the GSM fixed mode and the UMTS fixed mode selected to be fixed to UMTS. As in the current selection mode 602 in FIG. 6, for example, 1 indicates that it is set, and 0 indicates that it is not set. These can be set by the user using the input unit 208, and the setting operation will be described in detail later. The example of FIG. 6 shows that the current selection mode is set to the automatic selection mode.
[0018]
Hereinafter, the predetermined voltage value data stored in the storage unit 210 will be described.
FIG. 7 is a diagram showing a configuration and example contents of the predetermined voltage data. As will be described later, the control unit 205 compares the power supply voltage value with the predetermined voltage value 700 and performs selection processing of the mobile communication system. The example of FIG. 7 shows that the predetermined voltage value is 1.8 (V). Hereinafter, the low voltage priority system data stored in the storage unit 210 will be described.
[0019]
The low-voltage priority system data indicates a specific mobile communication system that the control unit 205 preferentially selects when the power supply voltage value is smaller than the predetermined voltage value 700. Is this data set at the time of factory shipment? Alternatively, the user can set using the input unit 208, and the setting operation by the user will be described in detail later. In this embodiment, it is assumed that the mobile communication system is set to GSM.
[0020]
Hereinafter, communication system selection reference data stored in the storage unit 210 will be described.
FIG. 8 is a diagram showing a configuration and example contents of communication system selection reference data. The communication system selection reference data 800 is a set of a communication system name 801, a selection order 802, a connection history (time) 803, and a connection history (number of times) 804.
[0021]
The mobile communication system name 801 is data representing a mobile communication system that can be used by the mobile communication terminal 100. The selection order 802 is data representing the ranking associated with each mobile communication system name 801, and is one of the criteria when the control unit 205 selects a mobile communication system for registering the location of the mobile communication terminal 100 in the automatic mode. .
[0022]
The connection history (time) 803 is data accumulated every time the mobile communication terminal 100 performs communication connection via the mobile communication system, and indicates how long the mobile communication terminal 100 has been connected to the mobile communication system indicated by the communication system name 801. It is the data shown. The connection history (number of times) 804 is data accumulated every time the mobile communication terminal 100 performs communication connection via the mobile communication system, and indicates data indicating how many times the mobile communication terminal 100 is connected to the mobile communication system indicated by the communication system name 801. It is. Here, the selection order 802 is a selection order determined based on the connection history (time) 803 or the connection history (number of times) 804.
[0023]
In the example shown in FIG. 8, the selection order of UMTS is 1, the connection history (time) 803 is 10 hours 25 minutes and 30 seconds, the connection history (number of times) 804 is 262 times, and the selection order of GSM is 2 The connection history (time) 803 is 2 hours 36 minutes 57 seconds, and the connection history (number of times) 804 is 430 times. The operation for accumulating these communication connection history data will be described in detail later.
[0024]
Hereinafter, communication connection history selection data stored in the storage unit 210 will be described.
The communication connection history selection data is data indicating which of these connection history (time) 803 and connection history (number of times) 804 is based, but as will be described later, the control unit 205 performs communication connection history (time) 803. The selection order 802 is determined based on one of the connection history (number of times) 804. This data can be set at the time of factory shipment or can be set by the user using the input unit 208, and the setting operation by the user will be described in detail later.
[0025]
<Operation>
Next, the operation of the mobile communication terminal 100 configured as described above will be described.
FIG. 3 is a flowchart showing the overall operation of the mobile communication terminal 100. First, when the power is turned on and the user issues an instruction to make a setting related to the selection method of the communication system by pressing the setting key of the input unit 208 (YES in step S300), the control unit 205 Shifts the processing to the setting of the communication system selection method (step S301). However, if no instruction is issued here (NO in step S300), the control unit 205 moves the process to step S302 described later.
[0026]
Here, the communication system selection method setting process (step S301) will be described in detail with reference to the drawings. FIG. 13 is a flowchart illustrating processing for setting a communication system selection method performed by the control unit 205.
In the communication system selection method setting process, the control unit 205 first performs processing for causing the display unit 209 to display a GUI (Graphical User Interface) for setting the communication system selection mode data 600 (step S501). In accordance with the instruction of the screen displayed as a result, the setting is performed by pressing the setting key of the input unit 208 or the like. A display example when performing this setting is shown in FIG.
[0027]
A display screen 900 is an example of display contents of the display unit 209. This display screen 900 has a communication part selection mode 601 and a display part 901 for displaying a radio button for selecting any one of them, and the user selects any one of the radio buttons. The current selection mode 602 corresponding to the selected mode can be set to 1. The figure shows an example in which automatic selection is set.
[0028]
If the user does not set the selection mode to automatic selection in this setting, but sets the fixed mode to either GSM or UMTS (NO in step S502), the control unit 205 sets the communication system selection method. Finish. If the user has set automatic selection (YES in step S502), the control unit 205 moves the process to step S503.
[0029]
In step S503, the control unit 205 performs processing to display a GUI for setting priority system data at the time of low voltage on the display unit 209, and then the user follows the instructions on the screen displayed as a result of the input unit. Setting is performed by pressing a setting key 208 or the like. A display example when performing this setting is shown in FIG.
A display screen 1000 is an example of display contents of the display unit 209. This display screen 1000 has a communication part that can be used in the communication terminal and a display part 1001 for displaying a radio button for selecting any one of them, and the user selects any one radio button. By selecting, it is possible to set the low-voltage priority system data. In the figure, an example set to GSM is shown. When the setting of the low-voltage priority system data is completed, the control unit 205 moves the process to step S504.
[0030]
In step S504, the control unit 205 performs processing to display a GUI for setting communication connection history selection data on the display unit 209. Next, the user follows the instructions on the screen displayed as a result, and inputs the input unit 208. Set by pressing the setting key. A display example when performing this setting is shown in FIG.
A display screen 1100 is an example of display contents of the display unit 209. The display screen 1100 is a connection history (time) 803 and a connection history (number of times) 804, which are connection history information used as a communication system selection criterion, and a radio for selecting one of them. It has a display part 1101 for displaying a button, and the user can set communication connection history selection data by selecting one of the radio buttons. In the figure, an example in which the connection history (number of times) 804 is set is shown.
[0031]
When the setting of communication connection history selection data (S504) is completed, the control unit 205 ends the setting of the communication system selection method, and the process proceeds to step S302.
Next, the overall operation of the mobile communication terminal 100 will be described using FIG. 3 again.
When the setting of the communication system selection method is completed, the control unit 205 reads the communication system selection mode data 600 stored in the storage unit 210, and determines which mode is currently set (step S302). If it is not the automatic selection mode (NO in step S302), the control unit 205 receives a signal from the electric field strength measurement unit 204 and determines the electric field strength (RSSI) of the mobile communication system specified in the current selection mode 602.
[0032]
If the electric field strength of the specified mobile communication system is equal to or less than the predetermined value n [V / m] (NO in step S303), the control unit 205 determines that the electric field strength of the mobile communication system specified in the current selection mode 602 is a communication connection. The fact that it is not enough to be displayed is displayed on the display unit 209 to notify the user (step S304), and the process returns to step S300. Here, the predetermined value n [V / m] of the electric field strength is an electric field strength that is determined in advance so that a stable communication connection can be established if the value is equal to or greater than this value. If the electric field strength is greater than or equal to predetermined value n [V / m] (YES in step S303), control unit 205 moves the process to step S306. In step S302, in the case of the automatic selection mode (YES in step S302), the control unit 205 moves the process to step S305.
Here, the detailed operation of the communication system selection process (step S305) will be described with reference to FIG.
[0033]
First, the control unit 205 reads a predetermined voltage value 700 stored in the storage unit 210. Further, the control unit 205 receives a signal from the power supply voltage detection unit 211 and acquires a power supply voltage value. Then, the acquired power supply voltage value is compared with the predetermined voltage value (step S400). Here, when the power supply voltage value is smaller than the predetermined voltage value (YES in step S400), the control unit 205 reads the low-voltage priority system data from the storage unit 210, and sets the specified mobile communication system. The priority selection is displayed on the display unit 209 to notify the user (step S401).
[0034]
An example of this display is shown in FIG. A display screen 500 is an example of display contents of the display unit 209. This display screen has a display part 501 for displaying the name of the mobile communication system currently selected by the control unit 205, and when the power supply voltage value is smaller than the predetermined voltage value (YES in step S400), the control unit 205 has a display part 502 for displaying that GSM is preferentially selected. In the display example of this figure, since the current power supply voltage value is smaller than the predetermined voltage value, GSM is prioritized and GSM is selected.
[0035]
The control unit 205 moves the process to step S402 after the screen display (step S401). Here, the control unit 205 receives a signal from the electric field strength measuring unit 204 and determines the electric field strength (RSSI) of GSM set in the low voltage priority system data. If the electric field strength of GSM is larger than predetermined value n [V / m] (YES in step S402), control unit 205 selects GSM (step S403), and further displays that GSM is selected on display area 501. Then, the communication system selection process ends.
[0036]
If the GSM field strength is equal to or smaller than the predetermined value n [V / m] in step S <b> 402 (NO in step S <b> 402), the control unit 205 then obtains the UMTS field strength from the field strength measurement unit 204. If the electric field strength of UMTS is larger than predetermined value n [V / m] (YES in step S404), control unit 205 selects UMTS (step S405), and further indicates that UMTS is selected in display area 501. Display and finish the communication system selection process. If the electric field strength of UMTS is equal to or less than the predetermined value n [V / m] (NO in step S404), the control unit 205 indicates that the electric field strengths of both the GSM and UMTS mobile communication systems are not sufficient for communication connection. Is displayed on the display unit 209 to notify the user (step S406), and the process returns to S302.
[0037]
When the power supply voltage value is equal to or higher than the predetermined voltage value 700 in step S400, the control unit 205 moves the process to step S407. First, the control unit 205 reads the communication system selection reference data 800 stored in the storage unit 210. After reading the data, the mobile communication system having the first selection order 802 is selected, and the electric field strength (RSSI) of the mobile communication system is determined (step S407). If the electric field strength is larger than the predetermined value n [V / m] (YES in step S407), the control unit 205 selects the communication system in which the selection order 802 is the first (step S405), and further selects the mobile communication system. The selection is displayed on the display part 501, and the communication system selection process is completed.
[0038]
If the electric field strength of the mobile communication system having the first selection order 802 in step S409 is less than or equal to the predetermined value n [V / m] (NO in step S409), the control unit 205 next selects the second selection order 802. The electric field strength (RSSI) of the next mobile communication system is obtained from the electric field strength measuring unit 204. If the electric field strength is larger than the predetermined value n [V / m] (YES in step S409), the control unit 205 selects the mobile communication system in which the selection order 802 is second (step S410), and further the mobile communication system. Is displayed on the display part 501, and the communication system selection process is completed. Here, if the electric field strength of the mobile communication system in which the selection order 802 is second is less than or equal to the predetermined value n [V / m] (NO in step S409), the control unit 205 determines the electric field strength of both the GSM and UMTS mobile communication systems. Is displayed on the display unit 209 to notify the user that it is not sufficient for communication connection (step S411), and the process returns to S302.
[0039]
The control unit 205 selects a mobile communication system in the communication system selection process (step S305), and then moves the process to step S306. In step S306, the control unit 205 performs a location registration operation. In the location registration operation, the control unit 205 first selects a radio unit (either the GSM radio unit 202 or the UMTS radio unit 203) corresponding to the selected mobile communication system. After the selection, a signal for location registration is transmitted to the radio base station in the location registration area of the selected mobile communication system via the radio unit and the common antenna 201. After transmitting the signal, a registration completion signal is received from the radio base station, and the location registration operation is completed. The signal from the radio base station includes a code for specifying the registered location registration area, and the control unit 205 stores the location code in the storage unit 210.
[0040]
After the position registration operation is completed, the control unit 205 enters a standby state (step S307). In the standby state, a general call channel (PCH) transmitted from a radio base station in a location registration area registered at a certain time interval, for example, every 1 or 2 seconds, is received. As a result, the mobile communication terminal 100 can be used in the selected mobile communication system.
[0041]
The radio base station broadcasts a location code that specifies the location registration area of the radio base station in a broadcast channel (BCC) signal to the mobile communication terminal 100. Here, when in the standby state, the control unit 205 compares the position code of the position registration area registered in the current position recorded in the storage unit 210 with the position code notified by the radio base station, and these are different from each other. In the case (YES in step S308), or when the control unit 205 compares the predetermined voltage value 700 with the power supply voltage value for a certain period of time, for example, every minute, and the power supply voltage value is lower than the predetermined voltage value 700, the position registration is performed. If it is determined that it is necessary, the process returns to step S302.
[0042]
The mobile communication terminal 100 in the standby state establishes a communication connection with an external communication terminal (step S310) through an incoming call from a wireless base station or a user call operation (step S309), which is a conventional technique. Thereafter, after the communication is disconnected (step S311), the control unit 205 moves the process to a connection history registration step (step S312). Here, it is assumed that the control unit 205 stores the communication time from the start of communication to the communication disconnection and the mobile communication system name in the storage unit 210.
[0043]
In the connection history registration step (step S312), the control unit 205 first reads the communication system selection reference data 800 from the storage unit 210. The control unit 205 adds the current communication connection time to the connection history (time) 803 corresponding to the mobile communication system name stored in the storage unit 210 after the communication disconnection in the read communication system selection reference data 800, and further, the connection history (Number of times) 1 is added to 804.
[0044]
Next, the control unit 205 reads communication connection history selection data. When the data indicates that the accumulated communication connection time is used, the control unit 205 compares the connection history (time) 803 of GSM and UMTS, and the mobile communication with the longer connection history (time) 803. The system selection order is determined as 1 and the other as the selection order 2, and the communication system selection reference data is updated. On the other hand, when the communication connection history selection data indicates that the cumulative number of communication connections is used, the control unit 205 compares the connection history (number of times) 804 of GSM and UMTS, and the connection history (number of times) 804 is larger. The selection order of mobile communication systems is determined as 1 and the other as selection order 2, and the communication system selection reference data is updated.
[0045]
It is assumed that the connection history (time) 803 and connection history (number of times) 804 data can be updated to 0 by the user when the user inputs an initialization command through the input unit 208.
When the connection history registration step (S312) is completed, the control unit 205 returns the process to the standby state (step S307).
[0046]
Hereinafter, the operation of the mobile communication terminal 100 assuming that the data shown in FIGS. 6 to 8 is stored in the storage unit 210 will be described.
Further, the power supply voltage value of the mobile communication terminal 100 is 1.9 (V), and the electric field strengths of both GSM and UMTS at the place where the mobile communication terminal 100 is used have sufficient strength for communication. Assume that
[0047]
First, when the power is turned on, the control unit 205 refers to the communication system selection mode data 600, and as assumed here, the control unit 205 determines that the current selection mode 602 is automatic selection. Next, the process proceeds to step S305, and communication system selection processing (step S400) is started. First, the control unit 205 reads a predetermined voltage value 700 of predetermined voltage data stored in the storage unit 210 and obtains a value of 1.8 (V). Further, the control unit 205 reads the power supply voltage value from the power supply voltage detection unit 211 and obtains a value of 1.9 (V). In this case, since the power supply voltage value is equal to or higher than the predetermined voltage value, the control unit 205 moves the process to step S407.
[0048]
Next, the control unit 205 reads the communication system selection reference data 800, and obtains that UMTS is in the selection order 1 and GSM is in the selection order 2 from the data. Therefore, the control unit 205 determines the electric field strength of UMTS that is in the selection order 1. Here, since it is assumed that the electric field strength is sufficiently strong, the control unit 205 selects UMTS, displays that UMTS is being selected on the display unit 501 (step S408), and ends the communication system selection process.
[0049]
Next, in step S306, the control unit 205 transmits a signal for location registration to the UMTS radio base station through the UMTS radio unit 203 to perform location registration. Next, the control unit 205 shifts to a standby state (step S307) in UMTS, and the mobile communication terminal 100 can receive or make a call through UMTS. Next, after the incoming call or outgoing call (step S309), the control unit 205 shifts to a call state (step S310), and then the call is disconnected after the call (step S311). Assuming that the communication connection time is 10 minutes, the control unit 205 next updates the UMTS connection history (time) 803 of the communication system selection reference data 800 to 10h35m30s in the connection history registration step (S312). The connection history (number of times) is updated to 263.
[0050]
Next, the control unit 205 reads communication connection history selection data. When the data indicates that the accumulated communication connection time is used, the control unit 205 compares the connection history (time) 803 between GSM and UMTS. Here, since the connection history (time) 803 in UMTS is larger than the connection history (time) 803 in GSM, the control unit 205 determines that the selection order 1 is UMTS and the selection order 2 is GSM, and the communication system selection criterion. Update the data. On the other hand, when the communication connection history selection data indicates that the cumulative number of communication connections is used, the control unit 205 compares the connection history (number of times) 804 between GSM and UMTS. Here, since the connection history (number of times) 804 in GSM is larger than the connection history (number of times) 804 in UMTS, the control unit 205 determines that the selection order 1 is GSM and the selection order 2 is UMTS, and the communication system selection criterion. Update the data. Next, the control unit 205 shifts the process to the standby state (S307).
[0051]
Now, the mobile communication terminal 100 moves from the location registration area where the location registration has been performed to a different location registration area, and the power supply voltage is 1.7 (V). The operation will be described on the assumption that the electric field strengths of both GSM and UMTS are sufficient for communication.
The control unit 205 that has received a position code from a different position registration area determines that position registration is necessary (YES in step S308), and moves the process to step S302. The control unit 205 again determines that the current selection mode 602 of the communication system selection mode is automatic selection, moves to step S305, and starts communication system selection processing (step S400). Here, since it is assumed that the predetermined voltage value is 1.8 (V) and the power supply voltage value is 1.7 (V), the control unit 205 moves the process to step S401. Here, the control unit 205 reads the priority system data at the time of low voltage, and displays on the display part 502 that GSM is being prioritized because of the low voltage as shown in FIG.
[0052]
Next, the control unit 205 determines the electric field strength of GSM. Here, since it is assumed that the electric field strength is sufficiently strong, the control unit 205 selects GSM and displays that GSM is being selected on the display portion 501 (step S403), and communication system selection processing (step S305). ) Next, in step S306, the control unit 205 transmits a signal for location registration to the GSM radio base station through the GSM radio unit 202 to perform location registration. Next, the control unit 205 shifts the process to the standby state (step S307) in GSM, and the mobile communication terminal 100 becomes ready to make and receive calls via GSM.
[0053]
As described above, the present invention has been described based on the embodiments. However, the present invention is not limited to the above-described embodiments, and the following cases are also included in the present invention.
(1) In the above embodiment, a mobile communication terminal applicable to two mobile communication systems such as GSM and UMTS has been described, but the mobile communication system is not limited to the above. For example, GSM and PHS may be used, and PDC and PHS may be used. Further, the present invention can be applied to a mobile communication terminal applicable to three or more mobile communication systems instead of two.
[0054]
(2) In the above embodiment, the connection history is registered (step S312) even when the power supply voltage value is lower than the predetermined voltage value 700 (YES in step S400) as shown in FIGS. However, instead of this, if the power supply voltage value is lower than the predetermined voltage value (YES in step S400), the connection history registration (step S312) may not be performed. That is, since the mobile communication system automatically selected for reducing power consumption is selected by limiting the power supply voltage value, it does not necessarily reflect the user's preference. By keeping such communication connection history information that does not necessarily reflect the user's preference, the history information can be stored more accurately reflecting the user's preference.
[0055]
(3) In the above embodiment, an example is shown in which the selection process of the mobile communication system reflecting the power supply voltage value and the selection process of the mobile communication system reflecting the communication connection history information are shown. The process may be performed by selecting only one of these processes.
That is, in the case of only the selection process of the mobile communication system reflecting the power supply voltage value, the selection order 802 based on the connection history (time) 803 or the connection history (number of times) 804 is not updated in step S312. Instead of performing the update, the selection order 802 may be updated by the user through the input unit 208, or the control unit 205 may be updated based on some parameter. On the other hand, in the case of only the selection process of the mobile communication system reflecting the communication connection history information, the communication system selection process shown in FIG. 4 is performed from step S407.
[0056]
The user can set whether to perform either one of the selection processes as described above or to perform both of the selection processes as described in the present embodiment. The setting operation will be described below.
When the user inputs a command for performing the above-described setting by pressing a setting key of the input unit 208 or the like, the control unit 205 performs processing to cause the display unit 209 to perform a GUI for performing the setting. In addition, the user can make settings by pressing the setting key of the input unit 208 in accordance with the instructions on the screen displayed as a result. A display example when performing this setting is shown in FIG.
[0057]
A display screen 1200 is an example of display contents of the display unit 209. This display screen 1200 has a display part 1201 for displaying a power supply voltage value, a connection history, and a radio button for selecting any one of the power supply voltage value and the connection history, and the user selects any of the radio buttons. By selecting one, it is possible to set which selection processing the control unit 205 performs. In the figure, an example is shown in which both the selection process of the mobile communication system reflecting the power supply voltage value and the selection process of the mobile communication system reflecting the communication connection history information are performed.
[0058]
(4) In the above embodiment, as shown in FIG. 3, the communication system selection method setting (step S301) is performed when there is a setting instruction by the user after power-on (YES in step S300). However, the timing for setting the communication system selection method is not limited to this. For example, it may be performed when there is a setting instruction by the user in the standby state (step S307).
[0059]
(5) In the above embodiment, as shown in FIG. 4, when the power supply voltage value is lower than the predetermined voltage value 700 (YES in step S400), GSM is always selected if the GSM field strength is sufficient. However, if the electric field strength of UMTS is sufficient, UMTS may be selected within a range not exceeding the number of GSM selections. However, in this case, the control unit 205 records in the storage unit 210 how many mobile communication systems have been selected when the power supply voltage value is lower than the predetermined voltage value 700 (YES in step S400). Shall.
[0060]
(6) In the above embodiment, when the power supply voltage value is equal to or higher than the predetermined voltage value 700 (NO in step S400) as shown in FIG. Although it was shown that the mobile communication system of the selection order 1 is always selected, if the electric field strength of the mobile communication system of the selection order 2 is sufficient, the selection is made within the range not exceeding the number of selections of the mobile communication system of the selection order 1. The order 2 mobile communication system may be selected. However, it is assumed that the control unit 205 records in the storage unit 210 how many times the mobile communication system in the selection order 1 or the mobile communication system in the selection order 2 has been selected.
[0061]
(7) The present invention may be the method described above. Further, the present invention may be a computer program that realizes these methods by a computer, or may be a digital signal composed of the computer program.
In the present invention, the computer program or the digital signal may be transmitted via an electric communication line, a wireless or wired communication line, a network represented by the Internet, or the like.
[0062]
The present invention may be a computer system including a microprocessor and a memory, wherein the memory stores the computer program, and the microprocessor operates according to the computer program.
In addition, the program or the digital signal is recorded on the recording medium and transferred, or the program or the digital signal is transferred via the network or the like, and is executed by another independent computer system. It is good.
[0063]
【The invention's effect】
As described above in detail, the communication terminal according to the present invention is a communication terminal that communicates with an external terminal via one of a plurality of mobile communication systems, and detects a power supply voltage that drives the communication terminal. Means, a system selection means for processing which mobile communication system is selected reflecting the power supply voltage value obtained by the voltage detection means, and a mobile communication system selected by the system selection means And a position registration means for transmitting a position registration signal.
[0064]
As a result, the selection method of the mobile communication system can be changed depending on whether the power supply voltage is large or small. For example, when the power supply voltage is low, the selection is limited to select a mobile communication system with low power consumption, and when the power supply voltage is high, a mobile communication system with high power consumption but high communication speed can be selected. Become. As a result, a specific mobile communication system is not always automatically selected with priority.
[0065]
Here, the system selection means performs a process of preferentially selecting a mobile communication system that is determined in advance when the detected power supply voltage value is smaller than a predetermined value and that the power consumption of the own terminal is small. It is good also as performing.
As a result, when the power supply voltage value is smaller than the predetermined value, power consumption can be reduced. On the other hand, when the power supply voltage value is higher than the predetermined value, for example, other than power consumption such as user communication connection history information. It is possible to provide a communication terminal that automatically selects a mobile communication system by applying the selection criteria.
[0066]
The communication terminal according to the present invention is a communication terminal that communicates with an external terminal via one of a plurality of mobile communication systems, and which mobile communication system is used for each communication connection with the external communication terminal. History storage means for storing the history information, system selection means for selecting a mobile communication system reflecting the history information stored by the history storage means, and a mobile communication system selected by the system selection means And a position registration means for transmitting a position registration signal.
[0067]
As a result, the orientation when the user selects the mobile communication system can be grasped from the aspect of the user's communication connection history information, and the mobile communication system can be selected according to the orientation and provided to the user. . Since the communication connection history information is considered to reflect the mobile communication system that the user prefers and often selects, it is one of the big clues for predicting which mobile communication system the user will select next. . That is, by predicting which mobile communication system the user prefers based on the communication connection history information of the user and automatically selecting the mobile communication system, the mobile communication system that the user does not like is automatically selected. Since it is selected, it is possible to efficiently use the complicated operation of manually switching to the preferred mobile communication system and registering the position, as much as possible.
[0068]
Here, the system selection means counts the number of communications for each mobile communication system from the history information accumulated by the history accumulation means, and preferentially selects the mobile communication system with the largest number of communications. Also good.
As a result, the orientation when the user selects the mobile communication system is grasped from the aspect of the number of communication in the communication connection history information of the user, and the mobile communication system is selected according to the orientation and provided to the user. It becomes possible to do. Since the mobile communication system with the highest number of communication is considered to reflect the mobile communication system that the user likes most often, in order to predict which mobile communication system the user will select next. One of the big clues. That is, by predicting which mobile communication system the user prefers based on the number of communications, and automatically selecting the mobile communication system, the user prefers the mobile communication system he or she prefers because the mobile communication system he / she does not like is automatically selected. The complicated operation of manually switching to the communication system and registering the position must be saved as efficiently as possible.
[0069]
The history information stored by the history storage means includes information related to communication time, and the system selection means calculates the accumulated communication time for each mobile communication system from the history information stored by the history storage means. The mobile communication system that is acquired and has the longest accumulated communication time may be preferentially selected.
[0070]
As a result, the orientation when the user selects the mobile communication system is grasped from the aspect of the accumulated communication connection time in the communication connection history information of the user, and the user selects the mobile communication system according to the orientation and selects the user. Can be provided to. Since the mobile communication system with the longest cumulative communication connection time is considered to reflect the mobile communication system that the user prefers to use for a long time, the mobile communication system to be selected next by the user is predicted. One of the big clues for this. That is, a mobile communication system that the user prefers because a mobile communication system that the user does not like is automatically selected by predicting which mobile communication system the user prefers based on the cumulative number of communications and selecting the mobile communication system. The complicated operation of having to manually switch to the system and register the position can be saved as efficiently as possible.
[0071]
The communication terminal according to the present invention is a communication terminal capable of communicating with an external terminal via one of mobile communication systems having a plurality of different communication methods, and each communication of the plurality of mobile communication systems. Each of the radio units reflecting each power unit for communication corresponding to the system, a voltage detection unit for detecting a power supply voltage for driving the communication terminal, and a power supply voltage value obtained from the voltage detection unit A wireless unit selecting unit that performs processing for selecting whether or not, and a position registration unit that transmits a position registration signal through the wireless unit selected by the wireless unit selecting unit.
[0072]
As a result, the radio unit to be selected can be changed depending on whether the power supply voltage value is large or small. For example, when the power supply voltage value is small, the selection is limited so that the radio unit corresponding to the mobile communication system with low power consumption is selected. On the other hand, when the power supply voltage is large, the mobile power consumption is high but the communication speed is high. A wireless unit corresponding to the communication system can be selected. As a result, a radio unit corresponding to a specific mobile communication system is not always automatically selected with priority.
[0073]
The communication terminal according to the present invention is a communication terminal capable of communicating with an external terminal via one of mobile communication systems having a plurality of different communication methods, and each communication of the plurality of mobile communication systems. A history storage means for storing information relating to which mobile communication system is passed each time each wireless unit for communication corresponding to a system and an external communication terminal are connected to each other, and the history storage means stored by the history storage means Radio section selection means for performing processing for selecting the radio section by reflecting history information, and position registration means for transmitting a position registration signal to the mobile communication system through the radio section selected by the radio section selection means. It is characterized by that.
[0074]
As a result, the orientation when the user selects the mobile communication system is grasped from the aspect of the user's communication connection history information, and the radio unit corresponding to the mobile communication system according to it is automatically selected and the radio unit is selected. This makes it possible to register the location of the communication terminal. Since the communication connection history information is considered to reflect the mobile communication system that the user prefers and often selects, it is a great clue for predicting which mobile communication system the user will select next. That is, a mobile communication system that the user does not like by predicting which mobile communication system the user prefers based on the communication connection history information and selecting a radio unit corresponding to the communication method of the mobile communication system Since the radio unit corresponding to is automatically selected and the location is registered through the radio unit, the user has to switch to the mobile communication system preferred by the user and manually register the location. Can be used well.
[Brief description of the drawings]
FIG. 1 is a diagram showing a relationship between a mobile communication terminal 100 and a mobile communication system.
2 is a block diagram showing a configuration of mobile communication terminal 100. FIG.
FIG. 3 is a flowchart showing a flow of processing after the mobile communication terminal 100 is powered on.
4 is a flowchart showing an internal flow of a communication system selection process (step S305) shown in FIG.
5 is a diagram showing an example of a display screen on the display unit of the mobile communication terminal 100. FIG.
6 is a diagram showing communication system selection mode data of the mobile communication terminal 100. FIG.
7 is a diagram showing predetermined voltage value data of the mobile communication terminal 100. FIG.
FIG. 8 is a diagram showing communication system selection reference data of a mobile communication terminal.
9 is a diagram showing an example of a display screen on the display unit of the mobile communication terminal 100. FIG.
10 is a diagram showing an example of a display screen on the display unit of the mobile communication terminal 100. FIG.
11 is a diagram showing an example of a display screen on the display unit of the mobile communication terminal 100. FIG.
12 is a diagram showing an example of a display screen on the display unit of the mobile communication terminal 100. FIG.
13 is a flowchart showing an internal flow of setting (step S301) of the communication system selection method shown in FIG. 3;
[Explanation of symbols]
100 Mobile communication terminal
101 GSM radio base station
102 UMTS radio base station
103 UMTS radio base station
104 GSM radio base station
105 Public communication line
106 Mobile communication terminal location management station
107 communication terminal
201 Common antenna
202 GSM radio unit
203 UMTS radio unit
204 Electric field strength measurement unit
205 Control unit
206 Speaker
207 microphone
208 Input section
209 Display
210 Storage unit
211 Power supply voltage detector
500 display screen
501 Display area
502 Display part

Claims (9)

A communication terminal that communicates with an external terminal via one of a plurality of mobile communication systems,
Voltage detection means for detecting a power supply voltage for driving the communication terminal;
System selection means for processing which mobile communication system to select by reflecting the power supply voltage value obtained by the voltage detection means;
A communication terminal comprising: a location registration unit that transmits a location registration signal to the mobile communication system selected by the system selection unit. The system selection means performs a process of preferentially selecting a mobile communication system determined in advance that the power consumption of the terminal is small when the detected power supply voltage value is smaller than a predetermined value. The communication terminal according to claim 1, wherein: A communication terminal that communicates with an external terminal via one of a plurality of mobile communication systems,
History storage means for storing history information relating to which mobile communication system each time a communication connection is made with an external communication terminal;
System selection means for selecting a mobile communication system reflecting the history information stored by the history storage means;
A communication terminal comprising: a location registration unit that transmits a location registration signal to the mobile communication system selected by the system selection unit. The said system selection means counts the frequency | count of communication for every mobile communication system from the said log | history information accumulate | stored by the said log | history storage means, The mobile communication system with the largest said communication frequency is prioritized and selected. The communication terminal described. The history information stored by the history storage means includes information related to communication time,
The system selection means acquires the accumulated communication time for each mobile communication system from the history information accumulated by the history accumulation means, and preferentially selects the mobile communication system having the longest accumulated communication time. Item 4. The communication terminal according to Item 3. A program for causing a communication terminal equipped with a CPU to communicate with an external terminal via one of a plurality of mobile communication systems,
A voltage detection step for detecting a power supply voltage for driving the communication terminal;
A system selection step for processing which mobile communication system to select by reflecting the power supply voltage value obtained from the voltage detection step;
A location registration step of transmitting a location registration signal to the mobile communication system selected in the system selection step. A program for causing a communication terminal equipped with a CPU to communicate with an external terminal via one of a plurality of mobile communication systems,
A history accumulation step for accumulating information relating to which mobile communication system is passed each time a communication connection is made with an external communication terminal;
A system selection step of selecting a mobile communication system reflecting the history information accumulated by the history accumulation step;
A location registration step of transmitting a location registration signal to the mobile communication system selected in the system selection step. A communication terminal capable of communicating with an external terminal via one of mobile communication systems having a plurality of different communication methods,
Voltage detecting means for detecting a power supply voltage for driving each radio unit and the communication terminal for communication corresponding to each communication method of the plurality of mobile communication systems,
Radio unit selection means for processing which of the radio units is selected reflecting the power supply voltage value obtained from the voltage detection means;
A communication terminal comprising: a location registration unit that transmits a location registration signal through a radio unit selected by the radio unit selection unit. A communication terminal capable of communicating with an external terminal via one of mobile communication systems having a plurality of different communication methods,
History storage means for storing information relating to which mobile communication system is passed each time a communication connection is established between each wireless unit for communication corresponding to each communication method of the plurality of mobile communication systems and an external communication terminal; ,
Radio unit selection means for performing processing for selecting the radio unit reflecting the history information stored by the history storage unit;
A communication terminal comprising: a location registration unit that transmits a location registration signal to the mobile communication system through the radio unit selected by the radio unit selection unit.

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