JP2003264500A - Mobile terminal - Google Patents

Abstract

(57) [Summary] [Problem] To provide a mobile terminal that predicts a radio wave reception situation and notifies a user of the situation. SOLUTION: The portable terminal 10 communicates with another terminal via a base station, a wireless unit 110 for receiving a radio wave transmitted by the base station, and a reception unit for detecting a reception state of the receiving unit based on the radio wave. An electric field strength detection unit, a RAM 102 that stores a history of reception states, a control unit 130 that predicts a change in the reception state based on the reception states stored in the RAM 102,
A display unit 146 for notifying a user of the mobile terminal of a result predicted by the control unit 130.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable terminal. In particular, the present invention relates to a mobile terminal that notifies a user of a communication state. 2. Description of the Related Art In Japanese Patent Application Laid-Open No. 11-103492,
A portable terminal provided with control means for causing a vibrator to generate vibration when the electric field strength of a signal transmitted from a base station falls below a reference value is disclosed. However, the portable terminal disclosed in Japanese Patent Application Laid-Open No. H11-103492 shows only the current radio wave reception state. Therefore, there is a possibility that the communication of the portable terminal is cut off at a timing not intended by the user. Therefore, an object of the present invention is to provide a portable terminal capable of solving the above-mentioned problems. According to a first aspect of the present invention, there is provided a portable terminal which communicates with another terminal via a base station, and receives a radio wave transmitted from the base station. Receiving section, a receiving state evaluating section for evaluating the receiving state of the receiving section based on radio waves, a receiving state storing section for storing a history of receiving states, and receiving based on the receiving state stored in the receiving state storing section. It has a reception state prediction unit that predicts a change in state, and a notification unit that notifies the user of the mobile terminal of the result predicted by the reception state prediction unit. The above summary of the present invention does not list all of the necessary features of the present invention, and a sub-combination of these features may also be an invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to embodiments of the present invention. However, the following embodiments do not limit the claimed invention and are described in the embodiments. Not all combinations of the features described above are essential to the solution of the invention. FIG. 1 schematically shows a portable terminal system according to the present embodiment. The system of the portable terminal includes a portable terminal 10, a base station 20, a subscriber exchange 30, a gateway exchange 40, and a terminal 50. Originally, the subscriber exchange 30 is connected to a plurality of base stations 20, but a description of the system of the portable terminal 10 will be omitted here. [0009] The mobile terminal 10 communicates with the terminal 50 via the base station 20, the subscriber exchange 30, and the gateway exchange 40. The content of the communication performed by the mobile terminal 10 is, for example, a voice signal or an e-mail. In addition, the mobile terminal 10
Information of the mobile terminal 10, for example, mobile terminal number information indicating information such as the telephone number of the mobile terminal 10 and the mobile terminal 10,
Alternatively, the location information indicating the location of the mobile terminal 10 is transmitted to the base station 2
Send to 0. [0010] The base station 20 receives information transmitted from the portable terminal 10 to the terminal 50. The base station 20 transmits the information received from the mobile terminal 10 to the terminal 50 via the local exchange 30 and the gateway exchange 40. Further, the base station 20 receives the mobile terminal number information and the position information from the mobile terminal 10. The base station 20 transmits the received mobile terminal number information and location information to the local exchange 30. When the mobile terminal 10 starts communication with the terminal 50 or when the terminal 50 starts communication with the mobile terminal 10, the local exchange 10 connects the mobile terminal 10 with the terminal 50. Connect with. [0012] The local exchange 30 receives the mobile terminal number information and the location information from the base station 20. Local exchange 3
0 is based on the received mobile terminal number information and the location information, when the mobile terminal 10 moves to a wireless zone of a base station 20 different from the base station 20 with which communication is currently being performed, that is, when the mobile terminal 10 moves to a talkable area, Switching instruction information indicating an instruction to switch the line is transmitted to an upper station (not shown). The upper station is
The switching instruction information is transmitted to the local exchange 30. [0013] The local exchange 30 receives switching instruction information from a higher-level office. The local exchange 30 switches the base station 20 with which the mobile terminal 10 communicates based on the received switching instruction information. The mobile terminal 10 stores the reception status of radio waves received from the base station 20 as a history. Mobile terminal 10
Predicts the radio wave reception status based on the stored reception status history. When the predicted radio wave reception status is at a level that does not hinder communication, the mobile terminal 10 transmits to the other base stations 20 that have predicted that the radio wave reception status will be better than that of the base station 20 currently communicating. Switch the communication destination. If the predicted radio wave reception state is at a level that does not hinder communication and there is no other base station to switch to, the mobile terminal 10 notifies the user of the mobile terminal 10 that communication may not be possible. . Therefore, the mobile terminal 10
The user can know that the communication cannot be performed before the communication is disconnected at an unintended location. FIG. 2 shows the distance from the first base station 22 or each of the second base stations 24 located at a different position from the first base station 22, and the first base station 22 or the second base station 22. Station 2
4 shows the relationship between the electric field strength of the radio wave transmitted and the state of deterioration of the radio wave. The curves in FIG.
It indicates the electric field strength of the radio wave transmitted by the second or second base station 24 and the distance from the first base station 22 or the second base station 24. As shown in FIG. 2, the electric field strength of the radio wave decreases as the distance from the base station increases. Note that the mobile terminal 10 that receives a radio wave cannot receive the radio wave when the electric field strength of the radio wave is equal to or less than a predetermined value. The portable terminal 10 stores the history of the electric field strength of the radio wave received from the first base station 22. Mobile terminal 10
Is based on the stored electric field strength history.
And the amount of change in the distance from the portable terminal 10 to the base station 20, that is, the moving speed of the portable terminal 10. The mobile terminal 10 predicts a future electric field strength based on the calculated distance from the mobile terminal 10 to the base station 20 and the moving speed of the mobile terminal 10. The portable terminal 10 is connected to the second base station 24
Also receives radio waves from The portable terminal 10 predicts the electric field strength of the radio wave received from the second base station 24 based on the electric field strength of the radio wave received from the second base station 24, as in the case of the first base station 22. . The portable terminal 10 predicts that the electric field strength of the radio wave received from the first base station 22 will be lower than a predetermined value,
When the electric field strength of the radio wave received from the second base station 24 is predicted to be equal to or more than a predetermined value, the base station that performs communication is changed from the first base station 22 to the second base station 24. The mobile terminal 10 predicts that the electric field strength of the radio wave received from the first base station 22 will be less than a predetermined value,
In addition, when it is predicted that there is no other base station 20 to perform communication when the electric field strength of the radio wave received from the first base station 22 becomes equal to or less than a predetermined value, it is determined that the mobile terminal 10 cannot perform communication. Notify the user. As described above, portable terminal 10 according to the present embodiment predicts the reception intensity of the radio wave received from base station 20. In addition, when the mobile terminal 10 predicts that communication with the base station 20 cannot be performed, the mobile terminal 10 indicates that communication cannot be performed.
The user of the mobile terminal 10 is notified. FIG. 3 shows a portable terminal 10 according to the present embodiment.
1 shows an example of a signal format of a signal included in a radio wave received by the radio receiver. This signal format includes format type information, information on peripheral base stations, mobile terminal user data for mobile terminal 10, empty line information, and synchronization information. The peripheral base station information indicates information on another base station in the vicinity of the base station 20, for example, the position of another base station. The mobile terminal 10 performs, based on the peripheral base station information,
When moving to a cell of another base station, the position of another base station is searched. The mobile terminal user data for the mobile terminal 10 indicates information for specifying the mobile terminal which is the destination of the signal format. When receiving the mobile terminal user data for the mobile terminal 10 specifying the mobile terminal 10, the mobile terminal 10 converts the received radio wave into information. The airline information is transmitted from the base station 20 to the portable terminal 10.
This is information generated by the base station 20 when there is no information to be transmitted to. When the mobile terminal 10 is communicating with the terminal 50, the base station 20 includes information transmitted by the terminal 50 to the mobile terminal 10, for example, an audio signal, in the present signal format instead of the empty line information. The synchronization information is information indicating a timing and a congestion state for transmitting and receiving information between the base station 20 and the portable terminal 10. The mobile terminal 10 transmits and receives information to and from the base station 20 based on the timing indicated by the synchronization information. FIG. 4 shows portable terminal 10 according to the present embodiment.
An example of the configuration will be described. The mobile terminal 10 includes a RAM 102, an R
OM 104, antenna 106, radio section 110, modulation / demodulation circuit section 120, received electric field strength detection section 122, control section 130, timer 132, vibrator 140
, LED 142, ringer 144, display unit 146
, An audio processing unit 150, an audio processing circuit 152,
A converter 154, A / D converter 162, speaker 1
56, a microphone 158, an operation unit 170, a specific function key 172, and a basic function key 174. RAM1
02 corresponds to the reception state storage unit according to the present invention. The antenna 106, the radio unit 110, and the modulation / demodulation circuit unit 120 correspond to a receiving unit according to the present invention. The reception field strength detection unit 122 corresponds to the reception state determination unit according to the present invention.
The control unit 130 corresponds to the reception state prediction unit according to the present invention. Vibrator 140, LED 142, ringer 14
4 and the display unit 146 correspond to the notification unit according to the present invention. The RAM 102 stores, for example, a history of reception status of radio waves received by the mobile terminal 10 from the base station 20, a memory dial of a telephone directory, e-mail address data, and the like. The ROM 104 stores a program such as a communication protocol for performing communication. The antenna 106 receives information transmitted by the base station 20 as radio waves. The antenna 106 converts the received radio wave into a high-frequency signal. The antenna 106 is
The converted high-frequency signal is sent to radio section 110. Radio unit 1
10 is a high-frequency signal received from the antenna 106,
The signal is converted to an intermediate frequency band signal and demodulated. Radio unit 110
Sends the demodulated signal to the modulation / demodulation circuit unit 120 and the received electric field strength detection unit 122. The modulation / demodulation circuit unit 120 receives a signal demodulated from the radio unit 110. The modulation / demodulation circuit unit 120 decodes the demodulated signal. The decoded signal has audio information indicating audio, peripheral base station information, and the like. The modulation / demodulation circuit unit 120 sends the decoded signal to the control unit 130. The reception electric field strength detection unit 122 includes the radio unit 11
A signal of a predetermined band from 0 is received. The reception electric field strength detection unit 122 detects the electric field strength of the radio wave received by the antenna 106 from the received signal of the predetermined band. The reception electric field intensity detection unit 122 sends the detected electric field intensity to the control unit 130 as reception state information. The control section 130 receives various signals decoded from the modulation / demodulation circuit section 120. When the received signal is a signal including audio information, control unit 130 sends the signal to audio processing circuit 152. Further, control section 130 receives reception state information from reception field strength detection section 122. When receiving the reception state information from the reception field strength detection unit 122, the control unit 130 reads the current time information indicating the current time from the timer 132. The control unit 130 stores the received reception state information in the RAM 102 as the reception state history in association with the current time information. Further, the control unit 130 reads the history of the reception state from the RAM 102. The control unit 130 predicts the reception state based on the read history of the reception state. The control unit 130 determines that the predicted reception state is
When 0 is a level at which communication with the base station 20 cannot be performed, the control unit 130 notifies the user of the mobile terminal 10 that communication with the base station 20 cannot be performed. This notification method may include, for example, vibrating the vibrator 140, turning on the LED 142, ringing the ringer 144, or displaying on the display unit 146 a message indicating that communication with the base station 20 cannot be performed. It is. Further, the control unit 130 may change the method of notifying the user of the portable terminal 10 based on the contents of the communication performed by the portable terminal 10. For example, when the user of the mobile terminal 10 is making a call using the mobile terminal 10, it is difficult for the user of the mobile terminal 10 to see the display unit 146. The user of the mobile terminal 10 is notified. Therefore, by storing the history of the electric field strength of the radio wave detected by the reception field strength detection unit 122 in the RAM 102, the portable terminal 10 can predict the reception state of the radio wave. The audio processing circuit 152 receives a signal indicating audio information from the control unit 130 and converts the signal into digital audio information. The audio processing circuit 152 sends the converted digital audio information to the A / D converter 154. The A / D converter 154 is connected to the audio processing circuit 15
2 receives digital audio information. A / D converter 1
54 converts the received digital audio information into analog audio information. The A / D converter 154 sends the converted analog audio information to the speaker 156. The speaker 156 receives analog audio information from the A / D converter 154. The speaker 156 is
The received analog voice information is converted into voice. Thus, the mobile terminal 10 outputs the received audio information as audio. The microphone 158 acquires sound from outside. The microphone 158 converts the acquired voice into analog voice information. The microphone 158 sends the converted analog audio information to the A / D converter 162. A / D converter 162 receives analog audio information from microphone 158. A / D converter 162
Converts the received analog audio information into digital audio information. The A / D converter 162 sends the converted digital audio information to the audio processing circuit 152. The audio processing circuit 152 receives digital audio information from the A / D converter 162. The audio processing circuit 152 converts the received digital audio information into an audio signal. With the above operation, the portable terminal 10 realizes the function of a portable telephone. FIG. 5 shows the details of the radio section 110, the modulation circuit section 120, and the reception field strength detection section 122 shown in FIG. Radio section 110 includes antenna duplexer 112, radio reception section 114, and radio transmission section 116. The antenna 106 receives information transmitted from the base station 20 as radio waves. The antenna 106 converts a received radio wave into a signal. The antenna 106 sends the converted signal to the antenna duplexer 112. Antenna duplexer 112 sends the signal converted by antenna 106 to radio reception section 114. Radio receiving section 114 converts the signal received from antenna duplexer 112 from a high-frequency signal to an intermediate frequency band and demodulates it. The wireless reception unit 114 sends the extracted signal of the predetermined band to the modulation / demodulation circuit unit 120 and the reception electric field strength detection unit 122. The radio transmission unit 116 includes a modulation / demodulation circuit unit 120
Receives a predetermined signal from Radio transmitting section 116 converts the received predetermined signal into an intermediate frequency and performs modulation.
In addition, wireless transmission section 116 converts the modulated signal into a high-frequency signal. Convert to a signal in the transmittable frequency band.
Radio transmitting section 116 transmits the converted signal to antenna duplexer 112. The antenna duplexer 112 is a wireless transmission unit 1
16 receives a high frequency signal. Antenna duplexer 112
Sends the received high-frequency signal to the antenna 106.
The antenna 106 receives a high frequency signal. Antenna 1
06 converts the received high-frequency signal into a radio wave and transmits it. FIG. 6 shows an example of a bar mark used in a conventional portable terminal and indicating the reception status of radio waves of the portable terminal. As shown in FIG. 6, the conventional mobile terminal displays the radio wave reception status including “out of service” indicating a state in which communication cannot be performed.
Displayed in stages. FIGS. 7, 8 and 9 show examples of screens on the display unit 146 showing the status of radio waves being received by the portable terminal 10. FIG. The mobile terminal 10 uses an image displayed on the display unit 146 instead of the conventional display method shown in FIG.
The reception status of the radio wave of the mobile terminal 10 may be transmitted to the user. The image displayed by the display unit 146 is a sunny, cloudy, or rainy image as shown in FIGS.
0 can intuitively grasp the reception status of the radio wave of the mobile terminal 10. Further, the user may register an arbitrary image or symbol corresponding to the radio wave reception status. The display unit 146 may change the color of the background instead of the example of the images illustrated in FIGS. 7, 8, and 9. By notifying the user of the radio wave reception status of the mobile terminal 10 using the background color, the display unit 146 displays other information on the front and simultaneously notifies the user of the radio wave reception status of the mobile terminal 10. It can be performed. The display unit 146 can display information such as an image or an e-mail on the entire display unit 146 by not using a bar mark. FIG. 10 shows portable terminal 1 according to the present embodiment.
11 is a flowchart showing the operation of the "0" operation. Mobile terminal 10
Is turned on by the user of the mobile terminal 10 (step S101). Next, the mobile terminal 10 enters a standby state for receiving a call or an e-mail (step S104). Next, the mobile terminal 10 performs intermittent transmission and reception with the nearest base station 20 (step S10).
6). Next, the control unit 130 evaluates the current reception state based on the electric field strength of the radio wave received from the base station 20 (step S108). Next, the portable terminal 10 notifies the user of the current reception state using the vibrator 140, the LED 142, the ringer 144, or the display unit 146 (Step S110). Next, the control unit 130 controls the nearest base station 2
It is determined whether there is a change in the reception state of the radio wave from 0 (step S112). That is, the control unit 130 determines whether the mobile terminal 10 is moving. When there is a change in the reception state of the radio wave from the nearest base station 20, the control unit 13
When 0 is determined, the radio unit 110 acquires information on other base stations 20 in the vicinity from the nearest base station 20 (step S114). Next, the control unit 110 determines whether or not the destination to which the mobile terminal 10 moves is within the area of another base station 20 based on the information of the other base station 20 received by the wireless unit 110 (step S116). ). When the control unit 110 determines that the destination to which the mobile terminal 10 moves is not within the area of another base station 20, the process returns to step S114.
When the control unit 110 determines that the destination to which the mobile terminal 10 moves is within the area of another base station 20, the control unit 130
Predicts the reception state of the radio wave transmitted by the destination base station 20, and determines whether or not the predicted reception state of the radio wave is at a level that does not interfere with communication (step S118). When the control unit 130 determines that the predicted reception state of the radio wave is a level that supports communication, the mobile terminal 10 uses the vibrator 140, the LED 142, the ringer 144, or the display unit 146, That is, the user is notified that the reception state of the radio wave is degraded and communication may not be performed (step S120). When the control unit 130 determines that the predicted radio wave reception state is at a level that does not interfere with communication, the control unit 130 determines whether there is a call from the base station or a user's transmission operation ( Step S122).
When the control unit 130 determines that there is no call from the base station or the user's transmission operation, the process returns to step S104. When the control unit 130 determines that there is a call from the base station or a user's transmission operation, the control unit 130
Connects the line (step S124). Next, the radio unit 110 communicates with the server or the terminal 50 via the base station 20 and the local exchange 40 (step S1).
26). Next, the control unit 130 evaluates the current reception state based on the electric field strength of the radio wave received from the base station 20 (step S128). Next, control unit 130 determines whether or not the evaluated radio wave reception state is at a level that does not interfere with communication (step S130). When the control unit 130 determines that the evaluated reception state of the radio wave is a level that supports communication, the mobile terminal 10 sets the vibrator 14
0, LED 142, ringer 144, or display unit 146
To notify the user of the reception state of the radio wave from the base station 20 (step S132). Next, the control unit 130
Determines whether the mobile terminal 10 is continuing communication (step S134). If the control unit 130 determines that the mobile terminal 10 continues the communication, the process proceeds to step S1.
Return to 26. When the portable terminal 10 completes the communication, the control unit 1
If the determination is made by the control unit 30, the control unit 130 performs a process of terminating the communication (step S136). Next, the control unit 130
Determines whether the power of the mobile terminal 10 has been turned off (step S138). If the control unit 130 determines that the power of the mobile terminal 10 has not been turned off, the process proceeds to step S1.
Return to 04. When the power of the mobile terminal 10 is turned off, the control unit 1
If 30 is determined, the process ends. FIG. 11 shows a modification of the detail shown in FIG. In the present modification, the mobile terminal 10 further includes a BER detection unit 124. Radio receiving section 114 sends a predetermined signal to modulation / demodulation circuit section 120, received electric field strength detecting section 122, and BER detecting section 124. BER detector 124
Measures the BER (Bit Error Rate). The BER detection unit 124 measures the BER based on an information channel included in the communication physical channel transmitted by the base station 20 and a reference pattern generated by the mobile terminal 10. The BER detection unit 124 sends the measured BER value to the control unit 130. The control unit 130 receives the BER value from the BER detection unit 124. The control unit 130
The received BER value is associated with the current time information by R
It is stored in the AM 102. That is, the control unit 130
Is stored in the RAM 102. Control unit 130
Predicts a reception state based on a history of stored BER values. The received signal quality detecting section 124 replaces the error rate with the SIR (Signalto Interference Radar).
tio: desired signal to interference signal interference ratio).
In this case, the control unit 130 stores the SIR in the RAM 102 and predicts the reception state based on the history of the SIR. As described above, the present invention has been described using the embodiments. However, the technical scope of the present invention is not limited to the scope described in the above embodiments. Various changes or improvements can be added to the above embodiment. It should be noted that embodiments with such changes or improvements may be included in the technical scope of the present invention.
It is clear from the description of the claims. As is apparent from the above description, according to the present invention, the reception state is predicted based on the reception state of the radio wave,
A mobile terminal that notifies a user of an expected result can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram schematically showing a mobile terminal system according to the present embodiment. FIG. 2 is a diagram illustrating a relationship between a distance from a plurality of base stations, an electric field strength of a radio wave transmitted by the base station, and a deterioration state of the radio wave. FIG. 3 is a diagram showing an example of a signal format of a signal included in a radio wave received by the mobile terminal 10 according to the present embodiment. FIG. 4 is a diagram showing a configuration example of a mobile terminal 10 according to the present embodiment. FIG. 5 is a diagram showing details of a radio unit 110, a modulation circuit unit 120, and a received electric field strength detection unit 122. FIG. 6 is a diagram illustrating an example of a bar mark. FIG. 7 is a diagram showing an example of a screen displayed on a display unit 146, showing a state of a radio wave received by the mobile terminal 10. FIG. 8 is a diagram showing an example of a screen displayed on a display unit 146, showing a state of a radio wave received by the mobile terminal 10. FIG. 9 is a diagram illustrating an example of a screen displayed on a display unit 146, showing a state of a radio wave received by the mobile terminal 10. FIG. 10 is a flowchart showing an operation of the mobile terminal 10 according to the present embodiment. FIG. 11 is a diagram showing a modification of the details shown in FIG. 5; [Description of Signs] 10 Mobile terminal 20 Base station 30 Subscriber exchange 40 Gateway exchange 102 RAM 104 ROM 106 Antenna 110 Radio unit 120 Modulation / demodulation circuit unit 122 Received electric field strength detection unit 130 Control unit 132 Timer 140 Vibrator 142 LED 144 Ringer 146 Display unit 150 Audio processing unit 152 Audio processing circuit 154 D / A converter 156 Speaker 158 Microphone 162 A / D converter 170 Operation unit 172 Specific function key 174 Basic function key

Claims (1)

Claims 1. A portable terminal that communicates with another terminal via a base station, comprising: a receiving unit that receives a radio wave transmitted by the base station; and a receiving unit that receives the radio wave based on the radio wave. A reception state detection unit that detects a reception state of a reception state; a reception state storage unit that stores a history of the reception state; and a change in the reception state based on the reception state stored in the reception state storage unit. A mobile terminal, comprising: a reception state prediction unit; and a notification unit configured to notify a user of the mobile terminal of a result predicted by the reception state prediction unit.