JP2007202204A - Information terminal with incoming sound designation function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To freely set the incoming sound of an information terminal at a reception side from a transmission side. <P>SOLUTION: A call signal for calling an information terminal at a reception side is transmitted, and desired voice data associated with the call signal are transmitted. When receiving voice data associated with the call signal in addition to the call signal, the information terminal at the reception side reproduces the received voice data instead of an incoming sound preliminarily stored in the information terminal at the reception side. Thus, it is possible to acquire the incoming sound of the information terminal at the reception side as a desired voice by transmitting the voice data associated with the call signal from the information terminal at a transmission side. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technique for receiving a call signal and performing a called operation of an information terminal.

  In response to advances in semiconductor technology and telecommunications technology and market demands for convenience, so-called information terminals such as mobile phones, simple mobile phones, and portable personal computers have come to be widely used. .

  When receiving a call signal from a base station or the like, these information terminals notify the mobile phone of the arrival of the call signal in order to set the terminal in a communicable or callable state. Such notification is generally performed by a method using sound such as a so-called ringer sound or reproduction of previously registered audio data. Compared to the method of turning on the lamp, for example, the so-called ringtone method can reliably notify the mobile phone of the terminal even when the information terminal is in a bag or in a pocket of clothes. There is an advantage that can be.

  There is a technology in which a carrier of an information terminal registers a favorite melody in the information terminal as voice data in advance and, when receiving a call signal, notifies the incoming call by reproducing the registered voice data. (Japanese Patent Laid-Open No. 2000-134332, etc.). If such a technique is used, the carrier of the information terminal can always use a favorite melody as a ringtone.

  In Japanese Patent Laid-Open No. 11-32105, voice data is registered in advance for each sender, and when a call signal is received, information about the sender is detected and registered in association with the detected sender. A technique for reproducing audio data as a ring tone is disclosed. If such a technique is used, the carrier of the information terminal can identify the sender from the type of ringtone before responding to the incoming call.

  However, in these techniques, there is a problem that the sound data of the ringtone must be registered in advance in the information terminal on the receiving side, and the desired ringtone cannot be freely specified from the sender side. . Such a problem may occur not only in a portable information terminal but also in a fixed information terminal that is assumed to be used at an installation location.

  The present invention has been made to solve the above-described problems in the prior art, and enables a sender to freely designate a desired ringtone even when no voice data is registered in the information terminal on the receiving side. The purpose is to provide.

In order to solve at least a part of the problems described above, the information terminal of the present invention employs the following configuration. That is,
An information terminal that performs a called operation by receiving a ringing signal and playing ringtone data stored in advance,
Call signal receiving means for receiving the call signal and voice data associated with the call signal;
Call signal determination means for determining whether or not the voice data is associated with the received call signal;
The gist of the present invention is to provide data reproduction means for reproducing the received audio data in place of the ringtone data when the audio data is associated.

The called method of the information terminal of the present invention corresponding to the above information terminal is as follows:
A called method for an information terminal that receives a call signal and reproduces ring tone data stored in advance,
Receiving the call signal and voice data associated with the call signal;
Determining whether the voice data is associated with the received call signal;
When the voice data is associated, the gist is to play the received voice data instead of the ringtone data.

  In the information terminal or the called method of the information terminal, it is determined whether or not the voice data is associated with the received call signal, and if so, the received voice data is replaced with the ring tone data. Reproduce. Here, the call signal and the voice data are associated with each other, for example, the voice signal is transmitted after the call signal or the voice data is attached to the call signal. A state where some kind of relationship is recognized with the data.

  If the voice data is transmitted in association with the call signal in this way, the transmitted favorite voice data can be reproduced as a ring tone instead of the ring tone data stored in advance in the information terminal. Regarding the reproduction of the received audio data, the audio data may be temporarily stored in the information terminal and then reproduced or may be immediately reproduced in the order received without being accumulated.

  In such an information terminal, standard voice data is stored in advance, and when the call signal associated with the voice data is received, the received voice data and the stored standard voice data are The synthesized voice data may be synthesized by combining in a predetermined method, and the synthesized voice data may be reproduced as a ring tone.

  In this way, if standard voice data stored in advance on the information terminal is combined with the transmitted voice data and played as a ringtone, even if an unfamiliar ringtone is transmitted, Since it is reproduced together with the ring tone, it is preferable because the information terminal can easily recognize that the call signal has been received.

The present invention can also be understood as a line connection device for connecting a communication line between an information terminal on the transmission side and an information terminal on the reception side. Such a line connection apparatus of the present invention employs the following configuration. That is,
A line connection device for connecting a communication line between an information terminal on a transmission side and an information terminal on a reception side,
A call signal receiving means for receiving a call signal for calling the information terminal on the reception side from the information terminal on the transmission side, from the transmission side information terminal;
Voice data judging means for judging the presence or absence of voice data associated with the call signal;
If the associated voice data is present, voice data output means for outputting the voice data as a ring tone to the information terminal on the receiving side;
A communication line connection means for detecting that the information terminal that has received the voice data is set in a communicable state and connecting a communication line between the transmission side information terminal and the reception side information terminal; The gist is to provide.

  In such a line connection device, it is determined whether or not voice data is associated with the call signal received from the information terminal on the transmission side, and when the voice data is associated, the voice data is received as a ring tone. Output to the information terminal. When it is detected that the information terminal on the reception side has responded to the audio data output in this manner, a communication line is connected between the information terminal on the transmission side and the information terminal on the reception side.

  This is preferable because the audio data transmitted from the information terminal on the transmission side can be reproduced as a ring tone on the information terminal on the reception side.

  In such a line connection device, when a call signal and voice data are received from an information terminal on the transmission side, it may be determined that the voice data is associated with the call signal.

  If it is determined that the voice data received following the call signal is the voice data associated with the call signal, the voice data can be easily associated with the call signal, and in addition, the voice data associated with the call signal. Can be easily specified.

  In such a line connection device, at least one voice data is stored in advance, and in addition to the call signal, a voice data designation signal designating one voice data of the stored voice data is received, When the voice data designation signal is received in addition to the signal, it may be determined that the designated voice data is associated with the calling signal.

  In this way, it is possible to associate the call signal with the voice data without receiving voice data from the information terminal on the transmission side, and it is possible to quickly transmit the voice data to the information terminal on the reception side accordingly. This is preferable.

  Moreover, in this line connection apparatus, the following may be performed. That is, when standard voice data is stored in advance in association with the information terminal on the reception side and the voice data is associated with the call signal received from the information terminal on the transmission side, the voice data corresponding to the call signal The synthesized voice data may be synthesized by combining the standard voice data and the voice data by a predetermined method, and the obtained synthesized voice data may be transmitted to the information terminal on the receiving side as a ringing tone.

  If the synthesized voice data synthesized in this way is reproduced as a ring tone at the receiving information terminal, even if an unfamiliar ring tone is transmitted, it is reproduced together with the standard ring tone. This is preferable because it is easier to notice.

In order to more clearly describe the operation and effect of the present invention, embodiments of the present invention will be described in the following order.
A. Embodiment:
B. First embodiment:
B-1. Information terminal overview:
B-2. How line connections work:
B-3. Incoming operation of the first embodiment:
B-4. Modification of the first embodiment:
C. Second embodiment:
C-1. Incoming operation of the second embodiment:
C-2. Modification of the second embodiment:

A. Embodiment:
An embodiment of the present invention will be described with reference to FIG. FIG. 1 is an explanatory diagram conceptually illustrating an information system 50 including the information terminal 10. In FIG. 1, the information terminal 10 corresponds to the information terminal of the present invention. The information system 50 shown in FIG. 1 roughly includes a plurality of information terminals 10, a base station 20 that transmits and receives radio waves between the information terminals 10, and a known line network 30 to which the base station 20 is connected. It consists of and. The line network 30 has a configuration in which a plurality of digital exchanges are connected to each other by a large-capacity communication cable, and forms a single line network as a whole.

  When the information terminal 10a on the transmission side transmits a call signal on the reception side on the radio wave, the nearby base station 20a receives the signal and performs a predetermined conversion via the network 30, after which the base station 20b Is transmitted to. The base station 20b outputs the transmitted paging signal again as a radio wave to the information terminal 10b on the receiving side. When the information terminal 10b on the receiving side receives this call signal by the antenna 12, the information terminal 10b informs the user of the terminal of the reception and prompts the user to set it in a call-ready state, for example, by pressing a call button. The notification of signal reception is normally performed by sounding a predetermined ring tone from the speaker 14 built in the information terminal. When the receiving side information terminal is set in a state where communication is possible, a line is connected between the transmitting side information terminal 10a and the receiving side information terminal 10b. Can be sent and received.

  As will be described in detail later, the information terminal 10b of the present invention can receive voice data associated with the call signal in addition to the call signal, and has received voice data associated with the call signal? Depending on whether or not, the ringing method is different. The flowchart displayed inside the receiving side information terminal 10b in FIG. 1 conceptually shows the incoming call operation.

  The call signal emitted from the base station 20b is received by the receiving information terminal 10b via the antenna 12 (step S1). Next, the receiving side information terminal 10b determines whether or not voice data is associated with the received call signal (step S2). As will be described in detail later, the transmitting-side information terminal 10a can specify whether or not to associate voice data when a call signal is transmitted. When it is designated to associate the voice data, the voice data stored in advance is associated with the call signal and transmitted to the receiving side information terminal 10b. The voice data is stored, for example, in a built-in memory of the information terminal 10a on the transmission side or in a server connected to the network 30.

  If voice data is associated with the call signal, the received voice data is reproduced as a ring tone (step S3). On the other hand, when the voice data is not associated with the calling signal, the ring tone data registered in advance in the information terminal 10b on the receiving side is reproduced (step S4).

  In this way, if the transmitting-side information terminal 10a designates voice data and transmits a call signal, the voice data designated by the transmitting side regardless of whether or not the receiving-side information terminal has registered the voice data. Can be reproduced as a ringtone. Various aspects also exist in the embodiment of the present invention. Below, based on an Example, various aspects are demonstrated concretely.

B. First embodiment:
B-1. Information terminal overview:
FIG. 2 is an exploded view showing an outline of the structure of the information terminal 100 according to the present embodiment. As shown in the figure, the information terminal 100 includes a multilayer printed circuit board 130, a flexible printed circuit board 140, a liquid crystal display panel LCD 150, a switch panel 152, a speaker 154, a microphone 156, and a built-in circuit in the upper case 110 and the lower case 120. It has a structure in which components such as the antenna 160 are accommodated.

  On the printed circuit board 130, various IC chips such as a CPU 131, ROM 132, RAM 133, digital signal processor (DSP) 134, reception circuit 135, transmission circuit 136, crystal oscillator 137, and the like are mounted. A liquid crystal display panel 150, a switch panel 152, a speaker 154, and a microphone 156 are connected to the printed board 130 via a flexible board 140. Various information for operating the information terminal 100 is displayed on the liquid crystal display panel LCD 150, and the information terminal 100 can be operated by pressing each button provided on the switch panel 152. The internal antenna 160 and the external antenna 122 provided in the lower case 120 are connected from the back side of the printed circuit board 130. If the sound received from these antennas is reproduced by a small speaker 154 provided in the information terminal 100 or the sound picked up by the microphone 156 is transmitted, it can be used as a so-called mobile phone. Electric power for operating the information terminal 100 is supplied from a secondary battery 170 provided on the back surface of the lower case 120.

  FIG. 3 is a functional block diagram illustrating an outline of processing performed in the information terminal 100 according to the present embodiment. The information terminal 100 mainly includes a radio block 200 that mainly controls transmission and reception of radio waves, and a control block 250 that mainly controls conversion of data received by the radio block 200 and transmission data to the radio block 200. Has been. In the figure, an arrow indicated by a thick broken line indicates a signal flow when the information terminal 100 transmits a voice picked up by the microphone 156 as a radio wave, and an arrow indicated by a thick solid line is transmitted through the air. The flow of signals when the radio waves are reproduced from the speaker 154 as sound is shown. Below, the function of each part of the information terminal 100 is demonstrated according to the flow of a signal.

  First, a case where the sound picked up by the microphone 156 is transmitted as a radio wave will be described. When the microphone 156 picks up the sound and generates an analog voltage waveform, the analog waveform is supplied to the CODEC 254. The CODEC 254 is a kind of signal converter that converts an analog signal into a digital signal or converts a digital signal into an analog signal. Since the conversion of an analog signal into a digital signal is called “CODE” and the conversion of a digital signal back into an analog signal is called “DECODE”, the two are collectively called “CODEC”. The CODEC 254 converts the received analog voltage waveform into a digital signal, and then supplies the digital signal to the compression / decompression unit 252. The compression / decompression unit 252 performs digital signal compression processing or decompression processing. That is, in order to enable rapid transmission / reception of signals, transmission is performed after reducing the capacity of the signals once, and after reception, the compressed signals are decompressed and returned to normal signals. In this way, the capacity of data to be transmitted / received can be reduced, so that transmission / reception can be performed quickly. The compression / decompression process is quickly executed by using a dedicated IC chip called DSP 134.

  The compressed audio signal is frequency-modulated by the modulation unit 214 and then supplied to the transmission mixer unit 216. The transmission mixer unit 216 synthesizes the frequency-modulated audio signal and the carrier wave component on which the audio signal is carried to generate a synthesized signal. The carrier wave component is supplied from the frequency generation unit 220 to the transmission mixer unit 216. Next, the combined signal is amplified by the power amplifying unit 218 and then transmitted as radio waves from the external antenna 122 via the antenna sharing unit 208 to the air. Since the external antenna 122 is used as an antenna for receiving radio waves, an antenna sharing unit 208 is provided so that radio waves to be transmitted and received radio waves do not interfere with each other.

  Next, a case where the received radio wave is reproduced by the speaker 154 will be described. The radio wave transmitted through the air is detected by the built-in antenna 160 and the external antenna 122. Among these, the radio wave detected by the built-in antenna 160 is supplied to the receiving unit 206 and separated into a carrier wave component and a signal component. The radio wave detected by the external antenna 122 is supplied to the receiving unit 210 via the antenna sharing unit 208, where it is separated into a carrier wave component and a signal component. When the receiving units 206 and 210 separate the signal components from the received radio waves, the receiving units 206 and 210 separate the signal components while referring to the carrier wave component signal supplied from the frequency generation unit 220. Since the separated signal component is frequency-modulated at the time of transmission, it is supplied to the demodulator 212 for demodulation. The demodulator compares the sensitivity of the signal from the external antenna 122 with the sensitivity of the signal from the built-in antenna 160, and demodulates the signal component having the higher sensitivity. Thus, in order to always process the signal component having the higher sensitivity, the sensitivity of the radio wave can be maintained well. The demodulated signal is sent to the compression / decompression unit 252 and decompressed. The audio signal thus obtained is a digital signal, converted into an analog signal by the CODEC 254, and reproduced as audio from the speaker 154.

  The CPU 131 controls processing performed by the CPU 131 while exchanging data with the compression / decompression unit 252 and the CODEC 254. Connected to the CPU 131 are a ROM 132 that stores programs for performing various controls and data necessary for the control, a RAM 133 that temporarily stores data, an LCD 150 that displays various information, a keyboard 256, and the like. By operating the keyboard 256 while viewing the display on the LCD 150, it is possible to instruct the CPU 131 to perform processing and to set numerical values.

B-2. How line connections work:
An outline of a mechanism for connecting a communication line between the above-described portable information terminals will be described. FIG. 4 is an explanatory diagram conceptually showing a state in which a circuit network is formed by a plurality of digital exchanges. Hereinafter, an outline of a mechanism for connecting a communication line between portable information terminals will be described with reference to FIG.

  When a call signal is transmitted from the information terminal 100a on the transmission side by specifying the number of the information terminal 100b on the reception side, the call signal is received by the nearby base station 102. In the following description, when the transmission side and the reception side are particularly distinguished, such as “100a” for the mobile information terminal on the transmission side and “100b” for the mobile information terminal on the reception side, “a” is attached, and “b” is attached to the receiving side for display. Further, for example, the expression “information terminal 100” indicates that the transmitting side and the receiving side are not particularly distinguished.

  As described above, since the information terminal 100 and the base station 102 communicate with each other wirelessly, there is a limit to the area in which one base station can communicate. Therefore, a plurality of base stations are provided, and the paging signal transmitted from the information terminal 100a is received by the nearby base station 102a. The received paging signal is once transferred from the base station 102 a to the mobile communication switching center (MSC) 104.

  As shown in FIG. 4, a plurality of base stations 102 are connected to the MSC 104, and in which communication area of the base station the information terminal 100 is located is centrally managed by a dedicated database. How the database manages the position information of the information terminal 100 will be described later. According to such a database, the MSC 104 supplies a paging signal to the receiving base station 102b, and the base station 102b outputs the received paging signal toward the receiving information terminal 100b.

  When the information terminal 100b on the receiving side belongs to the MSC 104b different from the MSC 104a on the transmitting side, the MSC 104 transfers the call signal to the relay mobile communication switching center (TMSC) 106. As shown in FIG. 4, a plurality of MSCs 104 are connected to the TMSC 106, and the calling signal is transferred via the TMSC 106 to the MSC 104b to which the receiving information terminal 100b belongs. When both the MSC 104 on the transmitting side and the MSC 104b on the receiving side are compatible, it is also possible to transfer directly between the MSCs 104 without passing through the TMSC 106. In addition, when the information terminal 100a on the transmission side and the information terminal 100b on the reception side exist across the TMSC 106, the call signal is transferred between the TMSCs 106 and is transmitted from the MSC 104b on the reception side via the base station 102b. Are transmitted to the information terminal 100b on the receiving side.

  Thus, when a call signal is transmitted to the information terminal 100b on the receiving side, the information terminal 100b notifies the incoming call by a method such as playing a ringtone. In response to this, when the information terminal 100b on the receiving side is set in a communicable state by, for example, pressing a “call button”, the communication between the information terminal 100a on the transmitting side and the information terminal 100b on the receiving side is performed. After that, the communication line is connected, and thereafter, the connected communication line is occupied until one of the information terminals 100 disconnects the line.

  Next, a description will be given of the mechanism by which location information indicating which base station is within the communicable area of the information terminal 100 is registered in the dedicated server. When the information terminal 100 is turned on, it periodically measures the strength of the control signal transmitted from the base station 102 and selects the base station having the strongest signal strength among the usable frequencies. , Register own position information in the base station. The location information registered in the base station in this way is transferred to a dedicated server and managed centrally. Even if the information terminal 100 moves, even if the information terminal 100 moves away from the selected base station, the information terminal 100 can periodically measure the signal strength and always switch the base station to the base station with the strongest signal strength. Such location information of the information terminal is transferred from the base station to a dedicated server and managed centrally. By searching for such position information, it is possible to detect in which base station the callable area of the receiving-side information terminal 100b exists.

  The TMSC 106 is connected to a public telephone network (PSTN) 110 via a gateway mobile switching center (GMSC) 108. Some TMSCs 106 have a function capable of being directly connected to the PSTN 110 without going through the GMSC 108. When a call signal is transmitted from the information terminal 100a by designating a call number of the installation type information terminal 112 or the like connected to the PSTN 110, it is installed via the base station 102, the MSC 104, the TMSC 106, the GMSC 108, and the PSTN 110. A call signal is transferred to the type information terminal 112. In response to this, if the information terminal 112 is set in a communicable state, for example, a “call button” is pressed, a communication line can be connected between the information terminal 100a and the stationary information terminal 112. .

  Further, as shown in FIG. 4, a conversion server 114 is also connected to the TMSC 106. The conversion server 114 converts the signal received from the TMSC 106 into data of a protocol widely used for information transmission such as TCP / IP. In FIG. 4, the lines between the conversion server 114, the Internet 116, and the mail server 118 are indicated by broken lines, which schematically shows that the TCP / IP protocol is used during this period. By converting the protocol by the conversion server 114 as described above, the TMSC 106 can exchange data with various servers on the Internet 116 via the conversion server 114. Accordingly, various data such as image data and audio data can be downloaded from the Internet to the information terminal 100, and conversely, various data can be output from the information terminal 100 side to a server on the Internet. Note that a mail server 118 is also connected to the conversion server 114, and the mail server 118 stores various data output from the information terminal 100.

B-3. Incoming operation of the first embodiment:
In the information terminal of the first embodiment, the call signal can be transmitted by designating voice data from the information terminal on the transmission side. The information terminal on the receiving side reproduces the transmitted voice data as a ring tone. In this way, even if no voice data is registered in the information terminal on the reception side, it is possible to freely specify a desired ringtone from the transmission side. In the following, taking the above-described portable information terminal as an example, processing performed in each of the transmitting-side portable information terminal, each switch constituting the circuit network, and the receiving-side portable information terminal in the incoming operation of the first embodiment explain.

  FIG. 5 is a flowchart showing the flow of audio data transmission processing performed in the information terminal 100a on the transmission side according to the first embodiment. Such processing is executed by the CPU 131 when a call signal is transmitted from the information terminal 100a on the transmission side to the information terminal 100b on the reception side.

  When the process is started, it is first determined whether or not the ring tone designating function is to be used (step S100). The setting as to whether or not to use the ring tone designating function is registered in advance in the RAM 133, so it is determined whether or not the ring tone designating function is to be used with reference to this setting.

  When the ring tone designating function is used (step S100: yes), it is confirmed whether or not the voice data to be transmitted as the ring tone is changed from the voice data set as a standard (step S102). That is, since a plurality of audio data is stored in the RAM 133, and one of the audio data is set as standard data to be used as a ring tone, the standard audio data is received. Confirm whether or not to send as sound. Specific confirmation is performed as follows. First, the CPU 131 displays a confirmation message on the LCD 150 as to whether or not to use audio data set as a standard. The user of the information terminal selects either “YES” or “NO” by operating the keyboard 256 and moving the cursor on the LCD 150 while watching the display on the LCD 150. The CPU 131 can confirm whether or not to use the audio data set as the standard by detecting which one is selected.

  When using non-standard audio data, processing for setting the audio data to be used is performed as follows (step S104). First, a list of audio data stored in the RAM 133 is displayed on the LCD 150. The carrier of the information terminal moves the cursor and selects one audio data from this list. The selected voice data is set as voice data to be transmitted as a ring tone.

  If it is confirmed in step S102 that the standard voice data is used, the call signal setting process is performed without performing the voice data setting process (step S104) (step S106). The paging signal setting process is a process of setting a paging signal for specifying a receiving side information terminal to which a communication line is to be connected. To set the calling signal, the information terminal carrier operates the keyboard 256 to input the telephone number of the receiving information terminal, the registration number or the abbreviated number registered in advance in association with the receiving information terminal. By doing.

  When the call signal is set in this way, the already set voice data is transmitted along with the call signal from the external antenna 122 (see FIGS. 2 and 3) on the radio wave (step S108). The voice data may be transmitted following the call signal or may be transmitted as data attached to the call signal. When voice data is associated with the call signal, it is transmitted in a state in which it is written in the call signal.

  On the other hand, when it is first selected not to use the ring tone designating function (step S100: no), after setting the calling signal (step S110), the set calling signal is transmitted (step S112). In this case, audio data is not transmitted.

  The radio wave transmitted from the information terminal as described above is received by a nearby base station, and then a predetermined process is performed to establish a communication line with the information terminal on the receiving side. The processing performed on the base station side will be described later. The information terminal on the transmission side is waiting for the communication line to be connected (step S114), and after confirming that the line is connected, the voice data transmission process is terminated. Thereafter, the communication line can be used exclusively until it is disconnected, and communication with the information terminal on the receiving side can be performed.

  When the base station receives the calling signal, the base station performs processing for connecting a communication line to the information terminal on the receiving side. Such processing is performed not only by the base station that has received the paging signal but also by the cooperation of various mobile communication exchanges that make up the network shown in FIG. The process for connecting the communication line depends on whether or not the ring tone designating function is used, but the process when the ring tone designating function is not used is the same as the normal process. In the following, description is omitted, and the case where the ring tone designating function is used will be described.

  FIG. 6 is a flowchart showing a flow of processing in which the base station receives a call signal and voice data associated with the call signal and connects a communication line to the information terminal on the receiving side. Hereinafter, processing for connecting a communication line when using the ring tone designating function will be described with reference to FIG.

  When the base station 102a (see FIG. 4) receives the radio wave from the information terminal 100a on the transmission side, the base station 102a transfers the received signal to the MSC 104a (see FIG. 4) connected by a communication cable. The data is separated (step S200). Whether or not voice data is associated with the call signal can be determined by analyzing the call signal. Of course, if transmission is performed in a state where the call signal and voice data are separated using a method such as changing the transmission frequency or changing the transmission timing, the process of separating these is unnecessary or extremely simple. Can be.

  Next, the MSC 104a transfers the separated voice data to the mail server 118 (see FIG. 4) (step S202). That is, as described above, the voice data is sent to the conversion server 114 via the TMSC 106, converted into TCP / IP protocol data by the conversion server 114, and then transmitted from the conversion server 114 to the mail server 118 on the Internet 116. .

  When the voice data is transferred to the mail server 118, the MSC 104a then searches for the base station 102b to which the receiving information terminal belongs (step S204). That is, as described above, the information terminal 100 regularly registers its own location information in the base station 102, and a database of location information of all information terminals is centrally managed by a dedicated server. In the process of step S204, the base station 102b having the receiving side information terminal in the communication area is detected by searching the database.

  The calling signal is transmitted from the MSC 104 and the voice data is transmitted from the mail server 118 to the receiving base station 102b detected in this manner (step S206). When the base station 102b receives the calling signal and the voice data, the base station 102b transmits them on radio waves (step S208). The voice data may be transmitted following the call signal or may be transmitted as data attached to the call signal. In addition, voice data may be transmitted separately from the call signal as data associated with the call signal. By analyzing the received call signal, the presence of these voice data can be detected.

  When the radio wave is transmitted as described above, the base station waits until the receiving information terminal receives the radio wave and responds thereto (step S210). When the receiving side information terminal detects a response, the base station A communication line is connected between the information terminal and the receiving information terminal (step S212). That is, one of the communication lines from the transmission-side base station 102a to the reception-side base station 102b is secured for communication between the transmission-side information terminal 100a and the reception-side information terminal 100b.

  Next, processing performed by the information terminal that has received the call signal and voice data from the base station 102b will be described. FIG. 7 is a flowchart showing the flow of such processing. Hereinafter, a description will be given with reference to FIG.

  The information terminal on the receiving side first receives a call signal (step S300). Specifically, as described above with reference to FIG. 3, the call signal is received by either the external antenna 122 or the built-in antenna 160, demodulated / decompressed, and sent to the CPU 131.

  The CPU 131 interprets the received call signal and determines whether voice data is associated (step S302). If the voice data is associated (step S302: yes), the voice data is received following the call signal (step S304), and the received voice data is set to be used as a ring tone (step S306). . If the audio data is not associated (step S302: no), these processes are not performed.

  Next, the audio data set as the ring tone is reproduced and output from the speaker 154 (step S308). When voice data is associated with the call signal (step S302: yes), the received voice data is reproduced as a ring tone and output from the speaker 154. If the audio data is not associated (step S302: no), standard audio data set in advance as a ring tone is reproduced.

  When the ring tone is output from the speaker 154, the carrier of the information terminal on the receiving side notices that the information terminal has received the call signal, and performs a predetermined response operation such as pressing a call button, for example. The CPU 131 reproduces the ringtone repeatedly until it detects this response operation. When the forward operation is detected in this manner (step S310), a response that the response operation has been performed is returned to the base station 102b (step S312), and the call signal response process shown in FIG. 7 is terminated.

  When the base station 102b receives a reply from the information terminal on the receiving side, the communication line is connected between the information terminal on the transmitting side and the information terminal on the receiving side as described above. Dedicated.

  In the incoming call operation of the first embodiment described above, the ringtone on the receiving side can be designated as the preferred ringtone from the sender side. Further, if the sender's name is transmitted as the ringtone, the sender's name is output from the speaker 154 of the receiver's information terminal, so that it is possible to easily identify the other party who transmitted the call signal. it can.

B-4. Modification of the first embodiment:
There are various modifications to the incoming call operation of the first embodiment described above. Hereinafter, each modified example will be briefly described.

  In the first embodiment described above, the voice data associated with the call signal has been described as being transmitted from the base station 102b following the call signal, but may be as follows. That is, in the incoming operation of the first modification, when the receiving information terminal 100b receives the call signal, it analyzes the call signal to determine whether or not the voice data is related, and is related. Requests the base station 102b to transmit audio data. The base station 102b may transmit the voice data to the information terminal 100b on the receiving side after confirming the voice data transmission request.

  Thus, if it is determined that the transmission request is transmitted from the information terminal 100b on the receiving side and then the audio data is transmitted, the receiving information terminal can reliably receive the audio data. It is.

  Further, in the incoming call operation of the first embodiment described above, the voice data is stored in the information terminal 100a on the transmission side and the voice data is transmitted from the information terminal 100a on the transmission side. Anyway. That is, in the incoming call operation of the second modified example, the voice data is stored in advance in a device other than the information terminal such as the mail server 118 or a switching station constituting the circuit network, and the voice data is transmitted together with the call signal from the information terminal. Instead of transmitting the call signal, the call signal may be transmitted by designating one stored voice data.

  In this way, it is only necessary to specify the voice data and transmit only the call signal from the information terminal 100a on the transmission side, and it is not necessary to transmit the voice data itself. In addition, although there is a limit to the type of audio data that can be stored in the information terminal on the transmission side, if it is stored in the mail server 118 or a server connected to the line network, it is stored in the information terminal. It is possible to store very different types of audio data as compared with the case where the data is stored. Therefore, in the second modification, it is preferable because the call signal can be transmitted by designating favorite voice data from among these many voice data.

C. Second embodiment:
In the incoming call operation of the first embodiment described above, the ring tone designated by the transmitting information terminal is output as it is from the speaker 154 of the receiving information terminal. On the other hand, in the incoming call operation of the second embodiment described below, the ringtone specified on the transmission side and the ringtone set on the reception side are combined and output from the speaker 154 on the reception side. The parts to be done are very different. Hereinafter, the incoming operation of the second embodiment will be described focusing on the differences from the incoming operation of the first embodiment.

C-1. Incoming operation of the second embodiment:
Similarly to the first embodiment, the incoming operation of the second embodiment is also realized by performing predetermined processing in each of the information terminal on the transmission side, each switch constituting the circuit network, and the information terminal on the reception side. However, since the processing at the transmitting information terminal and the processing at the network side are the same as the incoming operation of the first embodiment, description thereof will be omitted, and processing performed at the receiving information terminal will be described.

  FIG. 8 is a flowchart showing the flow of processing (call signal response processing) performed at the information terminal on the receiving side in the incoming operation of the second embodiment. Hereinafter, description will be made according to the flowchart of FIG.

  Also in the incoming operation of the second embodiment, the information terminal on the receiving side first receives a call signal (step S400). That is, as in the case of the first embodiment, the call signal is received by either the external antenna 122 or the built-in antenna 160, demodulated / decompressed, and sent to the CPU 131.

  The CPU 131 interprets the received call signal and determines whether or not voice data is associated (step S402). If the voice data is associated, the CPU 131 receives the voice data (step S404).

  In the incoming call operation of the second embodiment, after receiving voice data, the synthesized voice data is generated by combining the voice data preset in the receiving information terminal and the received voice data by a predetermined method. (Step S406). For example, it is assumed that the transmitted voice data is voice data “Yamada.”, And the preset voice data is voice data “Mr. Saito”. The two voice data are combined to synthesize voice data “Mr. Saito, Yamada.” Of course, the voice data need not be data relating to the name, and may be a melody. For example, if the voice data “Yamada.” Has been sent and the preset voice data is a melody, the voice data with the name “Yamada.” Is synthesized after the melody. Will be.

  After the synthesized voice data is synthesized, the voice data is set to be used as a ringtone (step S408). Of course, if it is determined in step S402 that the audio data is not associated, these processes are skipped.

  Next, the audio data set as the ringtone is reproduced and output from the speaker 154 (step S410). When voice data is associated with the calling signal (step S402: yes), the synthesized voice data is played as a ring tone, and a message such as “Mr. Saito, Yamada” flows from the speaker 154. become. When the voice data is not associated (step S402: no), standard voice data set in advance as a ring tone is reproduced.

  When the ring tone is output from the speaker 154, the carrier of the information terminal on the receiving side notices that the information terminal has received the call signal and performs a predetermined response operation. The CPU 131 reproduces the ringtone repeatedly until it detects this response operation. When a response operation is detected in this way (step S412), a response that the response operation has been performed is returned to the base station 102b (step S414), and the call signal response process of the second embodiment shown in FIG. 8 is terminated.

  When a reply from the information terminal on the reception side is received by the base station 102b, a communication line is connected between the information terminal on the transmission side and the information terminal on the reception side.

  In the incoming call operation of the second embodiment described above, the ringtone designated on the transmission side and the ringtone set on the reception side are combined and output from the speaker 154. For this reason, the carrier of the information terminal on the receiving side can easily recognize that the portable terminal has received the call signal.

C-2. Modification of the second embodiment:
In the above-described incoming operation of the second embodiment, the voice data set on the receiving side has been described as being stored in the information terminal on the receiving side, but may be as follows. In other words, the voice data set on the receiving side is stored in advance in a device other than the information terminal, such as a mail server 118 or an exchange station constituting a circuit network. When voice data is transmitted in association with the call signal from the transmission side, the voice server 118 synthesizes the transmitted voice data with preset voice data and calls the synthesized voice data. The information is transmitted to the receiving information terminal in association with the signal.

  By doing so, it is not necessary to store audio data in the information terminal 100b on the receiving side, which is preferable because it is possible to save memory. Note that the synthesis of the voice data is not limited to the mail server 118, and may be synthesized, for example, inside the exchange. Further, as described in the modification of the first embodiment, voice data designated on the transmission side may also be stored on the mail server 118.

  Although various embodiments have been described above, the present invention is not limited to all the embodiments described above, and can be implemented in various modes without departing from the scope of the invention.

  For example, in the various embodiments described above, the information terminal has been described as being a mobile phone. However, the present invention is not limited to this, and the present invention can be used in, for example, a portable personal computer or an installed place. The present invention can be similarly applied to information terminals and the like.

It is explanatory drawing which illustrates the information system containing the information terminal of this invention. It is explanatory drawing which shows notionally the structure of an information terminal. It is a functional block diagram which shows notionally the function of an information terminal. It is explanatory drawing which shows the structure in which a communication line is connected between information terminals. It is a flowchart which shows the flow of the audio | voice data transmission process in the incoming call operation of 1st Example. It is a flowchart which shows the flow of the communication line connection process in the incoming call operation of 1st Example. It is a flowchart which shows the flow of the call signal response process in the incoming call operation of 1st Example. It is a flowchart which shows the flow of the paging signal response process in the incoming call operation of the second embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Portable information terminal 12 ... Antenna 14 ... Speaker 20 ... Base station 30 ... Circuit network 50 ... Information system 100 ... Information terminal 102 ... Base station 104 ... MSC
106 ... TMSC
108 ... GMSC
110 ... PSTN
DESCRIPTION OF SYMBOLS 110 ... Upper case 112 ... Information terminal 112 ... Installation type information terminal 114 ... Conversion server 116 ... Internet 118 ... Mail server 120 ... Lower case 122 ... External antenna 130 ... Printed circuit board 131 ... CPU
132 ... ROM
133 ... RAM
134 ... DSP
135: Reception circuit 136: Transmission circuit 137: Crystal oscillator 140 ... Flexible substrate 150 ... Liquid crystal display panel LCD
DESCRIPTION OF SYMBOLS 152 ... Switch panel 154 ... Speaker 156 ... Microphone 160 ... Built-in antenna 170 ... Secondary battery 200 ... Wireless block 206 ... Reception part 208 ... Antenna common part 210 ... Reception part 212 ... Demodulation part 214 ... Modulation part 216 ... Transmission mixer part 218 ... Power amplifier 220 ... Frequency generator 250 ... Control block 252 ... Decompressor 254 ... CODEC
256 ... Keyboard

Claims (7)

An information terminal that performs a called operation by receiving a ringing signal and playing ringtone data stored in advance,
Call signal receiving means for receiving the call signal and voice data associated with the call signal;
Call signal determination means for determining whether or not the voice data is associated with the received call signal;
An information terminal comprising: data reproducing means for reproducing the received audio data instead of the ringtone data when the audio data is associated. An information terminal according to claim 1, wherein
Standard voice data storage means for storing standard voice data in advance;
Voice data synthesizing means for synthesizing synthesized voice data by combining the received voice data and the standard voice data in a predetermined method when the voice data is associated with the call signal;
The data reproduction means is an information terminal which is means for reproducing the synthesized voice data instead of the ringtone data when the synthesized voice data is synthesized. A line connection device for connecting a communication line between an information terminal on a transmission side and an information terminal on a reception side,
A call signal receiving means for receiving a call signal for calling the information terminal on the reception side from the information terminal on the transmission side, from the transmission side information terminal;
Voice data judging means for judging the presence or absence of voice data associated with the call signal;
If the associated voice data is present, voice data output means for outputting the voice data as a ring tone to the information terminal on the receiving side;
A communication line connection means for detecting that the information terminal that has received the voice data is set in a communicable state and connecting a communication line between the transmission side information terminal and the reception side information terminal; Line connection device provided. The line connection device according to claim 3, wherein
The call signal receiving means is means capable of receiving the voice data in addition to the call signal,
The line connection apparatus, wherein the voice data determination means determines that the voice data is associated with the call signal when the voice data is received together with the call signal. The line connection device according to claim 3, wherein
Audio data recording means for recording at least one audio data registered in advance;
The call signal receiving means is a means capable of receiving a voice data designation signal for designating one voice data of the stored voice data in addition to the call signal,
The line connection apparatus, wherein the voice data judging means judges the designated one voice data as voice data associated with the call signal when the voice data designation signal is received together with the call signal. The line connection device according to claim 3, wherein
Standard voice data storage means for storing standard voice data in association with the receiving information terminal;
Voice data synthesizing means for synthesizing synthesized voice data by combining the standard voice data corresponding to the call signal and the voice data in a predetermined method when voice data is associated with the call signal; As well as
The line connection apparatus, wherein the voice data output means is means for outputting the synthesized voice data instead of the voice data. A called method for an information terminal that receives a call signal and reproduces ring tone data stored in advance,
Receiving the call signal and voice data associated with the call signal;
Determining whether the voice data is associated with the received call signal;
A called method of an information terminal for reproducing the received voice data instead of the ringtone data when the voice data is associated.

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