JP2008035568A - COMMUNICATION NETWORK SWITCHING DEVICE, COMMUNICATION NETWORK NOTIFICATION METHOD, COMMUNICATION NETWORK NOTICE PROGRAM, AND COMPUTER-READABLE RECORDING MEDIUM CONTAINING THE PROGRAM - Google Patents

Abstract

To notify a user of a communication network to be connected.
A connection means provided between a plurality of communication networks and a telephone, for connecting the telephone to any one of the plurality of communication networks, and a reception means (S21) for receiving a transmission number transmitted by the telephone; Storage means for preliminarily storing a correspondence table for defining correspondence between the outgoing signal and the communication network, and determination means for searching the correspondence table using the received outgoing signal and determining the communication network to which the telephone is connected (S22) ), A voice message output means (S25, S31, S37) for outputting a voice message to the terminal, and a voice message for notifying a communication network to be connected in response to reception of the calling number by the receiving means. And a control means for outputting to the means.
[Selection] Figure 4

Description

  The present invention relates to a communication network switching device, a communication network notification method, a communication network notification program, and a computer-readable recording medium recording the program, and in particular, a communication network switching device provided between a plurality of communication networks and terminals. The present invention relates to a communication network notification method, a communication network notification program executed by such a communication network switching device, and a computer-readable recording medium storing the program.

  In recent years, IP (Internet Protocol) telephone connection services are being started. An IP phone uses a digital line as a communication network, and can be connected to a telephone of the other party via the Internet for conversation. As the digital line, an asymmetric digital subscriber line (ADSL) using the same line (communication medium) as a conventional subscriber line (PSTN: Public Switched Telephone Network) is used. There are many.

  The handset used as the interface with the user in the IP phone is the same handset as that used in the PSTN-based phone (hereinafter referred to as “analog phone”). For this reason, the handset is connected to a communication network switching device (also referred to as IAD (Integrated Access Device)), and the communication network switching device switches the communication network to either PSTN or ADSL. When a user makes a call, the communication network switching device normally selects ADSL as the communication network and causes the handset to function as an IP telephone. However, when communication is impossible due to some trouble in ADSL, the communication network is switched to PSTN for transmission. Make the handset function as an analog telephone.

Prior art document information related to the invention of this application includes the following.
Hideki Ito, Shoichi Hasegawa, “Overview of BB Phone”, “Telecommunications”, published by Rickte Telecom Co., Ltd., June 2002, p. 22-25

  However, in the communication network switching device described above, when communication cannot be performed using ADSL, the communication network is automatically switched to PSTN, so that the user cannot know that the communication network has been switched to PSTN. For this reason, contrary to the will of the user who believes that the communication is performed by the IP telephone, the communication is actually performed by the analog telephone. If the communication network is switched to PSTN against this user's will, there may be a disadvantage to the user. Usually, IP telephones and analog telephones have different companies that provide services, so communication charges also differ. If the analog telephone communication fee is higher than the IP telephone communication fee, the user recognizes that the communication network will be switched to PSTN against the will of the user who believes that the IP telephone is communicating. A communication fee for analog telephones higher than that for IP telephones must be paid.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a communication network switching device, a communication network notification method, and a method thereof capable of notifying a user of a connected communication network. A communication network notification program for realizing the present invention and a computer-readable recording medium on which the program is recorded are provided.

  In order to achieve the above object, according to one aspect of the present invention, a communication network switching device is provided between a plurality of communication networks and a terminal, and is a connection for connecting the terminal to one of the plurality of communication networks. Means, receiving means for receiving a transmission number transmitted by the terminal, storage means for preliminarily storing a correspondence table defining correspondence between the transmission signal and the communication network, and searching the correspondence table using the received transmission signal. Determining means for determining a communication network to which the terminal is to be connected, voice message output means for outputting a voice message to the terminal, and for notifying the communication network to be connected in response to reception of the calling number by the receiving means. Control means for causing the voice message output means to output a voice message.

  Preferably, the communication state detecting means for detecting whether or not each of the plurality of communication networks is connected and the communication network to be connected when the communication network determined by the determining means is detected as being inaccessible by the communication state detecting means Communication network switching means for switching from the determined communication network to another connectable communication network.

  Preferably, the control means, when switched to another communication network by the communication network switching means, sends a voice message for confirming whether or not the connection with the other communication network is permitted to the voice message output means. Further, the connection means is connected to another communication network on condition that an allowance signal is input.

  Preferably, the voice message is a compressed digital signal, and the voice message output means includes storage means for storing the voice message in the form of an IP packet.

  According to another aspect of the present invention, a communication network notification method is provided between a plurality of communication networks and a terminal, a connection means for connecting the terminal to any one of the plurality of communication networks, a transmission signal, and communication A communication network notification method executed by a communication network switching device having storage means for preliminarily storing a correspondence table defining correspondence with a network, the step of receiving a transmission number transmitted by a terminal, and a received transmission Searching the correspondence table using a signal, determining a communication network to which the terminal is to be connected, and receiving a voice message for notifying the communication network to be connected to the terminal in response to reception of the calling number in the reception step Outputting.

  According to another aspect of the present invention, a communication network notification program is provided between a plurality of communication networks and a terminal, a connection means for connecting the terminal to any one of the plurality of communication networks, a transmission signal, and a communication A computer-readable communication network notification program executed by a communication network switching device having storage means for preliminarily storing a correspondence table defining correspondence with a network, and receiving a transmission number transmitted by a terminal; A step of searching the correspondence table using the received transmission signal to determine a communication network to which the terminal is connected, and a voice for notifying the communication network to be connected in response to reception of the transmission number in the reception step And causing the communication network switching device to execute a step of outputting a message to the terminal.

  According to the present invention, a correspondence table is searched using a transmission number transmitted by a terminal, a communication network to which the terminal is to be connected is determined, and a voice message for notifying the communication network to be connected is output to the terminal. . For this reason, if the user of a terminal inputs a transmission number, he can know the communication network to be connected by voice. As a result, it is possible to provide a communication network switching device capable of notifying the user of a communication network to be connected when the user inputs a transmission signal.

  In addition, when the connection possibility of each of the plurality of communication networks is detected and the determined communication network is detected as being inaccessible, the communication network to be connected is changed from the determined communication network to another connectable communication network. Switched. Then, a voice message for informing other switched communication networks that have been switched is output to the terminal. For this reason, since the user can know the switched communication network by voice, the connection can be interrupted when the user does not desire the connection in the communication network. As a result, it is possible to prevent a communication network unintended by the user from being connected.

  In addition, when switched to another communication network, a voice message for confirming whether or not to allow connection with another communication network is further output, and the terminal is provided on the condition that an allowance signal is input. Are connected to other communication networks. For this reason, since the communication network is connected after the user's intention is confirmed, the user can be surely recognized that the communication network has been switched.

  Further, since the voice message is a compressed digital signal and is stored in the form of an IP packet, the voice message can be output using a voice decoding circuit used in a communication network that communicates with the IP packet. In addition, since the data is compressed and stored, the storage capacity can be reduced.

  According to the present invention, a correspondence table is searched using a transmission number transmitted by a terminal, a communication network to which the terminal is to be connected is determined, and a voice message for notifying the communication network to be connected is output to the terminal. . For this reason, if the user of a terminal inputs a transmission number, he can know the communication network to be connected by voice. As a result, it is possible to provide a communication network notification method that can notify a connected communication network by voice when a user inputs a transmission signal.

  According to the present invention, a correspondence table is searched using a transmission number transmitted by a terminal, a communication network to which the terminal is to be connected is determined, and a voice message for notifying the communication network to be connected is output to the terminal. . For this reason, if the user of a terminal inputs a transmission number, he can know the communication network to be connected by voice. As a result, it is possible to provide a communication network notification network notification program capable of notifying a connected communication network by voice when a user inputs a transmission signal, and a computer-readable recording medium recording the program. it can.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, the same code | symbol in the figure shows the same or equivalent member, and the overlapping description is not repeated.

  FIG. 1 is a diagram for explaining a connection state between a communication network switching device, a terminal, and a communication line according to one embodiment of the present invention. Referring to FIG. 1, a communication network switching device (also referred to as IAD (Integrated Access Device)) 100 is connected to telephones 102A and 102B. Here, an example in which two telephones 102A and 102B are connected is shown, but the number of telephones that can be connected to the communication network switching apparatus 100 is not limited to this, and may be one or more.

  The communication network switching device 100 is connected to a telephone line 105 via a splitter 101. The telephone line 105 serves as both a subscriber line (PSTN: Public Switched Telephone Network) and an asymmetric digital subscriber line (ADSL). A signal carried by PSTN and a signal carried by ADSL have different frequency bands. The splitter 101 is a device for separating or synthesizing a frequency band signal carried by the PSTN and a frequency band signal carried by the ADSL. Between the communication network switching device 100 and the splitter 101, the frequency band signal carried by the PSTN 107 and the frequency band signal carried by the ADSL 106 are transmitted and received separately. The communication network switching device 100 is connected to a local area network (LAN) 104.

  A personal computer (PC) 108 and a gateway (G / W) 109 are connected to the LAN 104. The G / W 109 is connected to a wide area network (WAN). For this reason, the communication network switching apparatus 100 can communicate with the PC 108 via the LAN 104. Furthermore, the communication network switching device 100 can be connected to the WAN via the LAN 104 and the G / W 109. Therefore, it is possible to communicate with other IP phones connected to the WAN. Note that the ADSL 106 can also be connected to the WAN.

  Communication network switching apparatus 100 selects a communication network for connecting telephones 102 </ b> A and 102 </ b> B with the party with whom the telephone call is made from among the three communication networks. The first communication network is the PSTN 107, which can send and receive analog audio signals. The second communication network is the ADSL 106, which transmits and receives digital signals obtained by converting analog audio signals. The third communication network is the LAN 104, which transmits and receives digital signals obtained by converting analog audio signals.

  In this embodiment, the ADSL 107 is described as an example of the IP telephone communication network. However, the IP telephone communication network is not limited to this, and a communication network such as ISDN (Integrated Services Digital Network) is added. Alternatively, the LAN 104 and the WAN may be used.

  FIG. 2 is a diagram illustrating a schematic hardware configuration of the communication network switching apparatus 100 according to the present embodiment. Referring to FIG. 2, communication network switching device 100 has a control unit 110 for controlling the entire communication network switching device 100, and a storage unit that stores a correspondence table that defines correspondence between telephone numbers and communication networks. 119, Subscriber Line Interface Circuit (SLIC) 112A and 112B, Subscriber Line Audio Processing Circuit (SLAC) 113, and Digital Signal Processor (DSP). 114 and a call detection circuit 115.

  The control unit 110 includes a central processing unit (CPU), a read-only memory (ROM) for storing a program to be executed by the CPU and necessary data, variables necessary for executing the program by the CPU, and the like. Random access memory (RAM) for temporary storage. The control unit 110 is connected to the DSP 114, ADSLPHY (Physical layer) 116, LANPHY (Local Area Network Physical layer) 117, storage unit 119, and external storage device 125.

  The communication network switching device 100 includes first switches 120A and 120B, second switches 121A and 121B, modular jacks (RJ-11) 111A and 111B connected to the first switches 120A and 120B, and a call detection circuit 115. A modular jack (RJ-11) 111C connected to the ADSLPHY 116, a modular jack (RJ-11) 111D connected to the ADSLPHY 116, and a modular jack (RJ-45) 118 connected to the LANPHY 117.

  The modular jacks (RJ-11) 111A and 111B are ports for connecting the communication network switching device 100 to the telephones 102A and 102B. The modular jack (RJ-11) 111C is a port for connecting the communication network switching device 100 to the PSTN 107. The modular jack (RJ-11) 111D is a port for connecting the communication network switching device 100 to the ADSL 106. The modular jack (RJ-45) 118 is a port for connecting the communication network switching device 100 to the LAN 104.

  The first switch 120A switches whether the telephone set 102A connected to the modular jack 111A is connected to the SLIC 112A or the call detection circuit 115 based on an instruction from the control unit 110. Similarly, the first switch 120B switches whether the telephone set 102B connected to the modular jack 111B is connected to the SLIC 112B or the call detection circuit 115 based on an instruction from the control unit 110. For the following description, the switching direction of the first switch 120A is set to the A side when the telephone 102A connected to the modular jack 111A is connected to the SLIC 112A, and the telephone 102A connected to the modular jack 111A is connected to the call detection circuit 115. Let B be the case. Similarly, the switching direction of the first switch 120B is when the telephone 102B connected to the modular jack 111B is connected to the SLIC 112B, and the telephone 102B connected to the modular jack 111B is connected to the call detection circuit 115. Is the B side.

  The second switch 121A switches whether the SLAC 113 is connected to the SLIC 112A or the call detection circuit 115 based on an instruction from the control unit 110. Similarly, the second switch 121B switches whether the SLAC 113 is connected to the SLIC 112B or the call detection circuit 115 based on an instruction from the control unit 110. Hereinafter, for the sake of explanation, the switching direction of the second switch 121A is C side when the SLAC 113 is connected to the SLIC 112A, and D side when the SLAC 113 is connected to the call detection circuit 115. Similarly, the switching direction of the second switch 121B is C side when the SLAC 113 is connected to the SLIC 112B, and D side when the SLAC 113 is connected to the call detection circuit 115.

  When the first switches 120A and 120B are on the A side and the second switches 121A and 121B are on the C side, the telephones 102A and 102B are connected to the SLICs 112A and 112B, and the SLICs 112A and 112B are connected to the SLAC 113. As a result, the telephones 102A and 102B and the LANPHY 117 or ADSLPHY 116 are connected via the SLICs 112A and 112B, the SLAC 113, the DSP 114, and the control unit 110. Whether to connect to LANPHY 117 or ADSLPHY 116 may be set in advance by control unit 110, or may be selected based on an input number as will be described later.

  When the first switches 120A and 120B are on the B side, the telephones 102A and 102B are connected to the call detection circuit 115. For this reason, the telephones 102A and 102B are connected to the PSTN 107.

  When the second switches 121A and 121B are on the D side, the SLAC 113 is connected to the call detection circuit 115. For this reason, the SLAC 113 is connected to the PSTN 107.

  Although the case where the first switches 120A and 120B are switched in the same direction and the second switches 121A and 121B are switched in the same direction has been described here, the first switch 120A and the first switch 120B are switched independently. Similarly, the second switch 121A and the second switch 121B can be switched independently. For example, the telephone 102A can be connected to the PSTN 107 and the telephone 102B can be connected to the ADSL 106. In this case, the first switch 120A is switched to the B side, and the first switch 120B is switched to the A side. The second switch 121A switches the second switch 121A to the D side while the SLAC 113 generates the tone signal, and switches to the C side otherwise. The second switch 121B is switched to the C side.

  SLICs 112A and 112B detect on-hook or off-hook of telephone sets 102A and 102B. The detected on-hook signal or off-hook signal is transmitted to the control unit 110.

  The SLAC 113 is an A / D converter that converts an analog signal into a digital signal, and a D / A converter that converts a digital signal into an analog signal. The DSP 114 includes a compression / expansion circuit that compresses or expands a digital audio signal, a number detection circuit that detects a DTMF (Dial Tone Multi Frequency) signal, and a tone signal generation circuit that generates a DTMF signal. Audio analog signals received from the SLICs 112A and 112B are converted into digital signals by the SLAC 113, and the converted digital signals are compressed by the DSP 114 and output to the ADSLPHY 116 or the LANPHY 117 via the control unit 110. A digital signal received by ADSLPHY 116 or LANPHY 117 is received by DSP 114 via control unit 110, decompressed, converted to an analog signal by SLAC 113, and output to SLICs 112A and 112B.

  Further, the DSP 114 receives dial signals transmitted from the telephones 102A and 102B via the SLICs 112A and 112B and the SLAC 113, and outputs number information obtained based on the received dial signals to the control unit 110. Further, the DSP 114 generates a dial signal (DTMF signal) based on the number information instructed from the control unit 110 and outputs the generated dial signal to the SLAC 113. The output dial signal is converted into an analog signal by the SLAC 113 and output to the PSTN 107 when the second switches 121A and 121B are on the D side. At this time, if the first switches 120A and 120B are on the A side, the SLAC 113 and the telephones 102A and 102B are not connected, so that no dial signal is received by the telephones 102A and 102B.

  The external storage device 125 reads a program or data recorded on the computer-readable recording medium 126 and transmits it to the control unit 110. Further, necessary data is written in the computer-readable recording medium 126 according to an instruction from the control unit 110.

  The computer-readable recording medium 126 is a medium that carries a fixed program such as a magnetic tape, cassette tape, magnetic disk, optical disk, IC card, optical card, mask ROM, EPROM, flash memory, or semiconductor memory. Further, the recording medium 126 may be a recording medium that carries the program in a fluid manner so that the program is downloaded from the network.

  Here, the program is a concept including not only a program that can be directly executed by a central processing unit (CPU) but also a program in a source program format, a compressed program, an encrypted program, and the like.

  FIG. 3 is a flowchart showing the flow of a communication network notification process executed by communication network switching apparatus 100 in the present embodiment. Hereinafter, a case where the user uses the telephone 102A will be described as an example for explanation. Similar processing is executed when the user uses the telephone 102B. Referring to FIG. 3, in the communication network notification process, first, it is detected whether or not telephone 102A goes off-hook (step S01). In the default state, the switch 120A is switched to the B side, and the switch 121A is switched to the C side. An off-hook signal of the telephone 102A is detected by the SLIC 112A. And it will be in a standby state until it becomes off-hook (it is YES at step S01). If an off-hook is detected, the process proceeds to step S02. Note that an interrupt may be generated when off-hook is detected without going into a standby state, and the subsequent processing may be executed.

  In step S02, connection confirmation processing is executed. The connection confirmation process is executed for all communication networks to which the communication network switching device is physically connected. In the present embodiment, such communication networks are ADSL 106 and PSTN 107. In the connection confirmation process of the communication network of the ADSL 106, communication for connection confirmation is executed with the server device owned by the provider of the IP telephone connected to the ADSL 106. If communication with the server device is possible, it is determined that connection is possible, and if communication is not possible, it is determined that connection is impossible. In the PSTN 107 communication network connection confirmation process, for example, the determination is made based on whether or not a tone signal transmitted from the telephone exchange connected to the PSTN 107 is received. When a tone signal is received, it is determined that connection is possible, and when it is not received, it is determined that connection is impossible. The result of the connection confirmation process is temporarily stored in a RAM provided in the control unit.

  In the next step S03, it is determined whether or not the IP phone is usable. If it is determined in step S02 that the connection to the ADSL is possible, it is determined that the IP phone can be used. Otherwise, it is determined that the IP phone cannot be used. If it is determined that the IP phone can be used, the process proceeds to step S11; otherwise, the process proceeds to step S04.

  In step S04, it is determined whether or not an analog telephone can be used. In the connection confirmation processing in step S02, if it is determined that the PSTN can be connected, it is determined that the analog telephone can be used. Otherwise, it is determined that the analog telephone cannot be used. If it is determined that the analog telephone can be used, the process proceeds to step S05; otherwise, the process proceeds to step S08.

  The process proceeds to step S05 when the IP phone is unusable and the analog phone is usable. Accordingly, in step S05, for example, a voice message “IP phone cannot be used” is output. As a result, the user of the telephone 102A can recognize that the IP telephone cannot be used, and if a telephone number is subsequently input to the telephone 102A, communication using the PSTN as a communication network is started. Can be recognized. Since switch S121A is switched to the C side, a voice message output from control unit 110 is transmitted to telephone set 102A.

  Thereafter, the first switch 120A is switched to the B side, and the second switch 121A is switched to the C side (step S06). By switching the first switch 120A to the B side, the telephone set 102A is connected to the PSTN 107. As a result, a tone signal transmitted from the exchange connected to the PSTN is received and output by the telephone set 102A. As a result, the telephone 102A functions as an analog telephone. Since the calling process in this case is well known, description thereof will not be repeated here. In addition, the connection between SLAC 113 and PSTN 107 is interrupted by switching second switch 121A to the C side. Thereby, noise such as noise is not transmitted from the SLAC 113 to the PSTN 107.

  In the next step S07, the call detection circuit 115 determines whether or not the telephone 102A is on-hook. Whether or not the telephone 102 </ b> A has become on-hook is detected by the call detection circuit 115, and the detected on-hook signal is output to the control unit 110 and recognized by the control unit 110. When on-hook is detected, the process is terminated.

  On the other hand, when the process proceeds to step S08, both the IP phone and the analog phone cannot be used. Accordingly, in step S08, for example, a voice message “telephone is not available” is output. As a result, the user of the telephone 102A can be notified that neither IP telephone nor analog telephone can be used. Thereafter, a warning sound is output to the telephone 102A until an on-hook is detected in step S10 (step S09). Thereby, it is possible to continuously inform the user of the telephone 102A that both telephones cannot be used. In step S10, on-hook is detected by the SLIC 112A. Since switch S121A is switched to the C side, the voice message and warning sound output from control unit 110 are transmitted to telephone 102A and output. If on-hook is detected in step S10, the process is terminated.

  On the other hand, in step S11, it is determined whether or not an analog telephone can be used. In the connection confirmation processing in step S02, if it is determined that the PSTN can be connected, it is determined that the analog telephone can be used. Otherwise, it is determined that the analog telephone cannot be used. If it is determined that the analog telephone can be used, the process proceeds to step S12. Otherwise, the process skips step S12 and proceeds to step S13.

  The process proceeds to step S12 when the IP phone is usable and the analog phone is not usable. Accordingly, in step S12, for example, a voice message “General phone is not available” is output. Thereby, the user of the telephone 102A can recognize that the analog telephone cannot be used.

  In step S13, a tone signal is output to telephone 102A. Thereby, the user of the telephone set 102A can recognize that it is possible to make a call using either an IP telephone or an analog telephone. If the user is listening to the voice message “Cannot use general telephone” at the time of step S12, it can be recognized that the call can be made by IP telephone.

  Then, in the next step S14, a calling process is executed. FIG. 4 is a flowchart showing the flow of outgoing call processing. Referring to FIG. 4, the input of the outgoing signal is accepted from telephone set 102A (step S21). Then, based on the received transmission signal, a communication network selection process is performed to determine whether the communication network is the ADSL 106 or the PSTN 107 (step S22).

  Here, the telephone network selection process will be briefly described. The storage unit 119 stores in advance a correspondence table in which outgoing signals are associated with telephone networks. Control unit 110 searches the correspondence table based on the transmission signal received in step S21. Then, the communication network corresponding to the outgoing signal is selected.

  FIG. 5 is a diagram illustrating an example of a correspondence table stored in the communication network switching device 100 according to the present embodiment. Referring to FIG. 5, the correspondence table includes items of data number, transmission signal, communication network, and identification symbol. The data number is a number for specifying the data stored in the correspondence table. The transmission signal is data to be searched based on the transmission signal input from the telephones 102A and 102B. For example, in the data of the data number “1”, the transmission signal is “1XX”. “X” means that the digit can be any number or symbol. Therefore, “1XX” indicates that the signal has three digits and the first digit starts with “1”. For example, when a transmission signal such as “100” or “110” is output from the telephone set 102A, the data with the data number “1” becomes the corresponding data.

  The communication network is an item for specifying the communication network corresponding to the outgoing signal. Any one of PSTN 107, ADSL 106, and LAN 104 is defined in the communication network.

  The item of the identification symbol indicates the telephone number of the other party corresponding to the transmission signal. The relationship between the transmission signal and the identification symbol corresponds to a so-called speed dial, the transmission signal corresponds to a speed dial, and the identification symbol corresponds to a number for specifying the other party. In FIG. 5, the data indicated by the data numbers “18”, “19”, and “20” is a transmission signal corresponding to the speed dial. Here, the outgoing signal starting with “*” is a speed dial. Specifically, in the data with the data number “18”, the transmission signal is “* 1”, and “0666666666” is associated with the corresponding identification number. Note that the abbreviated dialing is not limited to a transmission signal starting with “*”, and can be defined by other symbols or defined by combining a plurality of symbols.

  A signal including “.T” in a transmission signal is a symbol indicating that any signal comes after the preceding number. For example, the corresponding data with the data number “5” has the transmission signal “2.T”. This indicates that any signal that starts with “2” in the first digit corresponds to any signal that follows. Further, if the corresponding data with the data number “13” is a transmission signal whose first four digits are “0990”, this is applicable regardless of what signal is subsequently input. That is, a signal starting with “0990” corresponds to the corresponding data with the data number “13”. In this case, “PSTN 107” is associated with the communication network.

  In the embodiment, the communication signal and the communication network for transmitting and the identification symbol are provided in the same correspondence table in the correspondence table, but the correspondence table in which the identification symbol and the communication network are associated with each other, You may make it provide the conversion table which matched the transmission signal and the identification symbol separately. In this case, after the outgoing signal input from the telephone 102A is converted into an identification symbol using the conversion table, the communication network to be transmitted is determined by searching the correspondence table using the converted identification symbol. become.

  Returning to FIG. 4, when a communication network is selected in step S <b> 22, the selected communication network is temporarily stored in the RAM of the control unit 110. Then, in the next step S23, it is determined whether or not the selected communication network is an IP telephone communication network, in other words, ADSL 106 or LAM 104. If the selected communication network is an IP telephone communication network, the process proceeds to step S24; otherwise, the process proceeds to step S36. In step S24, it is determined whether or not the IP phone can be used. Whether or not the IP phone can be used is determined based on the result of the connection confirmation process executed in step S02 of FIG. If it is determined that the IP phone can be used, the process proceeds to step S25, and if not, the process proceeds to step S30.

  In step S25, the voice message “Is IP phone” is output to the telephone 102A. As a result, the user can be notified that the telephone 102A functions as an IP phone. That is, the user can know that he will be connected to an ADSL or LAN communication network. Then, in the next step S26, processing for connecting a line with the telephone identified by the telephone number corresponding to the outgoing signal accepted in step S21 is executed via the communication network selected in step S22. The This process is called VoIP connection. This process allows the user to have a conversation with the user of the connected telephone until an on-hook is detected in step S28 (step S27).

  If on-hook is detected in step S28, processing for terminating the VoIP connection is executed (step S29).

  On the other hand, if it is determined in step S24 that the IP phone is not usable, it is determined in step S30 whether an analog phone is usable. Whether or not the analog telephone can be used is determined based on the result of the connection confirmation process executed in step S02 of FIG. If it is determined that the analog telephone can be used, the process proceeds to step S31, and if not, the process proceeds to step S39.

  In step S31, a voice message “Is a regular phone” and a voice message “Please press the confirmation button” are output to the telephone 102A. As a result, the user can be notified that the telephone 102A will function as an analog telephone. When the process proceeds to step S31, the communication network corresponding to the outgoing signal input by the user is ADSL or LAN, but these communication networks are unusable, so the telephone set 102A functions as an analog telephone. Is the case. Therefore, a voice message “please press the confirmation button” is output to confirm to the user whether or not the telephone 102A can function as an analog telephone. Thus, the user can recognize that a communication network different from the communication network set in the correspondence table has been selected. Further, by listening to the confirmation message, the user is asked to determine whether or not to allow connection to the selected communication network, here PSTN. As a result, it is possible to prevent connection to a communication network different from the communication network set in the correspondence table against the user's will.

  In step S32, it is determined whether or not pressing of the confirmation button is detected. If pressing is detected, the process proceeds to step S38. If a predetermined time has elapsed without being detected (YES in step S33), step S32 is performed. Proceed to S34. In step S38, the telephone set 102A is connected to the PSTN as described later and functions as an analog telephone. In step S34, a voice error message is output to the telephone 102A. If on-hook is detected in the next step S35, the process is terminated.

  On the other hand, if it is determined that the communication network selected in step S23 is not an IP telephone communication network, it is determined whether or not an analog telephone can be used (step S36). Whether or not the analog telephone can be used is determined based on the result of the connection confirmation process executed in step S02 of FIG. If it is determined that the analog telephone can be used, the process proceeds to step S37, and if not, the process proceeds to step S39.

  In step S39, a voice message “telephone cannot be used” is output to the telephone 102A. As a result, the user can be notified that the telephone 102A cannot be used. The process proceeds to step S39 when the communication network corresponding to the transmission signal input by the user is PSTN and the PSTN cannot be used. In the present embodiment, when the communication network corresponding to the transmission signal input by the user is PSTN 107 and PSTN 107 cannot be used, the communication network is not switched to ADSL 106 or LAN 104. In other words, the ADSL 106 or the LAN 104 does not serve as a backup for the PSTN 107. However, if the ADSL 106 or the LAN 104 serves as a backup for the PSTN 107 and the communication network corresponding to the outgoing signal input by the user is the PSTN 107 and the PSTN cannot be used, the communication network is connected to the ADSL 106 or the LAN 104. You may make it switch to.

  If on-hook is detected in step S35 after step S39, the process is terminated. In step S39, a voice message may be repeatedly output until an on-hook is detected in step S35, or a warning sound may be output until an on-hook is detected after outputting the voice message.

  Next, output of a voice message will be described. The voice message is stored in the storage unit 119 in advance. The voice message is a compressed digital signal, which is divided into packets and stored in the form of IP packets.

  As described above, when the telephone 102A functions as an IP telephone, the IAD 100 connects to the IP telephone provider computer via the ADSL 106 or the LAN 104, and transmits and receives IP packets. The IP packet includes audio data, and the audio data is data that has been subjected to digital conversion processing and compression processing. Therefore, when receiving an IP packet, communication network switching apparatus 100 sequentially outputs a predetermined portion of the IP packet to DSP 114. The voice data of the IP packet is decompressed by the DSP 114, converted to analog data by the SLAC 113, and output to the telephone set 102A.

  Therefore, the voice message is converted into a digital signal compressed in the same manner as voice data transmitted / received by the IP phone, and is divided into packets and stored in the format of the IP packet. It is only necessary to read out the IP packets in order and output them to the DSC 114.

  Thus, there is no need to develop special circuitry or software to play voice messages. Further, since the voice message is stored as compressed digital data, the amount of data can be reduced, and the memory cost of the storage unit 119 can be reduced.

  Thus, the voice message is subjected to decompression processing and digital / analog conversion processing, and is output to the telephone set 102A. Conversely, analog audio data received from the telephone set 102 </ b> A is converted into digital data by the SLAC 113, compressed by the DSP 114, and then output to the control unit 110. The control unit generates an IP packet based on the received voice data and transmits it to the computer via the ADSL 106 or the LAN 104.

  Although the communication network switching device 100 has been described in the present embodiment, the communication network notification method for executing the processes shown in FIGS. 3 and 4 and the computer shown in FIGS. 3 and 4 are executed. Needless to say, the present invention can be understood as a communication network switching program for this purpose.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a figure for demonstrating the connection state of the communication network switching apparatus in one of embodiment of this invention, a terminal, and a communication line. It is a figure which shows schematic structure of the hardware of the communication network switching apparatus in this Embodiment. It is a flowchart which shows the flow of the communication network alerting | reporting process performed with the communication network switching apparatus in this Embodiment. It is a flowchart which shows the flow of the transmission process performed by step S14 of FIG. It is a figure which shows an example of the corresponding | compatible table memorize | stored in the communication network switching apparatus in this Embodiment.

Explanation of symbols

  100 communication network switching device, 101 splitter, 102A, 102B telephone, 105 telephone line, 109 G / W, 110 control unit, 111A, 111B, 111C, 111D modular jack, 114 DSP, 115 call detection circuit, 116 ADSLPHY, 117 LANPHY 119 storage unit, 120A, 120B first switch, 121A, 121B second switch, 125 external storage device, 126 recording medium.

Claims (7)

A connection means provided between a plurality of communication networks and a terminal, for connecting the terminal to any of the plurality of communication networks;
Receiving means for receiving a calling number sent by the terminal;
Storage means for storing in advance a correspondence table that defines correspondence between outgoing signals and communication networks;
Determining means for searching the correspondence table using the received transmission signal to determine a communication network to which the terminal is connected;
Voice message output means for outputting a voice message to the terminal;
A communication network switching device comprising: control means for causing the voice message output means to output a voice message for notifying a communication network to be connected in response to reception of a calling number by the receiving means. Communication state detecting means for detecting whether or not each of the plurality of communication networks is connectable;
Communication that switches the communication network to be connected from the determined communication network to another connectable communication network when the communication network determined by the determining unit is detected as being inaccessible by the communication state detecting unit The communication network switching device according to claim 1, further comprising network switching means.   The control means, when switched to another communication network by the communication network switching means, sends a voice message to the voice message output means for confirming whether or not to allow connection with another communication network. The communication network switching device according to claim 2, further outputting and allowing the connection means to connect to the other communication network on condition that an allowance signal is input. The voice message is a compressed digital signal;
The communication network switching device according to claim 1, wherein the voice message output means includes storage means for storing the voice message in the form of an IP packet. A storage provided between a plurality of communication networks and a terminal, and storing in advance a connection means for connecting the terminal to any one of the plurality of communication networks, and a correspondence table defining a correspondence between an outgoing signal and the communication network A communication network notification method executed by a communication network switching device having means,
Receiving a calling number sent by the terminal;
Searching the correspondence table using the received outgoing signal to determine a communication network to which the terminal is connected;
Outputting a voice message for notifying a communication network to be connected to the terminal in response to reception of a calling number in the receiving step. A storage provided between a plurality of communication networks and a terminal, and storing in advance a connection means for connecting the terminal to any one of the plurality of communication networks, and a correspondence table defining a correspondence between an outgoing signal and the communication network A computer-readable communication network notification program executed by a communication network switching device having means,
Receiving a calling number sent by the terminal;
Searching the correspondence table using the received outgoing signal to determine a communication network to which the terminal is connected;
A communication network notification program for causing a communication network switching device to execute a step of outputting a voice message for notifying a communication network to be connected to the terminal in response to reception of a calling number in the reception step.   A computer-readable recording medium on which the communication network notification program according to claim 6 is recorded.

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