JP3879535B2 - Internet telephone equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an internet telephone device capable of making a call using an internet protocol (IP).
[0002]
[Prior art]
FIG. 4 is a block diagram showing a configuration of a conventional Internet telephone apparatus. As shown in FIG. 4, the Internet telephone apparatus includes a main apparatus 70A containing IP telephone terminals 30A1, 30B1,... Each having a microphone 1, a speaker 2, and a keyboard 3, respectively. A main apparatus 70B accommodating IP telephone terminals 30B1, 30B2,... Having a speaker 2 and a keyboard 3 is connected via an IP network (Internet) 100.
[0003]
In such an Internet telephone device, when, for example, the IP telephone terminal 30A1 accommodated in the main apparatus 70A starts a call with the IP telephone terminal 30B1 accommodated in the main apparatus 70B, the main apparatus 70A makes its own apparatus prior to the call. Information of the voice coding rule (voice coding method) of the accommodated IP telephone terminal 30A1 is notified to the counterpart main apparatus 70B, and the voice coding rule of the IP telephone terminal 30B1 accommodated in the main apparatus 70B is changed. Let
[0004]
Here, when a telephone call is started, the IP telephone terminal 30A1 performs A / D conversion on the analog voice input from the microphone 1, compresses it at a compression rate according to the voice coding rule, and then packetizes the main voice 70A. , To the IP telephone terminal 30B1 via the IP network 100 and the main device 70B. In IP telephone terminal 30B1, the received voice data packet is decomposed and decompressed at a decompression rate corresponding to the changed voice coding rule, further D / A converted to reproduce analog voice, and transmitted from speaker 2. . On the other hand, in the IP telephone terminal 30B1, analog voice input from the microphone 1 is A / D converted, compressed at a compression rate according to the changed voice coding rule, and then packetized to form the main device 70B and the IP network 100. And to the IP telephone terminal 30A1 via the main device 70A. In the IP telephone terminal 30A1, the received voice data packet is decomposed and decompressed at a decompression rate corresponding to the voice coding rule, further D / A converted to reproduce analog voice, and transmitted from the speaker 2. As described above, the IP telephone terminals 30A1 and 30B1 compress and decompress voice data according to a common voice coding rule during a call.
[0005]
When the IP telephone terminal 30A1 performs a hold operation during a call between the IP telephone terminals 30A1 and 30B1, for example, the main apparatus 70A detects this and detects the same as the voice coding rule at the time of the telephone call. The compressed hold sound data (G.729) compressed at the compression rate of the 729 rule is extracted from the storage unit 71 and transmitted to the IP telephone terminal 30A1. The IP telephone terminal 30A1 uses the compressed music on hold data (G.729) as the G. It is expanded at an expansion rate corresponding to the 729 rule, further D / A converted, and sent from the speaker 2 as a holding sound.
[0006]
At this time, the main device 70A notifies the main device 70B of the suspension via the IP network 100. Then, main apparatus 70B retrieves compression hold sound data (G.729) having the same compression rate as the voice coding rule at the time of the call from the storage unit 71 and transmits it to IP telephone terminal 30B1, and to IP telephone terminal 30B1. The compressed hold sound data (G.729) is expanded at an expansion rate corresponding to the voice coding rule, further D / A converted, and sent from the speaker 2 as a hold sound.
[0007]
[Problems to be solved by the invention]
Thus, conventionally, in the system composed of the IP telephone terminals 30A1 and 30A2 and the main apparatus 70A and the system composed of the IP telephone terminals 30B1 and 30B2 and the main apparatus 70B, compression compressed with the same voice encoding rule at the time of holding. The hold sound is transmitted using the hold sound data. For this reason, the main unit 70 side can store the compression holding sound data (corresponding to all the voice coding rules as shown in FIG. G.711), (G.723.1), (G.728), (G.729) need to be stored, and the storage capacity of the storage unit 71 is increased, making it impossible to configure the apparatus economically. There was a problem.
[0008]
Accordingly, the present invention provides a storage capacity of the storage unit of the main apparatus in an Internet telephone apparatus that transmits the compressed hold sound data stored in advance in the storage unit of the main apparatus to the IP telephone terminal and reproduces it as the hold sound when the IP telephone terminal is on hold. It aims at reducing.
[0009]
[Means for Solving the Problems]
In order to solve such problems, the present invention provides first and second main devices connected to an IP network (Internet), and first and second devices respectively accommodated in the first and second main devices. The first and second telephone terminals convert the input analog voice signal into a digital voice signal, compress the converted digital voice signal, and use the compressed voice signal as a packet signal. While transmitting to the IP network via the accommodated main unit, the packet signal received from the IP network side via the main unit to which it is connected is restored to a compressed audio signal, and the restored compressed audio signal is expanded to a digital audio signal In the Internet telephone device for converting the decompressed digital voice signal into an analog voice signal, the first and second telephone terminals are compressed with the voice signal. A voice encoding means having a plurality of voice encoding rules as an extension method, and means for transmitting a hold command to the main apparatus in which it is housed and detecting an analog voice signal input when a hold operation is detected during a call. And a storage unit that stores compressed hold sound data compressed based on any one of a plurality of speech coding rules, and is housed in the first and second main devices. When a hold command is received from a call terminal, the voice coding rule of the call terminal is changed to a voice coding rule corresponding to the compressed hold sound data stored in its storage unit, and then the call terminal And a first control means for transmitting the compressed hold sound data in the storage unit and expanding the compressed hold sound data into a digital hold sound signal based on the changed voice coding rule.
[0010]
In this case, when the hold command from the call terminal is received by the first and second main apparatuses, the hold command is transmitted to the main apparatus that accommodates the call terminal and the other terminal in a call via the IP network. When the means and the hold command transmitted by the second control means are received, the voice coding rule of the counterpart terminal is changed to a voice coding rule corresponding to the compressed hold sound data stored in its own storage unit, In addition, after stopping the input of the analog voice signal to the partner terminal, the compressed hold sound data of its own storage unit is transmitted to the partner terminal, and is expanded into a digital hold sound signal based on the changed voice coding rule. 3 control means.
[0011]
In addition, the first and second telephone terminals are provided with means for transmitting a hold release command to the main apparatus in which the first and second telephone terminals are held and canceling the input stop of the analog voice signal, When receiving the hold release command from the hold terminal accommodated in itself, the first and second main devices change the voice encoding rule of the hold terminal to the voice encoding at the time of calling, and change the hold release command to IP Transmitted to the main unit that accommodates the other terminal via the network, changed the voice coding rule of the other terminal to the voice coding at the time of the call, and canceled the input stop of the analog voice signal to the other terminal It is.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of an Internet telephone apparatus according to the present invention. As shown in FIG. 1, the Internet telephone apparatus includes an IP telephone terminal 10A1 and 10A2 each having a microphone 1, a speaker 2, and a keyboard 3, and a main apparatus 50A that accommodates the IP telephone terminals 10A1 and 10A2, respectively. 1. IP telephone terminals 10B1 and 10B2 each having a speaker 2 and a keyboard 3, and a main apparatus 50B accommodating the IP telephone terminals 10B1 and 10B2, and the main apparatus 50A and the main apparatus 50B are connected via an IP network (Internet) 100. Connected.
[0013]
The storage unit 51 of the main apparatus 50A stores G.D. for sending a hold sound from each IP telephone terminal 10A1, 10A2 when each IP telephone terminal 10A1, 10A2 is held. Compressed hold sound data (G.729) compressed at a compression rate of 729 rules is stored. In addition, the storage unit 51 of the main apparatus 50B stores G.D. for sending a hold sound from each IP telephone terminal 10B1, 10B2 when each IP telephone terminal 10B1, 10B2 is on hold. Stored is compression hold sound data (G.711) compressed at a compression ratio of 711 rules.
[0014]
Here, when, for example, the IP telephone terminal 10A1 accommodated in the main apparatus 50A starts a call with the IP telephone terminal 10B1 accommodated in the main apparatus 50B, the main apparatus 50A receives the IP accommodated in the own apparatus prior to the call. G. is a speech coding rule (speech coding method) of the telephone terminals 10A1 and 10B1. 729 information is sent to the counterpart main unit 50B, and the voice coding rule of the IP telephone terminal 10B1 is set to G.729. Change to 729 rules.
[0015]
Here, when a telephone call is started, the IP telephone terminal 10A1 performs A / D conversion on the analog voice input from the microphone 1, and the G.G. Compressed according to the 729 rule, packetized, and transmitted to the IP telephone terminal 10B1 via the main device 50A, the IP network 100, and the main device 50B. In the IP telephone terminal 10B1, the received voice data packet is assembled and the G.P. The audio data is expanded at an expansion rate corresponding to the 729 rule, and further D / A conversion is performed to reproduce analog sound and send it out from the speaker 2. On the other hand, in the IP telephone terminal 10B1, the analog voice input from the microphone 1 is A / D converted, and the G. Compressed according to the 729 rule, packetized, and transmitted to the IP telephone terminal 10A1 via the main device 50B, the IP network 100, and the main device 50A. In the IP telephone terminal 10A1, the received voice data packet is assembled and the G.P. The audio data is expanded at an expansion rate corresponding to the 729 rule, and further D / A conversion is performed to reproduce analog sound and send it out from the speaker 2. As described above, the IP telephone terminals 10A1 and 10B1 share a common G.P. Audio data is compressed and expanded according to the 729 rule.
[0016]
During the mutual call between the IP telephone terminals 10A1 and 10B1, for example, when the IP telephone terminal 10A1 performs a hold operation, the main device 50A detects this and corresponds to the compressed hold sound data stored in the storage unit 51. The voice encoding rule, that is, the same G.D. After notifying the IP phone terminal 10A1 of the 729 rule, the compression hold sound data (G.729) in the storage unit 51 is transmitted to the IP phone terminal 10A1. In this case, the IP telephone terminal 10A1 sends the compressed hold sound data (G.729) to the notified G.729. It is expanded at an expansion rate corresponding to the 729 rule, further D / A converted, and sent from the speaker 2 as a holding sound.
[0017]
At this time, the main apparatus 50A notifies the main apparatus 50B of the hold command via the IP network 100. Then, in the main apparatus 50B, the G.C. 711 rule is notified to the IP telephone terminal 10B1 and the G.G. After changing to the 711 rule, the compression hold sound data (G.711) stored in the storage unit 51 is transmitted to the IP telephone terminal 10B1. The IP telephone terminal 10B1 is notified of the compressed music on hold data (G.711) from the main device 50B and has been changed. Expansion is performed at an expansion rate corresponding to the 711 rule, and further D / A conversion is performed and the result is transmitted from the speaker 2 as a holding sound.
[0018]
As described above, when the IP telephone terminals 10A1 and 10B1 are put on hold, the main apparatuses 50A and 50B use the IP telephone terminals 10A1 and 10B1 to store the voice coding rule information of the compressed hold sound data stored in their own storage unit 51, respectively. After notifying 10B1, the compressed hold sound data in the storage unit 51 is sent to the IP telephone terminals 10A1 and 10B1 to be reproduced as a hold sound. As a result, in each of the main devices 50A and 50B, it is only necessary to store one compression holding sound data in the storage unit 51, and the storage unit 51 can be configured with a small capacity and at a low cost.
[0019]
When the IP telephone terminal 10A1 performs a hold releasing operation while the IP telephone terminals 10A1 and 10B1 are on hold, the main device 50A detects this and detects the same voice coding rule information as when the telephone call was made to the IP telephone terminal 10A1 ( G.729 information) and a hold release command to main device 50B. When main apparatus 50B receives this hold release command, it instructs IP telephone terminal 10B1 to switch to the voice coding rule during a call. As a result, when the call is resumed, the IP telephone terminals 10A1 and 10B1 share a common G.P. Audio data is compressed and decompressed according to the 729 rule.
[0020]
FIG. 2 is a block diagram showing a detailed configuration of the IP telephone terminal 10. As shown in FIG. 2, the IP telephone terminal 10 includes a control unit 11 having a hold command transmission / reception unit 11 A and a hold release command transmission / reception unit 11 B, a communication control unit 12, a main device interface unit 13, and a microphone 1. An audio input unit 14 for inputting audio, an input on / off unit 15 for inputting / not inputting audio, an A / D conversion unit 16 for A / D converting an audio signal, and A / D converted audio data Is encoded according to the audio encoding rule notified from the main device 50 side, and the voice data from the audio encoding unit 17 or the hold command (or the hold release command) from the control unit 11 ) Is packetized and sent to the main apparatus 50 side.
[0021]
In addition to the above, the IP telephone terminal 10 receives a packetized data from the main device 50 via the main device interface unit 13 and the communication control unit 12, and a packet processing unit 19 that processes the received packet. The audio data from the packet processing unit 19 is input, and the audio decoding unit 20 decompresses and decodes the audio data at an expansion rate corresponding to the audio encoding rule, and the audio data decoded by the audio decoding unit 20 is D / A D / A conversion unit 21 that performs A conversion, and an audio output unit 22 that transmits analog audio converted by the D / A conversion unit 21 from the speaker 2 are provided.
[0022]
FIG. 3 is a block diagram showing a detailed configuration of the main device 50. As shown in FIG. 3, the main device 50 is provided with the above-described storage unit 51 that stores compressed hold sound data, and also includes a control unit 52 having a hold command transmission / reception unit 52A and a hold release command transmission / reception unit 52B. A terminal interface unit 53 that is an interface with the IP telephone terminal 10, communication control units 54 and 55, and a network interface unit 56 that is an interface with the IP network 100 are provided.
[0023]
In addition to the above-described units, the main device 50 receives a packet from the IP telephone terminal 10 via the terminal interface unit 53 and the communication control unit 54, and a packet processing unit 57 that processes the received packet. A packetizing unit 58 that packetizes a hold command from the hold command transmission / reception unit 52A in the unit 52 (or a hold release command from the hold release command transmission / reception unit 52B) and sends the packet to the IP network 100 side, a network interface unit 56, and a communication control unit When packetized data from the IP network 100 side via 55 is received, the packet processing unit 59 that processes the received packet, the compressed hold sound data in the storage unit 51, and the hold command (or hold command transmission / reception means 52A from the hold command transmission / reception means 52A) Hold from the hold release command transmission / reception means 52B The output switching unit 60 for switching the output of any one of the release command) and one of the compressed hold sound data and the hold command (or the hold release command) from the output switching unit 60 and packetized to the IP telephone terminal 10 side And a packetizing unit 61 to be sent to.
[0024]
Next, the operation of the Internet telephone apparatus will be described in more detail with reference to the block diagrams of FIGS.
For example, when the IP telephone terminal 10A1 accommodated in the main apparatus 50A starts a call with the IP telephone terminal 10B1 accommodated in the main apparatus 50B, the main apparatus 50A contacts each of the IP telephone terminals 10A1 and 10B1 of the own apparatus prior to the call. G. is a common speech coding rule. By notifying the counterpart main apparatus 50B of the information on the G.729 rule, 729 information is transmitted from the main device 50B to the IP telephone terminal 10B1, and the voice encoding rules of the voice encoding unit 17 and the voice decoding unit 20 of the IP telephone terminal 10B1 are changed to G.729. Change to 729 rules.
[0025]
Here, when a telephone call is started, in the IP telephone terminal 10A1, analog audio that is input from the microphone 1 and passes through the audio input unit 14 and the input on / off unit 15 is A / D converted by the A / D conversion unit 16. In addition, the voice encoding unit 17 receives the A / D converted voice data from the G.D. The data is compressed and encoded according to the 729 rule, and further packetized by the packetizing unit 18. The communication control unit 12 transmits the packetized audio data to the main device 50A via the main device interface unit 13.
[0026]
In main apparatus 50A, when communication control unit 54 receives packetized voice data from IP telephone terminal 10A1 via terminal interface unit 53, the destination of the packetized voice data is analyzed and communication control unit 55 is analyzed. Send to. The communication control unit 55 sends the packetized voice data to the main apparatus 50B via the network interface unit 56 and the IP network 100.
[0027]
In the main device 50B, when the communication control unit 55 receives the packetized voice data from the main device 50A via the network interface unit 56, the main device 50B analyzes the destination of the packetized voice data and sends it to the communication control unit 54. send. The communication control unit 54 sends the packetized voice data to the IP telephone terminal 10B1 via the terminal interface unit 53.
[0028]
When the IP telephone terminal 10B1 receives the packetized voice data from the main apparatus 50B via the main apparatus interface unit 13 and the communication control unit 12, the packet processing unit 19 performs a decomposition process on the packetized voice data. And the voice decoding unit 20 changes the voice data. After decompression at a decompression rate corresponding to the 729 rule, the D / A conversion unit 21 performs D / A conversion, reproduces the analog sound, and sends it out from the speaker 2 via the sound output unit 22. At this time, the analog voice input from the microphone 1 of the IP telephone terminal 10B1 is also changed in the same way. The packet is compressed and encoded in accordance with the 729 rule and is sent to the IP telephone terminal 10A1 via the main device 50B, the IP network 100, and the main device 50A. Similarly, in the IP telephone terminal 10A1, the G. After being decompressed at a decompression rate corresponding to the 729 rule, it is D / A converted by the D / A converter 21 and sent out from the speaker 2 via the audio output unit 22 as analog sound. As described above, the IP telephone terminals 10A1 and 10B2 share a common G.P. Audio data is compressed and decompressed according to the 729 rule.
[0029]
During a mutual call between the IP telephone terminals 10A1 and 10B1, for example, when a hold operation is performed with the keyboard 3 of the IP telephone terminal 10A1, the control unit 11 of the IP telephone terminal 10A1 detects this and detects the input on / off unit 15. By controlling, the input of the voice from the microphone 1 side is stopped and the hold command transmission / reception means 11A is made to output the hold command. The hold command is packetized by the packetizing unit 18 and transmitted to the main device 50A by the communication control unit 12 via the main device interface unit 13.
[0030]
The packetized hold command is disassembled by the packet processing unit 57 of the main device 50A and received as a hold command by the hold command transmission / reception means 52A. When the hold command transmission / reception means 52A receives the hold command, the control unit 52 switches the output switching unit 60, and information on the voice encoding rule of the hold tone data stored in the storage unit 51, that is, in this case, a call G. By transmitting information on the 729 rule to the packetizing unit 61 via the output switching unit 60, this information is transmitted to the IP telephone terminal 10A1 as packet data, and is recognized by the IP telephone terminal 10A1.
[0031]
Subsequently, the control unit 52 of the main apparatus 50A switches the output switching unit 60 and controls the storage unit 51 to packetize the compressed hold sound data (G.729) stored in the storage unit 51 via the output switching unit 60. By sending it to the conversion unit 61, it is sent to the IP telephone terminal 10A1 as packet data. When the IP telephone terminal 10A1 receives this packet data, the packet processing unit 19 decomposes the packetized compressed music on hold data (G.729), and the voice decoding unit 20 further converts the data into the G . After decompression at a decompression rate corresponding to the 729 rule, the D / A conversion unit 21 performs D / A conversion, reproduces the analog sound, and sends it out from the speaker 2 via the sound output unit 22.
[0032]
The control unit 52 of the main apparatus 50A sends the hold command received from the IP telephone terminal 10A1 to the packetizing unit 58 to packetize it, and the communication control unit 55 converts the packetized hold command to the network interface unit 56 and The data is transmitted to the main device 50B via the IP network 100. When main apparatus 50B receives the packetized hold command, it is disassembled by packet processing unit 59 and received as a hold command by hold command transmission / reception means 52A. In this case, the control unit 52 of the main device 50B performs switching of the output switching unit 60, and information on the voice encoding rule of the holding tone data stored in the storage unit 51, that is, a G. 711 information is sent to the packetization unit 61 via the output switching unit 60, so that it is transmitted as packet data to the IP telephone terminal 10B1, and the voice encoding rule of the voice decoding unit 20 of the IP telephone terminal 10B1 is set to G. Change to 711 rules. At this time, the control unit 11 of the IP telephone terminal 10B1 controls the input on / off unit 15 to stop the voice input from the microphone 1 side.
[0033]
The control unit 52 of the main device 50B sends the G.P. After transmitting the 711 information, the output switching unit 60 is switched, the storage unit 51 is controlled, and the compression hold sound data (G.711) in the storage unit 51 is packetized through the output switching unit 60. 61 is sent to the IP telephone terminal 10A1 as packet data. When the IP telephone terminal 10A1 receives this packet data, the packet processing unit 19 decomposes the packetized compressed music on hold data (G.711), and the voice decoding unit 20 further processes the compressed music on hold data. The modified G. The image is expanded at an expansion rate corresponding to the 711 rule. Then, the D / A conversion unit 21 performs D / A conversion, reproduces the analog sound, and sends it out from the speaker 2 via the sound output unit 22.
[0034]
Thus, when IP telephone terminals 10A1 and 10B1 are on hold, main apparatus 50A has a voice encoding rule for compressed hold sound data stored in its own storage unit 51, that is, G. After notifying the IP phone terminal 10A1 of the information on the 729 rule, the compressed hold sound data (G.729) in the storage unit 51 is sent to the IP phone terminal 10A1 to be reproduced as the hold sound. On the other hand, in the main apparatus 50B, the voice coding rule of the compression hold sound data stored in its own storage unit 51, that is, G. After notifying the IP phone terminal 10B1 of the information on the 711 rule, the compressed hold sound data (G.711) stored in the storage unit 51 is sent to the IP phone terminal 10B1 to be reproduced as the hold sound.
[0035]
When a hold release operation is performed with the keyboard 3 of the IP phone terminal 10A1, for example, while the IP phone terminals 10A1 and 10B1 are put on hold, the control unit 11 of the IP phone terminal 10A1 detects this and sends it to the hold release command transmission / reception means 11B. The hold release command is output. The hold release command is packetized by the packetizing unit 18 and transmitted to the main device 50A via the main device interface unit 13 by the communication control unit 12.
[0036]
The packetized hold release command transmitted from the IP telephone terminal 10A1 is disassembled by the packet processing unit 57 of the main device 50A, and is received by the hold release command transmission / reception means 52B as the hold release command. When the hold release command transmission / reception means 52B receives the hold release command, the control unit 52 of the main device 50A switches the output switching unit 60, and the same G.D. Information on the 729 rule is sent to the packetizing unit 61 via the output switching unit 60 to be transmitted as packet data to the IP telephone terminal 10A1 and recognized by the IP telephone terminal 10A1.
[0037]
Further, the control unit 52 of the main apparatus 50A sends the IP phone terminal 10A1 to the G.P. After transmitting the 729-rule information, the hold release command received from the IP telephone terminal 10A1 is sent to the packetization unit 58 to be packetized and transmitted to the main apparatus 50B via the network interface unit 56 and the IP network 100.
[0038]
When the main device 50B receives the packetized hold release command, it is disassembled by the packet processing unit 59 and received as a hold release command by the hold release command transmission / reception means 52B. In this case, the control unit 52 of the main device 50B performs switching of the output switching unit 60, so that the G.D. 729 information is sent to the packetizing unit 61 via the output switching unit 60 to be transmitted as packet data to the IP telephone terminal 10B1, and the voice coding rule of the voice decoding unit 20 of the IP telephone terminal 10B1 is set to G. After changing to 729, the switching of the output switching unit 60 is restored. The IP telephone terminal 10B1 receives the hold release command and changes the speech coding rule of the speech decoding unit 20 to G.264. After changing to 729, the control unit 11 controls the input on / off unit 15 to release the stop of the voice input from the microphone 1 side. On the other hand, on the IP telephone terminal 10A1 side that transmitted the hold release command, for example, a timer (not shown) is started from the time when the hold release command is transmitted, and the timing of such hold release on the IP telephone terminal 10B1 side is measured by the timer. When the hold release timing comes, the control unit 11 similarly controls the input on / off unit 15 to release the stop of the voice input from the microphone 1 side. In this manner, the IP telephone terminals 10A1 and 10B1 release the hold and resume the call. When the call is resumed, the IP telephone terminals 10A1 and 10B1 share a common G.P. Audio data is compressed and decompressed according to the 729 rule.
[0039]
In the present embodiment, the compression hold sound data is stored in the storage unit 51 of each main device 50A, 50B, and the compression hold sound data is transmitted to the IP phone terminals 10A1, 10B1 when the IP phone terminals 10A1, 10B1 are held. However, in addition to the compressed hold sound data, the alarm sound data, the voice guidance data, and the response message data are compressed and stored in the storage unit 51, and transmitted to each IP telephone terminal as necessary. Each may be expanded and reproduced as an alarm sound, voice guidance, and response message.
[0040]
【The invention's effect】
As described above, according to the present invention, the first and second main devices connected to the IP network and the first and second telephone terminals accommodated in the first and second main devices, respectively. In the system, the first and second telephone terminals include voice encoding means having a plurality of voice encoding rules as voice compression and expansion rules, and a main device that is accommodated when a hold operation is detected during a call Is provided with means for transmitting a hold command and stopping the input of the analog voice signal, and the first and second main devices are compressed based on any one of the plurality of voice coding rules. A storage unit for storing the compressed compressed tone data, and when the main device receives a hold command from the call terminal accommodated in the main unit, the voice coding rule of the call terminal is stored in its storage unit. Compressed music on hold data After changing to the voice coding rule according to, the compressed hold sound data of its own storage unit is transmitted to the call terminal, and the digital hold sound signal is expanded based on the changed voice coding rule. Each main device only needs to store one piece of compressed music on hold data in the storage unit. Therefore, the storage unit can be configured with a small capacity, and the system can be configured at low cost.
[0041]
In addition, the hold command from the call terminal is transmitted to the main apparatus accommodating the other terminal that is in communication with the call terminal via the IP network. On the other hand, when the main apparatus accommodating the other terminal receives the hold command, After changing the voice coding rule to the voice coding rule corresponding to the compression hold sound data stored in its own storage unit and stopping the input of the analog voice signal to the partner terminal, the partner terminal Since the compression hold sound data of the storage unit is transmitted and expanded into a digital hold sound signal based on the changed voice encoding rule, each main device similarly stores one compression hold sound data in the storage unit. It is only necessary to store it, and the capacity of the storage unit can be reduced.
[0042]
In addition, the first and second telephone terminals are provided with means for transmitting a hold release command to the main apparatus in which the first and second telephone terminals are held and canceling the input stop of the analog voice signal, When receiving the hold release command from the hold terminal accommodated in itself, the first and second main devices change the voice encoding rule of the hold terminal to the voice encoding at the time of calling, and change the hold release command to IP Since it was transmitted to the main unit that accommodated the partner terminal via the network, the voice encoding rule of the partner terminal was changed to the voice encoding at the time of the call, and the input stop of the analog voice signal to the partner terminal was released. When the call is resumed after canceling the hold, the first and second telephone terminals can compress and expand the digital audio signal according to a common audio encoding rule.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an Internet telephone apparatus according to the present invention.
FIG. 2 is a block diagram of an IP telephone terminal constituting the system.
FIG. 3 is a block diagram of a main device constituting the system.
FIG. 4 is a block diagram showing a configuration of a conventional Internet telephone device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Microphone, 2 ... Speaker, 3 ... Keyboard, 10, 10A1, 10A2, 10C, 10B1, 10B2 ... IP telephone terminal, 50, 50A, 50B ... Main apparatus, 11, 52 ... Control part, 11A, 52A ... Hold command Transmission / reception means, 11B, 52B ... Hold release command transmission / reception means, 15 ... Input on / off section, 16 ... A / D conversion section, 17 ... Speech coding section, 18, 58, 61 ... Packetization section, 19, 57, 59 ... Packet processing unit, 20 ... Voice decoding unit, 21 ... D / A conversion unit, 100 ... IP network.

Claims (3)

The first and second main devices connected to the Internet and the first and second telephone terminals accommodated in the first and second main devices, respectively. The first and second telephone terminals are The input analog audio signal is converted into a digital audio signal, the converted digital audio signal is compressed, and the compressed audio signal is transmitted as a packet signal to the Internet via the main device in which the compressed audio signal is accommodated. Internet telephone apparatus that restores a packet signal received from the Internet side via a main device to a compressed audio signal, expands the restored compressed audio signal into a digital audio signal, and converts the expanded digital audio signal into an analog audio signal In
The first and second telephone terminals are
Speech encoding means having a plurality of speech encoding rules as compression and expansion rules for speech signals;
Means for transmitting a hold command to a main apparatus in which the device itself is accommodated when detecting a hold operation during a call and stopping the input of the analog voice signal;
The first and second main devices are:
A storage unit for storing compressed hold sound data compressed based on any one of the plurality of speech coding rules;
When a hold command is received from a call terminal that is a telephone terminal that is accommodated in the call, the voice encoding according to the compressed hold sound data stored in the storage unit of the call terminal is encoded. A first control means for transmitting the compressed hold sound data of its own storage unit to the call terminal and expanding the digital hold sound signal based on the changed voice coding rule An internet telephone device characterized by that. In claim 1,
The first and second main devices are:
A second control unit that, upon receiving a hold command from the call terminal, transmits the hold command to the main apparatus that accommodates the other terminal in a call with the call terminal via the Internet;
When receiving the hold command transmitted by the second control means, the voice coding rule of the counterpart terminal is changed to a voice coding rule corresponding to the compressed hold sound data stored in its own storage unit, and After stopping the input of the analog voice signal to the counterpart terminal, the compressed hold tone data of its own storage unit is transmitted to the counterpart terminal and expanded into a digital hold tone signal based on the changed voice encoding rule And a third control unit. In claim 2,
The first and second telephone terminals are
When a hold release operation is detected during the hold, a hold release command is transmitted to the main apparatus in which the device is accommodated and the input stop of the analog audio signal is released.
The first and second main devices are:
When a hold release command is received from a hold terminal which is a telephone terminal held by itself, the voice encoding rule of the hold terminal is changed to voice encoding during a call, and the hold release command is changed to the Internet Means for transmitting to the main apparatus accommodating the counterpart terminal, changing the voice encoding rule of the counterpart terminal to voice encoding at the time of a call, and releasing the input stop of the analog voice signal to the counterpart terminal An internet telephone device comprising:

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