JPH1188533A - Telephone system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve speech quality by allowing a sender side telephone server to form slots at vowels of a voice signal and allowing a receiver side telephone server to conduct insertion or deletion of vowel phonemes for the voice extension or interleave processing to correct dispersion at voice data transmission time. SOLUTION: When a telephone set makes a call to a telephone server via a private branch exchange, a PCM conversion section 14 generates voice slots each placed between vowels via a telephone server sound MODEM board 20, the slots are converted into digital voice data, the data are compressed by a CODEC section 15, assembled into packets by a UDP/IP section 16, and the packets are sent from a LAN transmission reception section 31. A LAN transmission reception section 31 of a receiver side telephone server receives the packets, a CODEC section 15 expands the packets via a UDP/IP section 16, and a PCM conversion section 14 applies inverse conversion to the expanded packets with a delay of a specific time. When the arrival of the packets is delayed by a specific time or over, a last vowel of one-preceding packet voice slot is inserted to the delayed packet to extend the time and vowels of succeeding slots are deleted and the resulting slots are subjected to interleaving inverse conversion and the resulting slots are outputted from a board 20.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a telephone system via a dedicated line network such as the Internet or an intranet, and more particularly to a telephone system capable of realizing a good call state.

[0002]

2. Description of the Related Art The most common conventional telephone system is a telephone system using a public line network, as shown in FIG.
The calling telephone is connected to the NTT exchange in the jurisdiction,
The TT exchange is connected to the receiving-end NTT exchange via a telephone communication line of NTT or Shindenden.
A telephone call is realized by calling the telephone of the called party from the exchange. FIG. 6 is a conceptual diagram of a telephone system using a conventional public line network.

In a telephone system using this public line network, all communication paths are public telephone lines exclusively for telephone use. Even when a digital line is used, a band is guaranteed and a nationwide switching network is synchronized. Therefore, there is no loss of sound or time delay in terms of timing.

Another conventional telephone system includes:
There is a public-private public connection, which means a configuration in which a telephone call—public line network—dedicated line network—public line network—telephone makes a call. That is, as described above, as a communication path of the telephone, a connection mode is used in which the relay performed only by the public line network is relayed by using a dedicated network such as the Internet or an intranet in a company.

More specifically, in a connection mode using an intranet in a company, as shown in FIG. 7, an intranet 4 is constructed by connecting telephone servers 3 and 5 provided at key points in the company with dedicated lines. The telephones 1 and 7 in the enterprise are connected to the telephone servers 3 and 5 through the private branch exchanges 2 and 6 so that the telephones in the enterprise are connected via a dedicated intranet network for talking. It is. FIG. 7 is a schematic diagram of a telephone system using a conventional intranet.

[0008] In a connection mode using the Internet, as shown in FIG. 8, telephone servers 3 ′ and 5 ′ provided at key points in various places are connected by a dedicated line to connect to the Internet 4 ′.
By connecting the general telephones 1 and 7 to the telephone servers 3 'and 5' via the public line 2 ', thereby connecting the telephones via a dedicated line network of the Internet for talking. . FIG. 8 is a schematic diagram of a conventional telephone system using the Internet.

[0007] In FIG. 7, the intranet 4 can be the Internet, and in FIG. 8, the Internet 4 ′ can be the intranet.

[0008] Following the liberalization of one-sided public-private connection in April 1995, on October 30, 1996, the Ministry of Posts and Telecommunications completely liberalized both-sided connection of public-private public voice calls. The complete liberalization of public-private connections has made it possible to significantly reduce long-distance call charges, especially for companies with a company intranet. Further, for example, long-distance calls from a single person to an absence home via a dedicated line have reduced call charges.

Next, a conventional telephone server 3 or 3 '(hereinafter referred to as telephone server 3) will be described.
The conventional telephone server 3 is a server installed at a connection point between a public line (telephone line) and a dedicated line, and controls incoming / outgoing calls from the public line, and converts voice analog data from the public line into digital data by PCM / PCM. This device has a function of performing transmission / reception processing by inverse conversion, compression / decompression of audio digital data (CODEC processing), and protocol conversion to a dedicated line.

Generally, in terms of hardware, the telephone server 3 has a telephone interface and a dedicated line (LAN) interface, and can be realized by a server such as a personal computer equipped with a voice processing board or the like. OS (basic software) and call control software operating on the OS are installed.

Next, the operation of the conventional telephone system will be described with reference to FIG.
I will explain using. When a call is made from the telephone A1 to the telephone B7, the local telephone exchange A2 performs a telephone exchange by calling the telephone server A3 by dialing the telephone number of the telephone server A3 from the telephone A1.

[0012] Then, the telephone server A3 goes off-hook,
The telephone A1 prompts the telephone A1 to input the telephone number of the telephone B7 by voice, and when the telephone number of the telephone B7 is input from the push button of the telephone server A3, the telephone server A3 compares the telephone number in the storage device with the telephone server. The telephone server B5 corresponding to the telephone number of the telephone B7 is searched from the table, and a connection is requested to the telephone server B5.

When the telephone server A3 and the telephone server B5 are connected, the telephone number of the telephone B7 is transmitted from the telephone server A3 to the telephone server B5, and the telephone server B5 goes off-hook on the telephone line and changes the telephone number of the telephone B7. Dial.

The private branch exchange B6 performs line switching, calls the telephone B7, and the receiver off-hook the telephone B7, so that the telephone server B5 informs the telephone server A3 that the telephone is connected. Notice.

Hereinafter, the telephone server A3 and the telephone server B5
In this case, voice from a telephone line is divided into slots, converted / compressed into digital data, and packetized and transmitted over the intranet 4 in the same manner as general data and in a time-division manner with general data.

The intranet 4 is for data communication, sends out packetized data through an arbitrary route,
Even if the arrival speed of the packet varies or is lost depending on the state of the route on the way, the receiver side requests reordering or retransmission.

The receiving telephone server, which has received the voice data packet, decompresses the compressed data and returns it to the original digital data, then converts the digital data into an analog voice signal and outputs it to the telephone line. Then, the voice is transmitted to the telephone set A1 or the telephone set B7 via the private branch exchange A2 or the private branch exchange B6.

At this time, the transmission capacity of the intranet 4 is as follows.
It must be larger than the data amount of the audio signal. And
In the actual transmission, as shown in FIG. 9, the transmission voice (a) is divided into slots, and the transmission data (b) from the telephone server A3 has a time gap between the transmission frames transmitting the voice slots. In the case of a network such as the Internet, various data other than voice data enter into this gap. FIG. 9 is a timing chart showing a state of transmission data in each section of the conventional telephone system.

When the network is congested,
As shown in FIG. 9C, the delay time occurs randomly like the received data in the telephone server B5, and the arrival time of the data varies (hereinafter, abbreviated as jitter).

For example, in the telephone server B5 on the receiving side, in order to decompress the transmission frame of the received data and absorb the jitter, first, an arbitrary time (to) is delayed, converted to analog voice, and then continued. The transmission frame is similarly converted and the voice (d) is transmitted to the telephone B7 via the telephone line.

However, if there is a transmission frame with a delay time t1> t0, such as the transmission frame in the third slot, the received voice transmitted from the telephone server B5 to the telephone B7 will be the voice of the transmission data with the delay time t1. At this point, a break in the sound (momentary interruption) occurs. Thereafter, the received voice is transmitted to the telephone B7 with a delay of tl.

[0022]

However, the telephone server used in the above-mentioned conventional telephone system via a dedicated line includes a telephone line originating / terminating control, an input / output voice digital sampling control, a data compression control, and a data compression control. In many cases, dedicated hardware is integrated with network control, and the dedicated hardware has a problem that development costs and product costs are high.

In the conventional telephone system, the dedicated line network is used for data communication and is not a communication protocol that can be synchronized by the same clock as the NTT telephone exchange network. Variations (hereinafter abbreviated as jitter) occur, resulting in delays and instantaneous interruptions in call voice, affecting calls, and significantly lowering the evaluation of call quality compared to calls using a general exchange. There was a point.

Also, depending on the utilization rate of the network, the load, the configuration of the communication path, etc., there is a possibility that a large time delay or a loss of voice data may occur, resulting in a break in voice,
There is a problem that you will be talking with a feeling of vacancy like a conversation with the space station.

Further, in the conventional telephone server, there is a phenomenon that an input sound wraps around to a voice output portion, and an echo occurs in which a voice from one side attenuates at regular intervals and is added to the voice of the other party. There is a problem that the call quality is degraded due to the echo included.

The telephone control sounds of the public line and the PBX include mechanical sounds such as a dial tone, a telephone disconnection, a telephone disconnection, a hold tone, and a busy tone. In particular, in the case of a PBX, both PBs are controlled.
When the specifications of X differ, there is a problem that a problem may occur.

Further, since the normal telephone server is operated unattended for 24 hours, if one of the two telephone servers during a call stops due to a power failure or the like, the other telephone server remains in the call mode and the network remains in the call mode. Repeated transmission and reception of voice data, the telephone line remained connected,
There is a problem that telephone charges continue to be charged even if the call is disconnected.

Further, the utilization rate of the dedicated line network is as follows:
Since it dynamically changes depending on the usage status such as other mail, WWW, and file transfer, if the amount of voice data is large, the load on the network increases and there is a problem that other services are affected.

Further, the telephone server needs to be periodically restarted in order to operate the system stably in the event of a failure or the like or to prevent the occurrence of a failure, and it is necessary to arrange a 24-hour monitoring system. There was a problem.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a telephone system capable of stably achieving a good communication state.

[0031]

According to a first aspect of the present invention, in a telephone system, an input voice is divided into slots and digitally compressed and converted into voice data packets. A transmitting-side telephone server that divides the voice by a vowel when transmitting over a network; and a voice data that is received via the network after the voice data divided into slots is expanded and converted into analog data. The thinning-out or thinning-out process of the voice performed to correct the variation of the transmission time is performed by inserting a vowel phoneme into a portion to be thinned out, deleting a vowel phoneme from the portion to be thinned out, and then reproducing the received phone server. And the effect of variations in the transmission time of audio data can be minimized.

According to a second aspect of the present invention, there is provided a transmitting side telephone for transmitting voice, a transmitting side exchange connected to the telephone, and a transmitting side connecting to the transmitting side exchange. A telephone server, a receiving telephone server connected to the transmitting telephone server via a network,
A telephone system comprising a receiving exchange connected to the receiving telephone server, and a receiving telephone for receiving a voice connected to the receiving exchange, wherein the transmitting telephone server is connected via the transmitting exchange. When the voice input from the transmitting-side telephone is divided into slots and digitally compressed and transmitted as voice data packets, the transmitting-side telephone server delimits the vowels of the voice, and the receiving-side telephone server has a slot. In the case of receiving the separated audio data, expanding the analog data, and reproducing the expanded audio data, the thinning-out or thinning-out process for correcting the variation in the transmission time of the audio data is performed by inserting a vowel phoneme into a portion to be elongated. In addition, it is a receiving telephone server that deletes the vowel phonemes from the places to be decimated and then reproduces them. Possible to minimize the influence of the variation of transmission time.

According to a third aspect of the present invention, there is provided a telephone system according to the second aspect, wherein a mechanical sound other than voice is transmitted between the transmitting telephone server and the receiving telephone server. Is characterized in that it is encoded and transmitted, and the machine sound is reproduced from the received code, so that network traffic can be reduced.

According to a fourth aspect of the present invention, there is provided a telephone system according to the second aspect of the present invention for connecting a transmitting telephone to a transmitting telephone server via a transmitting exchange in a telephone system. Authenticating the transmitting telephone by inputting a login name and password, and connecting to the receiving telephone server via the network from the transmitting telephone server, authenticating the transmitting telephone server by inputting the login name and password. The security of the telephone system can be enhanced.

According to a fifth aspect of the present invention, there is provided a telephone system according to the second aspect, wherein the transmitting telephone server has a telephone number of a receiving telephone connectable from the transmitting telephone. Is a transmitting-side telephone server that transmits voice data only when the telephone number input by the transmitting-side telephone is the telephone number registered in the transmitting-end telephone registration table. The feature is that the user can be limited.

According to a sixth aspect of the present invention, there is provided a telephone system as set forth in the second aspect, wherein the transmitting telephone server has a telephone number of a receiving telephone connectable from the transmitting telephone. And a unique number registered as a pair. Only when the unique number input by the transmitting telephone is the unique number registered in the other party registration table, the unique It is a transmitting telephone server that transmits voice data to the receiving telephone of the telephone number corresponding to the number, and the number of users can be limited.

According to a seventh aspect of the present invention, there is provided a telephone system as defined in the second aspect, wherein the transmitting and receiving telephone servers for transmitting and receiving voices are connected to each other. Then, if any of the telephone servers detects an abnormal state, the other party's telephone server is initialized,
The telephone server that has detected an abnormality is also a telephone server that initializes itself, so that an abnormal state can be resolved and a failure in which a telephone line remains connected can be prevented.

According to an eighth aspect of the present invention, there is provided a telephone system as set forth in the second aspect, wherein the strength of the voice input from the transmitting telephone via the transmitting exchange is set to a specific level. If it is below, it is characterized by being a transmitting telephone server that does not transmit the voice,
You can avoid sending sounds that are not considered a call.

According to a ninth aspect of the present invention, there is provided a telephone system as set forth in the second aspect, wherein a communication between the transmitting telephone server and the receiving telephone server which transmits and receives voice is performed. Any of the telephone servers is a telephone server that diagnoses the state of the partner telephone server with respect to the partner telephone server and resets the partner telephone server as necessary, and the telephone connects via the exchange. The telephone server resets the telephone server. The telephone server can be remotely diagnosed, and the telephone server and the telephone can reset the target telephone server.

According to a tenth aspect of the present invention, there is provided a telephone system as set forth in the second aspect, wherein a communication between the transmitting side telephone server and the receiving side telephone server for transmitting and receiving voice is performed. Wherein the telephone server playing the received audio data is a telephone server that performs processing for lowering the input level of audio input from a telephone connected to the telephone server via an exchange, It is possible to attenuate the echo while the other party is talking.

According to an eleventh aspect of the present invention, there is provided a telephone system according to the second aspect, wherein a telephone line tone is monitored when a telephone server is started up, and the tone level is adjusted. It is characterized by being a telephone server that sets a gain according to it, and can correct differences in voice level due to differences in exchanges.

[0042]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the claimed invention will be described with reference to the drawings. In the telephone system according to the present invention, a voice is divided into slots at vowels, digitized, compressed and transmitted by the telephone server on the transmitting side, and the data arrival time (transmission time) is varied on the receiving telephone server. In order to compensate, if a delay occurs, the vowel phoneme is inserted and delayed by the delay, and the vowel phoneme is deleted and decimated after the delay. Can be improved.

First, the configuration of the telephone server according to the present invention will be described with reference to FIG. FIG. 1 is a configuration block diagram of a telephone server according to the present invention.

The telephone server of the present invention has a hardware configuration of a general-purpose personal computer (personal computer) 10, a sound modem board 20 for controlling an interface with a telephone line, and a LAN board for controlling an interface with a private line network. 30.

The sound modem board 20 interfaces with a telephone line. The sound modem board 20 is connected to the telephone line, and functions related to telephone such as calling / incoming and off-hook / on-hook, and a sound blaster function related to voice processing. This is a general board already on the market.

The sound modem board 20 may be a phone blaster card in which a voice modem, a sound blaster, and a switching adapter for both functions are integrated according to the device configuration of the personal computer 10.

The LAN board 30 interfaces with a dedicated line network, and may be, for example, an existing board having a general LAN interface such as Ethernet.

The personal computer 10 is a NetWare,
In an environment in which a general-purpose OS (basic software) such as DOS, UNIX, Windows95, or WindowsNT operates, an application that realizes a telephone system using a dedicated line, which is a feature of the present invention, operates, such as a workstation. It does not matter.

As the software configuration in the personal computer 10, in the example shown in FIG. 1, an attached driver corresponding to the sound modem board 20 and the LAN board 30 and Windows 95 as an OS are used as an interface between an application and a public line. Application and L using standard telephony API (TAPI)
A general WinSock is used as an interface with the AN, and a dedicated line telephone application, which is a feature of the present invention, operates on a higher level.

Next, the functional configuration of the telephone server of the present invention will be described with reference to FIG. FIG. 2 is a functional block diagram of the telephone server of the present invention. The telephone server according to the present invention includes a switching control unit 21, a modem 22, a call control unit 12
, Storage unit 19, PCM conversion unit 14, CODEC unit 15, TCP / IP unit 17, UDP / IP unit 16.
And a LAN transmission / reception unit 31.

The switching control section 21 and the modem 22 are functions that operate within the sound modem board 20,
The N transmission / reception unit 31 is a function that operates in the LAN board 30. The TCP / IP unit 17 and the UDP / IP unit 16 are communication protocols that generally function in the personal computer 10, and Is a function that operates within the leased line telephone application 11 of the personal computer 10 which is a feature of the present invention.

Next, each section in the telephone server of the present invention will be described. The switching control unit 21 receives input and output from the telephone line in accordance with an instruction from the call control unit 12,
Switching is performed by the M conversion unit 14.

More specifically, the switching control unit 21 sets the input / output to / from the telephone line on the modem 22 side from the start of the telephone system to the stand-by, and if the communication stage is the call control stage. Exchanges data with the modem 22,
When the communication stage starts, data is exchanged with the PCM conversion unit 14.

The modem 22 exchanges data at the call control stage with the telephone line. More specifically, when an incoming call is received from the telephone line, the modem 22 goes off-hook and confirms that there is an incoming call. The information is transmitted to the call control unit 12. When an on-hook instruction is issued from the call control unit 12, on-hook is performed on the telephone line.

The storage unit 19 stores registration data for connection between servers and various registration data for security check. More specifically, a connection correspondence table storing a pair of a telephone number of a destination and a telephone server under its jurisdiction, and a caller registration storing a pair of a login name and a password for checking a caller. A table, a destination registration table storing pairs of telephone numbers and unique numbers for checking destinations, and a telephone storing pairs of login names and passwords for checking connections of telephone servers. And a server registration table.

The call control unit 12 is a part that performs call control up to connection to a destination in response to an incoming call from a telephone line.
Here, the call control processing of the call control unit 12 of the calling telephone server will be specifically described with reference to FIG. FIG.
It is a flowchart figure which shows the flow of the call control processing of the call control part 12 of the telephone server of the transmitting side of this invention.

The call control process of the call control unit 12 of the telephone server according to the present invention is started when an off-hook notification is received from the modem 22, and first checks (authenticates) the caller (10).
0).

Here, the caller check means that a voice message urging the caller to input a login name and a password in a push tone is provided to the sound modem board 20 in order to restrict who can make a call using the leased line network. , And receives the login name (for example, “* 1234 #”) and the password (for example, “3456 #”) input by push tone from the calling side telephone, and makes an inquiry in the caller registration table of the storage unit 19, If registered, the process proceeds to the next process.

Next, the other party is checked (authenticated) (102). Here, the check of the destination is to transmit a voice message prompting the input of the telephone number or the unique number of the destination from the sound modem board 20 in order to limit the destinations that can make a call using the leased line network, and to make a call. Receiving the telephone number or unique number of the other party input by push-tone from the telephone of the other side, collating it with the other party's registration table in the storage unit 19, and if it is registered, proceeds to the next processing. I have.

When only the telephone number is registered in the destination registration table, the inquiry is made with the telephone number. When the telephone number and the unique number are registered, the inquiry is made with the unique number. Has become.

Next, referring to the connection correspondence table of the storage unit 19, a telephone server corresponding to the telephone number of the other party is searched (104), and a connection is requested to the telephone server via the LAN transmission / reception unit 31 (step 104). 106).

Then, a connection permission check is performed by checking the login name and password between the telephone servers (108), and when the connection is permitted, the telephone number of the other party is transmitted (110).

At this time, the call control unit 1 of the telephone server on the receiving side
In step 2, the connection request is received from the LAN transmission / reception unit 31 and the telephone number of the other party is received.
An off-hook instruction is output to the off-hook / on-hook section 23, and the telephone number of the other party is output and dialed.

When the off-hook of the other party's telephone is detected, a notification is made via the LAN transmission / reception unit 31 to the calling telephone server that the connection has been established.
An instruction to switch input / output from the modem 22 to the PCM conversion unit 14 is output to the switching unit 21 of the sound modem board 20.

Then, the call control unit 1 of the calling telephone server
In the call control process 2, it is determined whether or not a notification that the connection has been made has been received from the telephone server on the receiving side via the LAN transmission / reception unit 31 (112).
s), an instruction to switch input / output from the modem 22 to the PCM conversion unit 14 is output to the switching control unit 21 of the sound modem board 20 (114), and the call control process ends.

On the other hand, if the connection is not established in the processing 112 (No), a code of some mechanical sound such as a busy tone, a busy tone, a ringing tone is received (120), and a mechanical sound corresponding to the code is reproduced. The call is transmitted from the sound modem board 20 (122), and the call control process is terminated.

The processing 100, the processing 102, the processing 108
Each security check process may be omitted depending on the importance of the check.

The call control unit 12 encodes all the machine sounds from the time the call is made until the connection state is established to the call control unit 12 of the telephone server on the transmission side of the machine sound, and transmits the codes between the intranets 4. And the call control unit 1 of the telephone server on the receiving side.
The corresponding mechanical sound is reproduced according to the code received in step 2 and output to the telephone line.

The mechanical sounds such as the PBX dial tone, telephone cut-off tone, hold tone, busy tone, and handset misplacement tone are PBX.
, Characteristics such as frequency characteristics, patterns, and intensity are different. Therefore, in the present invention, the P
If the machine sound of BX is learned, energy components, frequency characteristics, patterns, strengths, etc. are stored by FFT processing, and the code of the machine sound is received from the other party's telephone server,
A mechanical sound is reproduced based on the stored characteristics and transmitted to the sound modem board 20.

Further, at the time of start-up, the call control unit 12
It is also possible to monitor the tone of the telephone line, adjust the input level of the transmission voice in the PCM conversion unit 14 described later according to the level, and correct the difference in the voice level due to the difference in the exchange.

As a remote diagnosis function, all the devices of the telephone server are initialized by a special input from a telephone connected via a telephone line (for example, a sharp input following a telephone number) or the like. Can be used for initialization (reset) and diagnosis.

The TCP / IP unit 17 is a part for realizing the TCP / IP protocol which is a known technique, and
2 is a part for performing processing for transmitting and receiving the call control data handled in 2 using the TCP / IP protocol that is connection-type and performs retransmission processing when an error occurs.

The PCM conversion section 14 basically converts the analog audio signal from the sound modem board 20 into PCM (Pulse Code Modulation) and outputs digital audio data to the CODEC section 15 as processing on the transmission side. ,
Conversely, as processing on the receiving side, the digital audio data expanded from the CODEC unit 15 is subjected to PCM inverse conversion and an analog audio signal is output to the sound modem board 20.

Other special functions include level adjustment according to the specifications of the telephone line, level adjustment based on whether or not a call is being received, detection of silence in transmitted voice, detection of abnormal line disconnection, and the like. .

Here, details of the inside of the PCM conversion unit 14 will be described with reference to FIG. FIG. 4 is a block diagram showing the configuration inside the PCM conversion unit 14 of the telephone server according to the present invention. The inside of the PCM conversion unit 14 includes a level adjusting unit 41.
, Silence detecting means 42 and voice slot creating means 43
, PCM conversion means 44, and PCM inverse conversion means 45.

The level adjustment means 41 receives an instruction from a PCM inverse conversion means 45, which will be described later, and
This adjusts the input level of the voice signal from the other party. Specifically, while the voice data packet of the other party of the call arrives from the other party's telephone server and the reverse conversion process is performed by the PCM reverse conversion means 45, Is adapted to lower the input level in response to an instruction during voice reception from the PCM inverse conversion means 45.

The silence detecting means 42 is for detecting silence of the voice to be transmitted. Specifically, the energy intensity of the transmitted voice output from the level adjusting means 41 is converted to a Fast Fourier Transform (FFT). If it is below the preset threshold level,
It is discarded without performing PCM conversion.

There are two types of threshold setting methods, a fixed type and a variable type. The fixed type is a method of setting an absolute physical strength with sound energy.

On the other hand, the variable threshold is a method in which the average intensity of the energy during a call is always calculated, and the ratio to the average intensity, for example, 20%, is set as the threshold. That is, the threshold level also fluctuates according to the fluctuation of the average voice energy that fluctuates dynamically during a call.

The voice slot generating means 43 is for generating a voice slot to be converted into a PCM. Usually, the conversion unit is hundreds of milliseconds. However, in the present invention, the voice slot is always divided by a vowel and the PCM converting means is used. 44.

The PCM conversion means 44 performs PCM conversion for each audio slot and outputs digital audio data. Since a general technique is used for the PCM conversion technique, a detailed description is omitted here.

The PCM inverse conversion means 45 performs PCM inverse conversion of the received digital audio data. The features of the present invention include adjustment of the inverse conversion timing and variation in the arrival time (transmission time) of the audio data. During the PCM inverse conversion, an instruction indicating that voice is being received is output to the level adjustment means 41.

More specifically, in consideration of the fact that the received digital audio data has a transmission delay for transmission via the intranet 4 and a variation in delay for each transmission frame, FIG. As shown in FIG. 5, as in the conventional case, the inverse conversion is started with a delay of a specific time (t0) in the start frame of the call. FIG. 5 is a timing chart showing a state of transmission data in each section of the telephone system of the present invention.

Then, if there is a transmission frame with a delay time t1> t0, (tl-t) until the frame arrives
o) Insert the last vowel of the previous frame in units of phonemes so that the voice is not interrupted by
Perform the inverse transformation.

Further, in order to prevent the delay time from being accumulated, the lengthened portion is deleted in units of phonemes at the last vowel of the subsequent frame, and the PCM inverse conversion is performed. ing.

Specifically, for example, in the example shown in FIG. 5, when the received data in the third slot has a delay t1, the phoneme of the last vowel in the second slot is inserted (tl-to).
In this case, the last vowel phoneme is deleted and thinned out by the time (tl-to) at the third slot in the third slot. (In addition, thinning is performed in the eighth slot, and thinning is performed in the ninth slot).

The thinning may be performed stepwise over several slots. For example, the thinning may be performed at (tl-to) / 2 hours at the third and fourth slots.

Further, the PCM reverse conversion means 45 detects the occurrence of a line disconnection due to an abnormal situation, so that the sound of the same pattern is continuously generated for a certain period of time or a certain period of time. If the detection is continued, it is determined that an abnormality has occurred, and the occurrence of the abnormality is notified to the call control unit 12. The detection of silence or the same pattern is performed by monitoring the frequency energy component and intensity by performing FFT processing on the audio signal.

The PCM inverse conversion means 45 also adjusts the output level corresponding to the tone level of the telephone line in accordance with an instruction from the call control unit 12.

The CODEC 15 performs compression / decompression (COmpressor / DECompressor: CODEC) processing on digital audio data. Since the compression / decompression processing uses a general technique, the description is omitted here.

The UDP / IP unit 16 is a part for realizing the UDP / IP protocol which is a known technique, and is a CODEC.
This section performs processing for transmitting and receiving audio data handled by the section 15 in a connectionless type using a UDP / IP protocol that does not perform retransmission even if a packet is discarded.

The LAN transmission / reception unit 31 is a dedicated line network L
It performs transmission and reception with the AN.

Next, the operation of the telephone system according to the present invention will be described with reference to FIGS. In the telephone system of the present invention, when a telephone call is made from the telephone A1 to the telephone B7, the caller transmits the telephone server A3 from the telephone A1.
Is dialed, the private branch exchange A2 performs a telephone exchange and makes a call to the private branch exchange A2.

The sound modem board 2 of the telephone server A3
When a call is detected by 0, the modem 22 goes off-hook, and a voice message prompting the input of a login name and a password is transmitted from the call control unit 12 to the telephone A1 via the sound modem board 20.

When the sender who has listened to the voice message inputs a login name and a password from the push button of the telephone A1, it is transmitted to the telephone server A3 and transmitted to the telephone server A3.
Of the telephone number of the telephone B7 or a unique number is transmitted to the telephone A1 via the sound modem board 20 if the registered telephone number is registered. Is done.

When the sender who has listened to the voice message inputs the telephone number or unique number of telephone B7 from the push button of telephone A1, it is transmitted to telephone server A3,
The call control unit 12 of the telephone server A3 collates the telephone number or unique number of the telephone B7, and if a connection is permitted, searches the telephone server comparison table for a telephone server B5 corresponding to the telephone number of the telephone B7, and searches the intranet 4. The connection request is sent to the telephone server B5 via the server, and when connected, the telephone number of the telephone B7 is transmitted.

At the telephone server B5, the telephone number of the telephone B7 is received, and the modem 22 of the sound modem board 20 goes off-hook on the telephone line and dials the telephone number of the telephone B7.

The private branch exchange B6 performs line switching, calls the telephone B7, and when the receiver off-hooks the receiver of the telephone B7, the telephone server B5 detects this and connects the telephone to the telephone server A3. After notification of the state, the telephone server B5 and the telephone server A3 switch the input / output from the modem 22 to the PCM conversion unit 14 in the sound modem board 20, and perform a voice transmission / reception process.

In transmitting and receiving voice, when a voice is transmitted from a telephone (for example, telephone A1) on the voice transmitting side (transmitting side) to the telephone server A3 via the private branch exchange A2, a sound modem board of the telephone server A3 is used. 20 is output to the PCM conversion unit 14, the level is adjusted by the level adjusting unit 41, the silence is detected by the silence detecting unit 42, and if not, the audio slot is divided by the vowel in the audio slot creating unit 43. Generated, P
It is converted into digital audio data by the CM conversion means 44,
Compressed by the CODEC unit 15 and compressed by the UDP / IP unit 16
A packet for the DP / IP protocol is generated and LA
The data is transmitted from the N transmitting / receiving unit 31 to the intranet 4.

When the LAN transmitting / receiving section 31 receives a voice packet from the intranet 4 at the telephone server B5 on the voice receiving side (receiving side), the CODEC section 15 receives the packet via the UDP / IP section 16, and the CODEC section. Fifteen
, And inversely converted by the PCM conversion unit 14.

At this time, the PCM inverse conversion means 45 of the PCM conversion unit 14 starts the inverse conversion with a delay of a specific time, and when the arrival of the packet is further delayed than the specific time, the end of the voice slot of the immediately preceding packet. The vowel is inserted and extended, and then inversely converted, and for one or more subsequent voice slots, the last vowel is deleted and thinned out, and then inversely converted.

[0102] The analog voice signal inversely converted by the PCM conversion unit 14 is transmitted from the sound modem board 20 to the telephone line, transmitted to the telephone B7 on the receiving side via the private branch exchange B6, and output. It has become.

According to the telephone server of the present invention, the voice slot is delimited by vowels at the transmitting telephone server, and the PCM conversion is performed.
Compressed, packetized and transmitted, decompressed by the telephone server on the receiving side, and if a delay occurs in the received data, insert the last vowel phoneme of the previous voice slot by the amount of the delay and extend it, then PCM reverse The converted and extended portion is subjected to one or more subsequent voice slots to remove the final vowel phoneme and to be decimated and then subjected to PCM inverse conversion. Therefore, the delay caused by passing through the dedicated line network. The effect of reducing instantaneous interruptions due to noise and jitters and variations in call voice is that the call can be performed with a natural feeling, and the call quality can be improved.

According to the telephone server of the present invention, a general-purpose personal computer, a general-purpose sound modem board, and a general-purpose dedicated line board are used, and all of the features of the present invention are realized by software. There is an effect that can be realized at low cost without the necessity of.

The telephone server of the present invention recognizes that the received voice is not output for a specific period of time and recognizes the state as an abnormal state, initializes the other party's telephone server, and also initializes the telephone server that has detected the abnormal state. Thus, there is an effect that a trouble that the telephone line remains connected can be prevented.

In the telephone server of the present invention, in the call control exchange, the TCP / IP protocol for connection-type retransmission processing when an error occurs is used as the communication protocol, so that the network state between the telephone servers can be reliably synchronized. effective.

Further, in the transmission of voice data after a call has been made, the use of connectionless UDP / IP as a communication protocol can hinder the conversation even if some packets are discarded. There is an effect that the communication quality can be improved by reducing the delay.

In the present invention, a machine sound such as a ringing tone or a busy tone is encoded by a transmitting telephone server and transmitted to a network, and a mechanical sound corresponding to the code is reproduced by a receiving telephone server. Since the data is transmitted to the telephone line, there is an effect that network traffic can be reduced, and the difference between the specifications of the transmitting and receiving exchanges can be coped with.

Further, according to the present invention, the characteristics of machine sounds such as dial tone and busy tone of the PBX to which the telephone server is connected are learned and stored, reproduced based on the stored characteristics, and transmitted to the telephone line. Therefore, there is an effect that control corresponding to the specification of the connected PBX can be performed.

Further, according to the present invention, the telephone server on the transmitting side detects the silence of the transmission voice, and in the case of the silence, does not generate the voice data, so that there is an effect that the network traffic can be reduced.

Further, according to the present invention, when the received voice arrives at the telephone server on the receiving side, the level is adjusted so as to lower the input level of the transmitted voice from the telephone line. Attenuate relatively,
This has the effect of eliminating the echo.

Further, in the present invention, the login name and password of the caller are registered in advance in the telephone server of the calling side, and the caller is checked with the login name and password when calling the telephone server. And the security of the telephone system can be enhanced.

Further, the telephone number of the other party and the unique number corresponding to the telephone number are registered in the telephone server on the calling side in advance.
Since the other party is checked with the telephone number or the unique number when the other party's telephone number is input, the connection destination can be restricted and the security of the telephone system can be enhanced.

Further, at the time of connection between the telephone server on the transmitting side and the telephone server on the receiving side, the possibility of connection is checked by transmitting a login name and a password, so that the security of the telephone system can be enhanced.

Also, according to the present invention, the tone level of the telephone line is measured at the time of start-up, and the level of the audio data output to the telephone line is adjusted according to the measurement result. There is an effect that can be corrected.

Further, according to the present invention, since the telephone server can be reset by a special input from a telephone connected via a telephone line, the telephone server can be initialized remotely, the telephone system can be operated stably, and maintenance can be easily performed. There is an effect that can be.

Further, according to the present invention, the telephone server can be inspected or reset by the operation between the telephone servers, and the telephone system can be stably operated by the remote operation.

In the telephone system according to the above embodiment, the telephones 1, 7 and the private branch exchanges A2, B
6 (public line 2, 2 ') has been described, but has a small configuration in which telephone servers 3, 3', 5, 5 'are simply equipped with microphones and speakers. Even so, the present invention can be realized.

[0119]

According to the first or second aspect of the present invention, the transmitting telephone server separates slots by voice vowels when separating slots, and the receiving telephone server reduces the variation in the transmission time of voice data. Since the telephone system performs the extension or decimation process of the voice to be corrected by inserting or deleting a vowel phoneme, the effect of variations in the transmission time of voice data can be minimized, and the effect of improving the communication quality can be obtained. is there.

According to the third aspect of the present invention, since the telephone server is a telephone system according to the second aspect, the machine sound other than the voice is encoded and transmitted, and the mechanical sound is reproduced from the received code. This has the effect of reducing traffic.

According to the fourth aspect of the present invention, authentication is performed using a login name and a password when connecting from the transmitting telephone to the transmitting telephone server, and further, when connecting from the transmitting telephone server to the receiving telephone server. Since the telephone system according to the second aspect performs authentication using a login name and a password, the security of the telephone system can be enhanced.

According to the fifth aspect of the present invention, the transmitting telephone server transmits the voice data only when the transmitting telephone inputs a telephone number registered in the destination registration table. Because it is a telephone system, you can send voice data only to a specific partner's phone,
This has the effect of limiting the users and enhancing the security of the telephone system.

According to the sixth aspect of the present invention, the transmitting telephone server sets the unique number only when the transmitting telephone inputs a unique number corresponding to the telephone number registered in the destination registration table. 3. The telephone system according to claim 2, wherein the voice data is transmitted to a telephone having a telephone number corresponding to the telephone number, so that the voice data can be transmitted only to a specific partner telephone. Has the effect of strengthening.

According to the seventh aspect of the present invention, when the telephone server detects an abnormal state, the telephone server initializes the other party's telephone server and also initializes the telephone server itself which has detected the abnormality. Therefore, there is an effect that an abnormal state can be resolved and a failure that the telephone line remains connected can be prevented.

According to the invention described in claim 8, the transmitting telephone server does not transmit the voice if the intensity of the voice input from the transmitting telephone is lower than a specific level.
Since the telephone system described above is used, it is possible to reduce the network traffic by not transmitting a sound that is not considered to be a telephone call.

According to the ninth aspect of the present invention, the telephone server diagnoses the state of the partner telephone server, resets the partner telephone server if necessary, and allows the telephone to establish the telephone server connected via the exchange. Since the telephone system according to the second aspect of the present invention is to be reset, the telephone server can be remotely diagnosed, and the telephone server and the telephone can be used to reset the target telephone server.

According to the tenth aspect of the present invention, since the telephone server reduces the input level of the transmission voice during the reproduction of the received voice data, the telephone server attenuates the echo during talking of the other party. There is an effect that can be made.

According to the eleventh aspect of the present invention, there is provided the telephone system according to the second aspect, wherein the telephone server monitors the tone of the telephone line when the telephone server is started up, and sets a gain according to the tone level. Therefore, there is an effect that a difference in voice level due to a difference in exchange can be corrected.

[Brief description of the drawings]

FIG. 1 is a configuration block diagram of a telephone server according to the present invention.

FIG. 2 is a functional block diagram of the telephone server of the present invention.

FIG. 3 is a flowchart showing a flow of a call control process of a call control unit of the telephone server of the present invention.

FIG. 4 is a block diagram showing a configuration inside a PCM conversion unit of the telephone server of the present invention.

FIG. 5 is a timing chart showing a state of transmission data in each section of the telephone system of the present invention.

FIG. 6 is a conceptual diagram of a conventional telephone system using a public line network.

FIG. 7 is a schematic diagram of a conventional telephone system using an intranet.

FIG. 8 is a schematic diagram of a conventional telephone system using the Internet.

FIG. 9 is a timing chart showing a state of transmission data in each section of the conventional telephone system.

[Explanation of symbols]

1 telephone A, 2 private branch exchange A, 3 telephone server A, 4 intranet, 5 telephone server B,
6 Private telephone exchange B 7 Telephone B 10 Personal computer 11 Private line telephone application 12 Call control unit 14 PCM conversion unit 1
5: CODEC section, 16: UDO / IP section, 17 ...
TCP / IP section, 19: storage section, 20: sound modem board, 21: switching control section, 22: modem,
30 LAN board 31 LAN transmission / reception unit

Claims (11)

[Claims] 1. A transmission-side telephone server that divides an input voice into slots and divides them by vowels of the voice when digitally compressing and converting the voice into a packet of voice data via a network. When data is received via the network and expanded and converted into analog data for playback, the voice thinning or thinning processing performed to correct the variation in the transmission time of the voice data is performed by placing a vowel phoneme at a position to be thinned. A telephone system comprising: a receiving telephone server that deletes a vowel phoneme from a portion to be inserted or thinned out and then reproduces the vowel. 2. A transmitting telephone for transmitting voice, a transmitting exchange connected to the telephone, a transmitting telephone server connected to the transmitting exchange, and a receiving telephone connected to the transmitting telephone server via a network. A telephone system including a receiving telephone server, a receiving exchange connected to the receiving telephone server, and a receiving telephone receiving voice connected to the receiving exchange. A transmitting-side telephone server that separates the voice input from the transmitting-side telephone into slots via a local exchange and converts the voice into a packet of voice data after performing digital compression conversion on the voice-converted voice; When the server receives the audio data divided into slots, converts the data into an expanded analog signal, and reproduces it,
The thinning-out or thinning-out process of the voice performed to correct the variation in the transmission time of the voice data is performed by inserting a vowel phoneme in a portion to be thinned out, deleting a vowel phoneme from a portion to be thinned out, and then reproducing the sound. A telephone system, being a telephone server. 3. The apparatus according to claim 2, wherein the machine sound other than the voice is encoded and transmitted between the transmitting telephone server and the receiving telephone server, and the mechanical sound is reproduced from the received code. Telephone system. 4. A connection from a transmitting telephone to a transmitting telephone server via a transmitting exchange is performed by authenticating the transmitting telephone by inputting a login name and a password, and from the transmitting telephone server via a network. 3. The connection to the receiving telephone server, wherein the authentication of the transmitting telephone server is performed by inputting a login name and a password.
The telephone system as described. 5. The transmitting telephone server has a destination registration table for registering a telephone number of a receiving telephone connectable from the transmitting telephone, and the telephone number inputted by the transmitting telephone is stored in the destination registration table. 3. The telephone system according to claim 2, wherein the telephone system is a transmitting telephone server that transmits voice data only when the telephone number is a registered telephone number. 6. A transmitting telephone server has a destination registration table for registering a telephone number of a receiving telephone connectable from the transmitting telephone and a unique number in a pair, and a unique telephone number input by the transmitting telephone is provided. Only when the number is a unique number registered in the destination registration table, the transmitting telephone server transmits voice data to a receiving telephone having a telephone number corresponding to the unique number. The telephone system according to claim 2, wherein 7. When an abnormal state is detected in any one of the telephone servers between the transmitting telephone server and the receiving telephone server which are transmitting and receiving voice, the other telephone server is initialized and the abnormality is detected. The telephone system according to claim 2, wherein the telephone server itself is also a telephone server for initializing. 8. The transmitting telephone server according to claim 2, wherein the transmitting telephone server does not transmit the voice if the intensity of the voice input from the transmitting telephone via the transmitting exchange is lower than a specific level. Phone system. 9. Between a transmitting telephone server and a receiving telephone server which transmit and receive voice, one of the telephone servers diagnoses the state of the other telephone server with respect to the other telephone server, and 3. The telephone system according to claim 2, wherein the telephone server resets the telephone server connected to the other party telephone server in response to the call, and the telephone resets a telephone server connected via an exchange. 10. A telephone server that reproduces received voice data between a transmitting telephone server and a receiving telephone server that transmits and receives voice and connects to the telephone server via an exchange. 3. The telephone system according to claim 2, wherein the telephone system is a telephone server that performs processing for lowering an input level of voice input from the telephone. 11. The telephone system according to claim 2, wherein the telephone server monitors a tone of a telephone line when setting up the telephone server, and sets a gain according to the tone level.