JP2005094046A - Voice communication apparatus, telephone set and voice communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable realizing high-quality communication with wide-band voice communication, and appropriately dealing with voice communication via a public telephone network while applying a wide band corresponding apparatus or the like. <P>SOLUTION: This voice communication apparatus has a filter means which has any one of a public telephone set or a wide-band telephone set connected thereto, is provided in the communication between the telephone set and the public telephone network, and converts signals so that signal conditions in the public telephone network may be satisfied. Another voice communication apparatus has a telephone type identifying means which has any one of the public telephone set and the wide-band telephone set, is provided in the communication between the telephone set and the wide-band communication network, and identifies the type of telephone set connected thereto; and a changing means for changing a sampling frequency for sampling at least an analog signal from the telephone set corresponding to the identified telephone type. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a telephone set, a voice communication apparatus, and a voice communication system, and can be applied to, for example, the same telephone set that can communicate by selecting an IP network and a public telephone network (PSTN).
[0002]
[Prior art]
In recent years, the popular VOIP technology has become widespread by integrating data and voice by converting voice signals into IP packets, thereby reducing network costs and communication costs.
[0003]
In addition, the traditional public telephone network (PSTN) focuses on whether to relay a voice signal to the following, and communicates in a band of 3.1 KHz or less. The network design is also designed with a bandwidth per channel of 3.1 KHz, and the digital transmission network is also based on a communication unit of 64 Kb / s by 8 KHz sampling. That is, the terminal side and the network side treat signals in the band of 3.1 kHz or higher as unnecessary signals.
[0004]
However, with the rapid expansion of broadband in recent years, not only transmission equipment on the network side has become compatible with broadband, but even subscriber lines are being expanded to broadband lines by ADSL, light, etc., and end-to-end Wideband voice communication is now possible. As a result, high quality voice communication has been desired.
[0005]
[Problems to be solved by the invention]
However, VOIP-compatible gateway devices and telephones that have become widespread in recent years are simply focused on VOIP compatibility, and high-quality voice communication utilizing the characteristics of broadband networks cannot be realized.
[0006]
In addition, there is a broadband telephone with a broadband communication signal, but when connected to a public telephone network, it violates the technical conditions of the public telephone network.
[0007]
In addition, when a general telephone dedicated to the public telephone network is connected to a broadband transmission line via a gateway device, an in-channel signal (such as a voice signal) between the general telephone and the gateway device is converted into a wider band. Even when trying to cope with this, it is difficult to ensure sufficient voice quality due to the characteristics of general telephones.
[0008]
In addition, at the design stage, it is unclear whether the telephone is connected to the public telephone network or the IP network, or further connected to the network via a gateway device. Even when wide band compatibility is measured, signal transmission and reception cannot often be performed properly when it is actually incorporated into a communication system, for example, when connected to a gateway device.
[0009]
For this reason, it is conceivable to correct the characteristics when the telephone is incorporated into the system. However, it is not clear what trigger should be used for correction, and even if it is corrected, there is a possibility that the best performance cannot be obtained. Compensation for the characteristics of the telephone may be performed by the function of the gateway device to which the telephone is connected, but there are also telephone characteristics (for example, acoustic characteristics) that cannot be captured by the gateway device, so compensation for the characteristics of the telephone is sufficient. Can not do.
[0010]
Therefore, taking advantage of the characteristics of broadband networks, devices and systems that can realize high-quality communications with broadband voice communications, and voice communications over public telephone networks can be easily accommodated while being broadband. Devices and systems are desired.
[0011]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a voice communication apparatus that is connected to a telephone of either a general telephone or a broadband telephone, and is interposed in communication between the telephone and the public telephone network. It has the filter means to convert.
[0012]
According to a second aspect of the present invention, there is provided a telephone for identifying a type of the connected telephone in a voice communication apparatus that is connected to either a general telephone or a broadband telephone and communicates between the telephone and a broadband communication network. It is characterized by comprising a type identifying means and a changing means for changing a sampling frequency when sampling at least an analog signal from the telephone according to the identified telephone type.
[0013]
According to a third aspect of the present invention, there is provided a telephone that can be connected to a public telephone network or a broadband communication network, and whether the network is a public telephone network or a broadband communication network based on a signal that can distinguish the network type from the network side. It is characterized by having a discriminating means for discriminating and a changing means for switching at least the communication band to the network side according to the discrimination result.
[0014]
According to a fourth aspect of the present invention, there is provided a voice having either a general telephone or a broadband telephone and a voice communication apparatus connected to the telephone and intervening in communication with the public telephone network and / or the broadband communication network. In the communication system, (1) the voice communication device includes network type signal sending means for sending a signal capable of discriminating the network type to the telephone, and (2) the telephone can discriminate the type of the incoming network. Characterized in that it comprises: a discriminating means for discriminating whether the network is a public telephone network or a broadband communication network based on a simple signal; and a changing means for switching at least the communication band to the network side according to the discrimination result. And
[0015]
According to a fifth aspect of the present invention, there is provided a voice having either a general telephone or a broadband telephone, and a voice communication apparatus to which the telephone is connected and intervening in communication with the telephone and the public telephone network and / or the broadband communication network. In the communication system, the voice communication device includes a telephone type identifying means for identifying a type of the connected telephone, and an in-channel signal exchanged between the telephone and the voice communication device according to the identified telephone type. And changing means for changing the characteristics of the above.
[0016]
According to a sixth aspect of the present invention, there is provided a voice having either a general telephone or a broadband telephone, and a voice communication apparatus to which the telephone is connected and intervening in communication with the telephone and the public telephone network and / or the broadband communication network. In the communication system, (1) the voice communication device includes a telephone type identifying unit for identifying a type of the connected telephone, and a change command output unit for giving a characteristic change command to the telephone according to the identified telephone type. (2) The telephone has a telephone-side changing means for changing a characteristic of an in-channel signal exchanged between the voice communication apparatus and the telephone in response to a characteristic change command.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
(A) First embodiment
Hereinafter, a first embodiment of a telephone, a voice communication device, and a voice communication system according to the present invention will be described with reference to the drawings.
[0018]
(A-1) Configuration of the first embodiment
FIG. 1 is a block diagram showing the overall configuration of the voice communication system according to the first embodiment.
[0019]
In FIG. 1, a voice communication system 1 according to the first embodiment includes a gateway device (GW device; voice communication device according to the first embodiment) 3A and 3B accommodating telephones 2A and 2B. Network) 4 and a public telephone network (PSTN network) 5, and telephones 2 A and 2 B can perform voice communication via the IP network 4 or the public telephone network 5.
[0020]
When viewed as a voice communication system, one telephone 2B may be a VOIP-compatible broadband telephone that is not connected to the gateway apparatus 3B but directly connected to the IP network 4, and is connected to the gateway apparatus 3B. A general telephone connected directly to the public telephone network 5 without being connected may be used.
[0021]
The other telephone set 2A connected to the gateway apparatus 3A may be a broadband telephone or a general telephone, and is connected to the gateway apparatus 3A through an analog line.
[0022]
The gateway device 3A (same as the gateway device 3B) includes a bypass switch (bypass SW) 11, a filter unit 12, a public line interface unit 13, a subscriber circuit 14, a codec unit 15, a control / VoIP processing unit 16, and an IP line interface unit. 17.
[0023]
The bypass switch 11 connects the telephone 2 </ b> A to the filter unit 12 when the telephone 2 </ b> A performs communication via the public telephone network 5. The standby state of the bypass switch 11 may be a connection state with the filter unit 12 or a non-connection state with the filter unit 12.
[0024]
The filter unit 12 limits the call signal to the public telephone network 5 to a voice band restricted by the public telephone network 5 regardless of whether the telephone 2A is a broadband telephone or a general telephone. When the telephone 2A is a general telephone, the call signal from the telephone 2A is already restricted, so the filter unit 12 functions effectively when the telephone 2A is a broadband telephone. The filter unit 12 may function only when the telephone 2A is a broadband telephone, and may not perform any processing when the telephone 2A is a general telephone. Further, the filter unit 12 may also filter a call signal directed to the telephone 2A.
[0025]
The public line interface unit 13 performs an interface with the public telephone network 5. When the telephone 2A is a broadband telephone, the public line interface unit 13 also has a function of matching the call voltage, the call current, and the like with the regulations of the public telephone network 5.
[0026]
The subscriber circuit 14 performs an interface with the telephone 2A. The subscriber circuit 14 may directly provide the control / VoIP processing unit 16 with an off-hook detection signal, a detected call destination number, or the like.
[0027]
The codec unit 15 converts a signal (call control signal or call signal) given from the telephone 2A side through the subscriber circuit 14 into a digital signal, or from the public telephone network 5 side through the public line interface unit 13. A given signal (call control signal) is converted into a digital signal. Further, the codec unit 15 converts a digital signal (call control signal or call signal) from the control / VoIP processing unit 16 to the telephone 2A side into an analog signal and gives it to the subscriber circuit 14, or the control / VoIP processing unit 16 A digital signal (call control signal) from the telephone to the public telephone network 5 side is converted into an analog signal and given to the public line interface unit 13.
[0028]
In the case of the first embodiment, the codec unit 15 varies the sampling frequency (or data rate) depending on the type of the telephone 2A connected when the telephone 2A communicates via the IP network 4.
[0029]
For example, when the telephone 2A is a general telephone, 8KHz is applied as the sampling frequency, and when the telephone 2A is a broadband telephone having a voice band of 7KHz or less, 16KHz is applied as the sampling frequency, and the telephone 2A is 20KHz or less. 44KHz is applied as a sampling frequency in the case of a wide-band telephone having a voice band of. Note that 44 KHz is applied as the sampling frequency only when a personal computer or the like is connected to the gateway device 3A via a LAN line. Depending on the type of the telephone 2A, only switching between 8 KHz and 16 KHz is possible. May be performed.
[0030]
The control / VoIP processing unit 16 is composed of, for example, a one-chip processor, and controls the overall operation of the gateway device 3A and performs VoIP processing such as assembly and disassembly of IP packets.
[0031]
The codec unit 15 is mainly responsible for A / D conversion and D / A conversion, and the control / VoIP processing unit 16 performs encoding before assembling the IP packet and decoding after decomposing the IP packet. Yes.
[0032]
The IP line interface unit 17 performs an interface with the IP network 4.
[0033]
(A-2) Operation of the first embodiment
(A-2-1) Telephone identification operation
First, the operation and method for identifying whether the telephone 2A to which the gateway device 3A is connected is a broadband telephone or a general telephone will be described for three types (a) to (e). Note that the identification result is used for switching the sampling frequency in the codec unit 15 and for performing filtering in the filter unit 12. The identification timing may be only when the gateway device 3A is activated (for example, when the power is turned on), or may be at the start of call processing such as off-hook.
[0034]
(A) The gateway device 3A has a connector for connecting to a broadband telephone and a connector for connecting to a general telephone separately. The gateway apparatus 3A determines which connector the control / VoIP processing unit 16 is connected to. Determine the type. Alternatively, a connector having one connecting connector to the telephone 2A but having a pin that moves forward and backward is applied, and a connector for a broadband telephone that retracts the pin as a connector of the connecting line from the telephone 2A and the pin are retracted. A connector for a general telephone that is not moved is kept separate, and the type of the telephone 2A is determined by determining which connector the control / VoIP processing unit 16 is connected to, depending on the presence or absence of a pin retraction.
[0035]
(B) The gateway device 3A is provided with an operation switch (for example, a dip switch) for identifying whether the connected telephone 2A is a broadband telephone or a general telephone, and the control / VoIP processing unit 16 is in the state of the operation switch. Thus, the type of the telephone 2A is determined.
[0036]
(C) The subscriber circuit 14 has a built-in physical characteristic measuring unit in the connection line with the telephone 2A. Based on the measured value, the control / VoIP processing unit 16 compares the stored information with the internal storage information. Determine the type. Examples of the physical characteristics that can be used in this way include standby voltage, telephone line voltage, telephone ground voltage, telephone current, off-hook tone (frequency and pattern), PB signal reception, and DP signal reception.
[0037]
(D) A measurement unit for the output physical characteristics from the subscriber circuit 14 to the telephone 2A is built in the subscriber circuit 14, and the control / VoIP processing unit 16 determines whether the internal storage information and The type of the telephone 2A is determined by the verification process. Examples of output physical characteristics that can be used in this way include ringer output voltage, ringer output frequency, ringer pattern, transmission PB signal, identification tone transmission, high-frequency tone transmission, and modem signal transmission / reception. That is, it is only necessary to apply different characteristics between the response by the broadband telephone and the response by the general telephone. Depending on the characteristics, it is necessary that the broadband telephone is intentionally different from the response by the general telephone.
[0038]
The identification methods (c) and (d) described above may be determined by a combination of a plurality of characteristics. Here, the combination of the plurality of characteristics may be a combination of the characteristics related to the identification method (c) and the characteristics related to the identification method (d).
[0039]
(E) In the identification methods (c) and (d) described above, the control / VoIP processing unit 16 autonomously discriminates the type of the telephone 2A, but it may be as follows. A server 6 on the IP network 4 is provided with a database storing correspondence information between characteristic measurement values and telephone types, and the control / VoIP processing unit 16 gives the measurement values to the server 6 to obtain the type information of the telephone 2A as a server. 6 may be obtained.
[0040]
Note that, as a modified example in this case, instead of obtaining the type information of the telephone 2A from the server 6, it is also possible to obtain the change content itself of the characteristics such as the sampling frequency. The type identification in this case is performed by the gateway device 3A.
[0041]
(A-2-2) Communication operation
When the user dials the destination telephone (2B) that uses the public telephone network 5 by off-hooking the telephone 2A, a PB signal related to the telephone number of the call destination is transmitted from the telephone 2A, which is the subscriber. It is detected by the circuit 14 (its PB signal detection unit) and given to the control / VoIP processing unit 16, and is determined as communication via the public telephone network 5.
[0042]
At this time, the control / VoIP processing unit 16 brings the bypass switch 11 into a connection state with the filter unit 12. That is, if the standby state of the bypass switch 11 is connected to the filter unit 12, the state is maintained. If the standby state of the bypass switch 11 is not connected to the filter unit 12, the connected state is established. At this time, the control / VoIP processing unit 16 also performs processing for stopping the communication function unit with the IP network 4 side.
[0043]
Further, if the filter unit 12 functions only when the telephone 2A is a broadband telephone, the filter unit 12 is effectively operated according to the identification result of the telephone 2A described above. In this state, the call signal transmitted from the telephone 2A, which is a broadband telephone, is given to the filter unit 12 via the bypass switch 11, and after being limited to the band allowed by the public telephone network 5, The data is sent to the public telephone network 5 through the line interface unit 13.
[0044]
When the telephone 2A is a general telephone, the call signal sent from the telephone 2A passes through the bypass switch 11 and then simply passes through the filter unit 12 or is allowed by the public telephone network 5 by the filter unit 12. And is sent to the public telephone network 5 through the public line interface unit 13.
[0045]
The call signal from the public telephone network 5 received by the public line interface unit 13 is also appropriately filtered by the filter unit 12 and then sent to the telephone set 2A via the bypass switch 11.
[0046]
When the user dials the destination telephone (2B) using the IP network 4 by off-hooking the telephone 2A, a PB signal related to the telephone number of the calling party is sent from the telephone 2A, which is the subscriber circuit. 14 (the PB signal detection unit) and the control / VoIP processing unit 16 determines that the communication is via the IP network 4.
[0047]
At this time, the control / VoIP processing unit 16 sets the sampling frequency (or data rate) of the codec unit 15 according to the identification result (general phone or broadband phone) of the telephone 2A described above. At this time, the control / VoIP processing unit 16 also performs a process of setting the bypass switch 11 in a disconnected state or a process of maintaining the disconnected state.
[0048]
In this state, the call signal sent from the telephone 2A is given to the codec unit 15 via the subscriber circuit 14, converted into a digital signal at the set sampling frequency, and the control / VoIP processing unit 16 sets the IP signal. After the packets are assembled, they are sent to the IP network 4 via the IP line interface unit 17.
[0049]
A call signal (IP packet) from the IP network 4 side is also processed in the codec unit 15 at a sampling frequency set according to the type of the telephone 2A.
[0050]
When an incoming call is received from the public telephone network 5 side, the call control signal is given to the codec unit 15 via the public line interface unit 13, and is given to the digital signal at the sampling frequency in the standby state. The VoIP processing unit 16 recognizes an incoming call from the public telephone network 5 side. At this time, the control / VoIP processing unit 16 performs a control operation similar to that at the time of calling from the telephone 2A to the public telephone network 5 side.
[0051]
When an incoming call is received from the IP network 4 side, the control / VoIP processing unit 16 recognizes this by receiving a signal from the IP line interface unit 17, and transmits the call from the telephone 2 A to the IP network 4 side. A control operation similar to that at the time of calling is performed.
[0052]
(A-3) Effects of the first embodiment
When the telephone 2A connected to the gateway device 3A is a broadband telephone, the filter unit 12 limits the bandwidth when accessing the public telephone network 5, so that the technical conditions of the public telephone network 5 can be satisfied. Even if the other technical conditions are not satisfied by the broadband telephone 2A, the functions of the public line interface unit 13 are satisfied.
[0053]
When accessing the IP network 4, the sampling frequency of the codec unit 15 is changed depending on the type of the connected telephone 2 </ b> A. Therefore, the IP network 4 Communication can be executed, and call quality can be improved.
[0054]
By having the identification function of the telephone 2A to which the gateway device 3A is connected, the above effect can be effectively exhibited.
[0055]
(B) Second embodiment
Next, a second embodiment of a telephone, a voice communication device, and a voice communication system according to the present invention will be described with reference to the drawings.
[0056]
The overall configuration of the voice communication system according to the second embodiment can be represented by FIG. 1 according to the first embodiment. The second embodiment is mainly characterized by a broadband telephone (2A) that can be connected to the gateway device 3A. Note that the broadband telephone of the second embodiment may be directly connected to the IP network 4 or may be directly connected to the public telephone network 5.
[0057]
FIG. 2 is a block diagram illustrating a configuration of the broadband telephone 20 according to the second embodiment. The broadband telephone 20 includes a transmitter 21, a transmitter 22, an office line interface 23, a receiver 24, a receiver 25, and a controller 26.
[0058]
The transmission unit 22 has a variable transmission band (for example, has a variable filter therein), for example, an audio mode in which the transmission band is 20 KHz, a wideband mode in which the transmission band is 7.1 KHz, 3 It can be switched between narrow-band modes with a transmission band of 1 KHz. Note that the standby mode is a wideband mode.
[0059]
The receiving unit 24 also has a variable reception band, and can be switched between, for example, an audio mode, a wideband mode, and a narrow band mode. Note that the standby mode is a wideband mode.
[0060]
The office line interface unit 23 includes a mode switching trigger signal detection unit 23A from the network side, and gives a detection result to the control unit 26 when the detection unit 23A performs a detection operation.
[0061]
As the mode switching trigger signal from the network side, for example, the audio mode is a signal (and its signal pattern) of any frequency within the range of 20 KHz to 7.1 KHz, and the wideband mode is 7.1 KHz to 3.1 KHz. The signal (and its signal pattern) of any frequency within the range of is a signal (or its signal pattern) of any frequency within the range of 3.1 KHz to 0 KHz in the narrow band mode. it can. Such a trigger signal can also be applied when the broadband telephone 20 is directly connected to the IP network 4 or the public telephone network 5.
[0062]
Further, as the mode switching trigger signal from the network side, different signals can be used between the public telephone network 5 and the IP network 4 such as a two-line voltage, a ground voltage, a ringer voltage, a PB signal, and a modem signal during a call.
[0063]
The control unit 26 controls the entire broadband telephone 2, and includes not only general control as a telephone but also variable control and reception of the transmission band of the transmission unit 22 according to the detection result of the detection unit 23 </ b> A. The reception band variable control of the unit 24 is also performed.
[0064]
The gateway device 3A may intentionally generate and output the above-described mode switching trigger signal, or may pass through as it arrives from the public telephone network 5 or the IP network 4 side. For example, when the control / VoIP processing unit 16 (see FIG. 1) cannot determine the type of the telephone 2A, the mode switching trigger signal described above is intentionally generated and output by the subscriber circuit 14 or the like. good.
[0065]
As described above, according to the second embodiment, since the transmission band and the reception band are switched according to the type of network that the broadband telephone uses for communication, high-quality voice communication is executed regardless of the type of network. can do.
[0066]
(C) Other embodiments
In the first embodiment described above, the gateway device changes the presence / absence of filtering and the sampling frequency in accordance with the type of the connected telephone, but the in-channel signal exchanged between the gateway device and the telephone is shown. It may be changed. For example, the voltage or pattern of a PB signal, a ringer signal, a tone signal, a modem signal, a two-line voltage during a call, a voltage between grounds, or the like may be changed. For the PB signal, the ringer signal, the tone signal, the modem signal, and the like, it is sufficient to prepare a generator that varies depending on the telephone type. For example, when the gateway apparatus has an echo canceller, the initial coefficient of the adaptive operation at the start of the call may be changed depending on the type of the telephone.
[0067]
In addition, the above-mentioned predetermined characteristics and the amount of change in the predetermined physical quantity to be changed according to the telephone type are stored in the server database on the IP network, and the gateway device gives the telephone type to the server. The change amount may be taken out and the change amount of the variable element may be set.
[0068]
In the second embodiment, the telephone (broadband telephone) has shown that the characteristics to be changed according to the mode switching trigger signal from the network side are the transmission characteristics and the reception characteristics. There may be other characteristics and physical quantities. For example, the voltage or pattern of the PB signal, tone signal, or modem signal, the voltage between two lines during a call, the voltage between grounds, or the like may be changed.
[0069]
The telephone may change the characteristics of the in-channel signal exchanged between the voice communication apparatus and the telephone in response to a change command from the gateway apparatus side. The gateway device may obtain a change command by collating the measurement result of the measurement unit in the subscriber circuit with the internal storage information in the control / VoIP processing unit 16, but may also be as follows.
[0070]
The frequency characteristics from the office line interface unit to the handset, the transmitter, etc., for each type of telephone (here, the type includes the same type of telephone, even if the content of the change command differs) Measure acoustic characteristics such as frequency characteristics (for example, loudness rating value) from to the line interface unit. This measurement is performed, for example, by a quality measurement organization. Based on the measured value, a conversion command of “in-channel signal conversion data or conversion software (for example, signal processing program)” that matches the characteristics of the telephone is registered in a server on the IP network. Note that the conversion software may be realized by a program pattern (for example, five types) that is made into a menu.
[0071]
The gateway device obtains conversion data or conversion software based on identification information such as measurement values obtained by the subscriber circuit. In the case of conversion software, conversion data is obtained by applying it to measured values and the like. The conversion data (conversion command) obtained in this way is given to the telephone to change the characteristics of the in-channel signal on the telephone.
[0072]
A similar method can be applied to the change of the in-channel signal and other characteristics on the gateway device side.
[0073]
For example, when an IP network is applied, the frequency characteristics are flattened over the entire band allowed by the IP network by changing the characteristics of the in-channel signal of the telephone or gateway device.
[0074]
Further, in each of the above-described embodiments, the gateway device variably sets various characteristics only by the type of the telephone connected to itself. However, for example, negotiation is performed from the opposite gateway device (or telephone). Thus, the type of the opposite phone may be taken in, and various characteristics may be variably set based on the type of both phones. For example, various characteristics are variably set based on the type of communication quality that deteriorates.
[0075]
In the above embodiments, the voice communication device of the present invention is a gateway device. However, the voice communication device of the present invention is not limited to the gateway device, and a telephone (for example, a general telephone) is connected to an IP network. It may be a dedicated device or a dedicated device for connecting a telephone (for example, a broadband telephone) to a public telephone network.
[0076]
The gateway device is not limited to a separate device from the telephone, and may be incorporated in the telephone (may be incorporated as an additional element or may be incorporated from the beginning).
[0077]
【The invention's effect】
As described above, according to the present invention, it is possible to realize high-quality communication with wideband voice communication, or to appropriately cope with voice communication via the public telephone network while applying a broadband-compatible device or the like. Can do.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a voice communication system according to a first embodiment.
FIG. 2 is a block diagram illustrating a configuration of a telephone according to a second embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Voice communication system, 2A, 2B, 20 ... Telephone, 3A, 3B ... Gateway apparatus (GW apparatus), 4 ... IP network, 5 ... Public telephone network, 6 ... Server, 11 ... Bypass switch, 12 ... Filter part, DESCRIPTION OF SYMBOLS 14 ... Subscriber circuit, 15 ... Codec part, 16 ... Control and VoIP processing part, 22 ... Transmission part, 23 ... Office line interface part, 24 ... Reception part, 26 ... Control part.

Claims (14)

In a voice communication apparatus to which either a general telephone or a broadband telephone is connected and intervened between the telephone and the public telephone network,
A voice communication apparatus comprising filter means for signal conversion so as to satisfy a signal condition in the public telephone network. In a voice communication apparatus to which either a general telephone or a broadband telephone is connected and intervened between the telephone and the broadband communication network,
Telephone type identification means for identifying the type of the connected telephone;
A voice communication apparatus comprising: a changing unit that changes at least a sampling frequency when sampling an analog signal from the telephone according to the identified telephone type. A telephone that can be connected to a public telephone network or a broadband communication network, and a determination means for determining whether the network is a public telephone network or a broadband communication network from a signal capable of determining a network type from the network side;
A telephone having at least changing means for switching a communication band to the network side according to the determination result. 4. The telephone set according to claim 3, wherein the discriminable signal uses the fact that the frequency band differs between a public telephone network and a broadband communication network. In a voice communication system having either a general telephone or a broadband telephone, and the voice communication apparatus connected to the telephone, and a voice communication device interposed in communication with the public telephone network and / or the broadband communication network,
The voice communication device includes network type signal sending means for sending a signal capable of discriminating the type of network to the telephone,
The telephone is based on a signal that can determine the type of the incoming network, and discriminating means for discriminating whether the network is a public telephone network or a broadband communication network;
A voice communication system comprising: changing means for switching at least a communication band to the network side according to the determination result. In a voice communication system having either a general telephone or a broadband telephone, and the voice communication apparatus connected to the telephone, and a voice communication device interposed in communication with the public telephone network and / or the broadband communication network,
The voice communication device is
Telephone type identification means for identifying the type of the connected telephone;
A voice communication system comprising voice communication device side changing means for changing characteristics of an in-channel signal exchanged between the telephone and the voice communication device according to the identified telephone type. In a voice communication system having either a general telephone or a broadband telephone, and the voice communication apparatus connected to the telephone, and a voice communication device interposed in communication with the public telephone network and / or the broadband communication network,
The voice communication device is
Telephone type identification means for identifying the type of the connected telephone;
A change command output means for giving the phone a characteristic change command according to the identified telephone type,
The above phone
A voice communication system comprising telephone side changing means for changing characteristics of an in-channel signal exchanged between the voice communication apparatus and the telephone in response to a characteristic change command. The change command output means transmits a signal from the telephone or information on characteristic values managed by the telephone obtained by the telephone type identification means, or a signal to the telephone, or a connection line with the telephone. The response value of the telephone or response change information or the identified telephone type is given to the telephone type database provided on the broadband transmission path, and the telephone type is changed. 8. The voice communication system according to claim 7, wherein a characteristic change command is obtained from a database and output to the telephone set. The database for each telephone type stores characteristic change commands formed based on the frequency characteristics from the office line interface unit to the handset of the telephone and the frequency characteristics from the transmitter to the station line interface unit that are measured in advance. The voice communication system according to claim 8, wherein 10. The telephone type identifying means for identifying the type of the telephone based on a signal from the telephone or a characteristic value managed by the telephone. Voice communication system. The telephone type identification means transmits a signal to the telephone or changes a characteristic value of a connection line with the telephone and identifies the type of the telephone based on a response signal or a response change of the telephone with respect thereto. The voice communication system according to any one of claims 6 to 9, wherein The telephone type identification means sends a signal from the telephone or information on a characteristic value managed by the telephone, or sends a signal to the telephone, or changes a characteristic value of a connection line with the telephone. 7. The telephone response signal or response change information is given to a telephone type database provided on the broadband transmission path, and the telephone type is obtained from the telephone type database. The voice communication system according to any one of? The voice communication device side changing means sends out a signal from the telephone or information on characteristic values managed by the telephone, or a signal to the telephone, obtained by the telephone type identifying means, or with the telephone. The characteristic value of the connection line is changed, and the response signal or response change information of the telephone or the identified telephone type is given to the telephone type database provided on the broadband transmission path, and the telephone 7. The voice communication system according to claim 6, wherein a characteristic change content is obtained from a database for each type, and a characteristic of an in-channel signal exchanged between the telephone and the voice communication apparatus is changed. Further comprising a counter telephone type capturing means for capturing the type information of the counter telephone facing the telephone from the counter telephone side via the public telephone network or the broadband communication network;
The voice communication device side changing means is an interface that is exchanged between the telephone and the voice communication device according to the telephone type identified by the telephone type identification means and the opposite telephone type taken in by the opposite telephone type taking-in means. 14. The voice communication system according to claim 6, wherein the characteristics of the channel signal are changed.

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