JPH08195788A - Communication method and communication terminal equipment - Google Patents

Abstract

PURPOSE: To effectively utilize a data transmission capacity by eliminating an idle state of a channel when one information channel is divided into two sub-channels for digital/ISDN communication. CONSTITUTION: A communication terminal equipment 6 is provided with a call control information signal processing circuit 2 to send a connection request channel of a 2nd call to a channel, to send an interrupt request of a sub channel to the sub channel and to monitor call control information received via the channel and the sub channel. Thus, a call data transmission capacity is changed dynamically to improve the efficiency. Furthermore, a G.711 and G.721 coder/ decoder and a PB signal generating/detection circuit form the call control information signal processing circuit 2 to apply a communication terminal equipment as an ISDN communication terminal equipment and a digital cordless telephone set or the like.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication method and a communication terminal device, and more particularly to a communication terminal device connected to a digital network, in which one channel of the digital network is divided into two sub-channels for use. Or if ISD
In N (Integrated Services Digital Network) communication, when a B channel with an ISDN data transmission capacity of 64 kbps is divided into two subchannels and used, the call data transmission capacity is dynamically increased during communication. It's about what you're trying to control.

[0002]

2. Description of the Related Art Conventionally, in digital communication, when the data transmission capacity per channel is Nbps (N is a positive number), one channel has a data transmission capacity of Nb.
It can be divided into a plurality of sub-channels of ps or less for use, and one channel of B channel having a data transmission capacity of 64 kbps in ISDN communication can be divided into a plurality of sub-channels of 64 kbps or less. It can be used by dividing it into sub-channels (however, in these cases, the total data transmission capacity of the sub-channels divided into multiple sub-channels does not exceed 64 kbps). Time division multiplexing, which is used by dividing, is adopted as a typical method. However, in these communication methods, the data transmission capacity assigned to one call is fixed from the beginning, and it is impossible to change the data transmission capacity of an already connected call during communication.

[0003]

As described above, the conventional communication system connected to the digital network and used by dividing one channel into a plurality of sub-channels, or ISDN.
In the conventional communication method in which one B channel is divided into a plurality of subchannels and used, the data transmission capacity is fixed from the beginning for each call. There may be an idle data transmission capacity that has not been performed, and even with such a sub-channel, the data transmission capacity of the sub-channel cannot be effectively used for an already connected call.

The present invention has been made in view of the above circumstances, and an object thereof is to convert one information channel into two sub-channels having a data transmission capacity lower than the data transmission capacity of the channel in digital communication. A communication terminal and a communication terminal device that provide a communication terminal and a communication terminal device that perform communication by dividing the communication channel so that a free state is eliminated and the data transmission capacity of the information channel can be effectively used to improve usage efficiency. Another object of the present invention is to provide an idle state in ISDN communication in which one information channel (B channel) is divided into two sub-channels having a data transmission capacity lower than the data transmission capacity of the information channel. Lost
It is an object of the present invention to provide a communication method that enables effective use of the data transmission capacity of the information channel and improves the usage efficiency.

[0005]

In order to solve the above-mentioned problems, the present invention (1) divides the data transmission capacity of one channel into two sub-channels equal to or less than the data transmission capacity in digital communication. In the communication method to be used, when a connection request for a new call occurs in the state where the channel is used as one communication path between communication terminals, a new call is made using the channel already in communication. By exchanging call control information, the data transmission capacity of the call during communication is dynamically changed from the total data transmission capacity of the channel to the data transmission capacity of the sub-channel, and the empty data transmission capacity generated in the channel is held. By assigning the other sub-channel to the new call channel,
In a state where both an existing call and a new call are simultaneously connected with one channel to enable communication, and two calls are simultaneously connected with two sub-channels between communication terminals, If a disconnect request for one call occurs,
By exchanging call control information for a call for which a disconnection request has been generated using one of the subchannels,
Disconnecting a call for which a disconnection request has occurred, and dynamically changing the data transmission capacity assigned to a call that does not disconnect from the data transmission capacity of the subchannel to the total data transmission capacity of the channels not divided into subchannels Due to
Dynamically controlling the data transmission capacity that enables the total data transmission capacity of the channel to be allocated as a call communication path without disconnecting, or (2) by digital communication, 1
In a communication terminal device divided into two sub-channels having a transmission capacity equal to or less than the data transmission capacity of one channel, a signal received from a communication terminal on the other side through the channel and the sub-channel is monitored, and a call control information signal In the case of having a call control information signal processing circuit for generating a call and connecting only one call between communication terminals, communication is performed using the total data transmission capacity of the channel without dividing the channel into sub-channels. When a connection request for a new call is generated while one call is already connected, a call control information signal generated from the call control information signal processing circuit is transmitted using a channel to which the already connected call is connected. , Exchange as call connection information of a call for which a new connection request is generated, divide the channel to which an already connected call is connected into two subchannels, and For a call, the data transmission capacity is switched from the total data transmission capacity of the channel to the data transmission capacity of a sub-channel obtained by dividing the channel, and communication is performed. For a new call, the sub-allocation assigned to the already connected call By allocating the other subchannel different from the channel as a communication path, two calls can be connected simultaneously, and by dividing one channel into two subchannels between communication terminals, two calls can be executed simultaneously. When disconnecting one of the two calls in the connected state, the call control generated from the call control information signal processing circuit by using one of the two subchannels. An information signal is exchanged as call disconnection information to disconnect the call for which a disconnection request has been issued. To perform communication by switching to communication using the total data transmission capacity of the channel is not divided into sub-channels from the communication using, furthermore,
(3) In (2) above, in the call control information signal processing circuit for exchanging call control information in the communication terminal device, the call control information signal transmission circuit converts the connection request or the disconnection request into a PB signal. A PB signal generation circuit,
A PCM encoder that encodes the call control information by the PB signal converted from the connection request by the PB signal generation circuit and sends it to the B ₁ channel, and the call control information by the PB signal that has converted the disconnection request by the PB signal generation circuit. And an ADPCM encoder for transmitting the call control information to a sub-channel for simplification of call control information transmission. Further, (4) In the above (2), call control in the communication terminal device. In a call control information signal processing circuit for exchanging information, the call control information signal monitoring circuit includes a PCM decoder for receiving a PB signal via a B ₁ channel,
An ADPCM decoder for receiving a PB signal through a sub-channel and a PB signal detection circuit for detecting the PB signal, which is connected to the both decoders, are provided to simplify the call control information detection. Or, (5) ISDN
In a communication method in which the data transmission capacity of one B channel is divided into two sub-channels equal to or less than the data transmission capacity in communication, the B channel is used as one communication path between communication terminals. , When a connection request for a new call is generated, the call control information for the new call is exchanged using the D channel packet so that the data transmission capacity of the call being communicated can be changed to the total data transmission capacity of the B channel. Existing in one B channel by dynamically changing from one subchannel to the subchannel data transmission capacity, and by allocating the other subchannel having the empty data transmission capacity generated in the channel to a new call communication path. It is possible to connect and communicate both calls of new call and new call at the same time, and use two sub-channels between communication terminals to make two calls. When a disconnection request for one of the calls is made while the connection is sometimes made, the D-channel packet is used to exchange the call control information for the call for which the disconnection request is generated, and thus the call for which the disconnection request is generated is made. The total data transmission capacity of the B channel is dynamically changed from the data transmission capacity of the sub-channel to the total data transmission capacity of the B channel which is not divided into sub-channels. Dynamically controlling the data transmission capacity that allows the data transmission capacity to be allocated as a communication channel of a call without disconnecting, or (6) the data transmission capacity of one B channel in ISDN communication. In the following communication method to be used by dividing into two sub-channels, B is used between communication terminals.
When a connection request for a new call is generated while using the channel as one communication path, call control for the new call is performed using user information, which is one of the call control messages in the circuit switching mode. By exchanging information, the data transmission capacity of a call during communication is dynamically changed from the total data transmission capacity of the B channel to the data transmission capacity of the sub-channel, and the empty data transmission capacity generated in the channel is thereby changed. By allocating the other sub-channel that it has to the communication path of a new call, it is possible to connect and communicate both an existing call and a new call at the same time with one B channel, and also between communication terminals. If two calls are simultaneously connected using two sub-channels, and if a disconnection request for one call occurs, the user information is used to disconnect. The call for which a disconnection request has occurred is disconnected by exchanging the call control information for the call for which the request has occurred, and the data transmission capacity assigned to the call that is not disconnected is not divided from the subchannel data transmission capacity to the subchannels. By dynamically changing the total data transmission capacity of the B channel in the state, it is possible to dynamically control the data transmission capacity that enables the total data transmission capacity of the B channel to be assigned as a communication path of a call that does not disconnect. It is a feature.

[0006]

According to the present invention, a communication terminal apparatus is used in a digital communication in which an information channel having a certain data transmission capacity is divided into two subchannels having a transmission capacity less than the data transmission capacity for use. When connecting only one call, communication is performed using the data transmission capacity of all the information channels, and when a new call is connected in addition to the call being communicated, The data transmission capacity is dynamically switched to the data transmission capacity of the sub-channel, whereby the surplus data transmission capacity is allocated to a new call and used, and the communication terminal device multiplexes two calls into one channel and connects them at the same time. If one of the calls is disconnected during the call, the call for which the disconnect request is issued is disconnected and the data transmission capacity of the other call during communication is dynamically supported. Is switched from the transmission capacity of a channel to the total data transmission capacity of the information channel, with efficient use of data transmission capacity, it becomes possible to reduce communication costs.

Further, the call control information signal transmitting circuit and the monitoring circuit include a PB signal generating circuit / detecting circuit and an ITU (Intern
National Telecommunication Union: T Recommendation G.711 PCM (Pulse Code Modul)
ation: pulse code modulation) encoder / decoder and I
TU-T solicitation G.721 ADPCM (Adaptive Differ)
entical Pulse Code Modulation) by using an encoder / decoder
It facilitates application to DN communication terminal devices and RCR (Radio System Development Center) STD-28 compliant digital cordless telephones.

According to another aspect of the present invention, in ISDN communication, a communication terminal uses a communication method in which a B channel is divided into two subchannels having a transmission capacity equal to or less than its total data transmission capacity. When connecting only one call, communication is performed using the data transmission capacity of all B channels, and when connecting a new call for which a connection request has been made in addition to the call during communication, call control is performed. By exchanging information, the data transmission capacity of the call during communication is dynamically switched from the total data transmission capacity to the data transmission capacity of the sub-channel, and the surplus data transmission capacity of the other sub-channel is newly changed. Assigned to a call and used
When a communication terminal connects two calls at the same time by using two subchannels of one B channel, if there is a disconnection request for one of the calls, exchange of call control information is performed. Thus, the call for which the disconnection request is made is disconnected, and the data transmission capacity of the other call in communication is dynamically switched from the transmission capacity of the sub-channel to the total data transmission capacity of the B channel for communication. It is possible to effectively use the data transmission capacity and reduce the communication cost.

Further, the exchange of the above call control information is performed by the D
Since the channel packet is used, the data transmission capacity of the sub-channel can be switched during communication without causing any trouble in the B-channel. Further, as a method of exchanging the call control information, a method different from the one described above is used by using a call control message in the circuit switching mode. Therefore, in both the D channel and the B channel. It can be handled as one of the control messages, the data transmission capacity of the sub-channel can be switched during communication without the need for a packet handler, and the call control message can be used as user information so that an existing message can be obtained. Since the type can be used, it is practically advantageous.

[0010]

1 and 2 are flow charts for explaining an embodiment of a communication method according to claim 1 of the present invention. Below, ISDN (Integrated Services Digial)
Communication by a network integrated network (Network) will be described in order according to each step (S) as a representative example of digital communication. First, a case will be described with reference to FIG. 1 where information regarding call control is generated from the own communication terminal. In order to simplify the explanation, ISDN
Two B channels (B ₁ channel and B ₂ channel)
Of these, only the B ₁ channel can be divided into two sub-channels.

First, an initial state (S ₁ ) in which an information channel (B ₁ channel) that can be divided into sub-channels is not connected
0), when a call connection request is generated (S1), D
The B ₁ channel is connected by the call control procedure by the channel (S2), and the total data transmission capacity of the B ₁ channel (64 kb
communication is started by using all (ps) (S3). When call control information is generated in the state of step S3 (S
4), it is determined whether the generated call control information is information regarding a connection request or a disconnection request (S5),
When it is determined that the connection request is made, the call control information relating to the connection request is exchanged with the partner communication terminal using the B ₁ channel (S6). When the process of S6 is completed, the B ₁ channel is divided into two sub-channels B ₁₁ and B ₁₂ , and communication is performed by both the already connected call and the call for which a new connection request is made through the two sub-channels. Is performed (S7).

Here, regarding which one of the two sub-channels B ₁₁ and B ₁₂ the already-connected call and the call for which a new connection request is made are allocated, the sub-channel allocation is configured before the communication terminal is used. It is possible to use the B ₁ channel and negotiate with the other communication terminal during the exchange of call control information using the B ₁ channel. When it is determined in step S5 that the generated request is a disconnection request, the B ₁ channel is disconnected by the call control procedure by the D channel (S8),
The communication is ended and the process returns to step S0.

In the state of step S7, 2 during communication
When a disconnection request for any of the two calls is generated (S9), it is determined whether the generated disconnection request is a disconnection request for B ₁₁ or B ₁₂ of the subchannel (S10). In step S10,
When it is determined that the disconnection request is for B _{11, the} call control information regarding the disconnection request is exchanged with the partner communication terminal using an arbitrary subchannel (S11), and the call communicated in B ₁₁ is disconnected. (S12), step S12
When the processing of step 1 is completed, the division of the B ₁ channel into two subchannels is completed, and the data transmission capacity of the call being communicated at B ₁₂ is expanded to the total data transmission capacity of the B ₁ channel,
The communication is switched to the communication using the entire data transmission capacity of the B ₁ channel (S3).

Further, in step S10, when the disconnection request is determined to be disconnection request for a call during communication in B _12, a partner communication terminal exchanges call control information on disconnection request using any subchannel Between (S1
3), the call communicated in B ₁₂ is disconnected (S14).
When the process of step S14 ends, the B ₁ channel is set to 2
Exit be divided into One subchannel extending the data transmission capacity of calls in communication with B ₁₁ to the total data transmission capacity of B ₁ channel, switching to communication using all data transmission capacity of B ₁ channel (S3)

Next, referring to FIG. 2, a case will be described in which information about call control is generated from the partner communication terminal.
However, if the B ₁ channel is not connected, B ₁
Regarding the state transition until the channel is connected and the communication using the data transmission capacity of 64 kbps is started, the steps S0 to S described with reference to FIG.
This is the same as the state transition up to 3. Similarly, in a state where communication is performed through one communication path using the total data transmission capacity of the B ₁ channel, a disconnection request for a call during communication is D
The state transition when it is sent from the partner communication terminal via the channel is the same as the state transition returning from step S5 to step S8 in FIG. 1 to step S0.

First, in the same state as step S3 in FIG. 1, that is, in the state where the B ₁ channel is connected and the communication using the total data transmission capacity of the B ₁ channel is being performed, the communication terminal device makes a new call. Connection request to B ₁
Both call when receiving via the channel (S6 '), divides the B ₁ channel to the two subchannels of B ₁₁ and B _12, a connection request to the call and the new currently connected through the two sub-channels occurs Communication by the call of (S)
7). Here, regarding which of the two sub-channels B ₁₁ and B ₁₂ the already-connected call and the call for which a new connection request is made are allocated, the sub-channel allocation is configured before using the communication terminal. A method and a method of negotiating with the partner communication terminal in the exchange of call control information using the B ₁ channel can be considered.

[0017] In the state of the step S7, the communication terminal apparatus receives the call control information on disconnection request call through any subchannel (S11 '), disconnect request cut for B _11, B ₁₂ any subchannels It is determined whether it is a request (S15). In step S15, it is determined to have been cut request to B _11, and disconnects the call that has been communicated subchannel B ₁₁ (S1
2). When the process of step S12 ends, the division of the B ₁ channel into two subchannels ends, and the data transmission capacity of the call being communicated on the subchannel B ₁₂ is expanded to the total data transmission capacity of the B ₁ channel. The communication is switched to the communication using the entire data transmission capacity of the B ₁ channel (S3).

Further, in step S15, disconnection request when it is determined that the disconnection request for a call during communication in B _12, and disconnects the call that has been communicated subchannel B ₁₂ (S14). When the process of step S14 ends, B ₁
Exit to divide the channel into two subchannels, to expand the data transmission capacity of calls in communication subchannel B ₁₁ the total data transmission capacity of B ₁ channel, utilizing all of the data transmission capacity of B ₁ channel Switch to the completed communication (S
3). Here, the exchange of call control information in step S11, step S13 and step S11 'is set as an arbitrary sub-channel. There are two methods of exchanging call control information: a method of exchanging call control information using a subchannel in which a disconnection request is generated and a method of exchanging call control information related to a disconnection request in a fixed subchannel. There is a way.

The former method has an advantage that it is easy to identify the subchannel in which the disconnection request has been generated, but the call control information signal must be monitored in both of the two subchannels. In the latter method, the call control information signal and the monitoring circuit need only be provided in one of the sub-channels, so it is possible to make the hardware smaller than in the former method. It is necessary to judge whether or not it is for the sub-channel of.

However, the latter method is effective in an exceptional application in which a predetermined subchannel is always disconnected when a call disconnection request occurs in communication using two subchannels. Hardware can be small. The following applications can be considered as an example of the exceptional applications mentioned here. For example, this is an application in which two calls have different priorities when communication is performed by a communication method using two subchannels. In the case where one of the two calls being communicated is an incidental call to the other call, at the time of disconnection,
There is no problem if you always disconnect from the incidental call.

Of the two calls, one is an incidental call,
The following communication systems are conceivable as communication systems in which the miniaturization of hardware can be expected. For example, it is a communication system whose main purpose is voice communication, and by which information such as images is incidentally transmitted to supplement conversation by voice communication. In such a communication system, a call for exchanging information regarding voice data using a handset or a cordless mobile station included in the communication system becomes more important. The information that can be handled as an incidental call may be facsimile information that is exchanged for the purpose of supplementing the content of voice information or data for transmitting image information from an image information transmission terminal. These pieces of information are often secondary information for smoother communication with the other party, and the main purpose call, that is, the call relating to the exchange of voice data remains connected, and these secondary information are connected. It seems that there is a high rate of connecting information-related calls or disconnecting only those information-related calls when both calls are present.

Therefore, in a state where two calls are simultaneously connected by communication using the sub-channel, it is always decided in advance that the secondary call should be disconnected first, so that the call control information signal It is possible to reduce the hardware in a small scale by providing a circuit for monitoring the signal on only one sub-channel. Also, by dynamically changing the data transmission capacity of the main purpose call, that is, the voice data communication path, it becomes possible to maintain better voice quality.

FIG. 3 is a block diagram for clarifying one embodiment of the communication terminal device according to the present invention, in which 1 is an I / F circuit (interface circuit), 2 is a call control information signal processing circuit, 3 is a communication control unit, 4 is a MUX / DMUX (demultiplexing unit), and 5 is an I / F circuit (interface circuit).

In order to describe the communication terminal device to which the present invention is applied, the following description will be made assuming that the digital network to which the communication terminal device is connected is ISDN, as described above. Although the description will be given with ISDN, the application of the present invention is not limited to ISDN,
It goes without saying that it can be applied to other digital networks such as a dedicated digital line. Further, in FIG. 3, for simplification of description, the data transmission capacity 6 of the ISDN basic interface to which the communication terminal device is connected is shown.
2 B-channels at 4 kbps (B ₁ channel and B ₂ channel
Of the channels), only the B ₁ channel is shown. Here, the B ₁ channel can be divided into sub-channels B ₁₁ and B ₁₂ for use.

In FIG. 3, the communication terminal device has a call control information signal processing circuit 2 and is connected to the B of the ISDN.
_The data input from _one channel and the data input from sub-channels B ₁₁ and B ₁₂ which are logical channels in the B ₁ channel are monitored, and when a call control information signal is detected, it is transmitted to the communication control unit 3. Here, when the call control information signal transmitted via the sub-channel is transmitted using only one sub-channel, it is not necessary to monitor the call control information signal of both sub-channels. Only the subchannel needs to be monitored.

If one call is connected using the total data transmission capacity of the B ₁ channel and a call connection request for a new call is issued, the call connection request information signal is sent in the communication control unit 3. The call control information signal processing circuit 2 is controlled so as to send out using the B ₁ channel. Divide the B ₁ channel into two sub-channels B ₁₁ and B ₁₂
In the state where two calls are connected, when a call disconnection request is generated for any of the calls that are in communication, the call control unit 3 controls the call so that these call control information signals are sent to any subchannel. The information signal processing circuit 2 is controlled.

[0027] More specifically, in a state where the call communication is performed using the total data transmission capacity of B ₁ channel already exists, the new that attempts to communicate with the sub-channel of the B ₁ channel When a call connection request is generated at the communication terminal device, the communication control unit 3 first issues an instruction to the call control information signal processing circuit 2 to send a connection request for a new call. The call control information signal processing circuit 2 transmits a connection request for a new call to the partner communication terminal using the B ₁ channel. A method of sending call control information by temporarily switching a call already in communication in the call control information signal processing circuit 2 when transmitting the call control information to the partner communication terminal;
There are two types of methods, that is, a method of superimposing call control information on the data being communicated and sending it. According to the former method, a call interruption occurs because the call control information is transmitted during the communication of the already connected call, but the user of the already connected call connects the new call for a secondary reason. In this case, there is no problem even with the method of temporarily switching the call during communication to the call control information and transmitting the call control information. The latter method requires new hardware for superimposing the call control information on the information being communicated. As the call control information here, a tone signal such as a PB signal or a digital signal having a pattern recognizable between communication terminals can be used.

Further, in a state where the communication terminal device is already performing communication by two calls using two sub-channels B ₁₁ and B ₁₂ , the communication terminal device issues a disconnection request for the call being communicated by B _11. When it occurs, first, the communication control unit 3
Then, the call control information signal processing circuit 2 is instructed to send a disconnection request for a call using B ₁₁ . The call control information signal processing circuit 2 transmits a disconnection request for a call using B ₁₁ to the partner communication terminal using one of the two subchannels. Similarly to the above, when the call control information is transmitted to the partner communication terminal, the call control information signal processing circuit 2 temporarily switches the call which is already in communication and sends the call control information, and There are two types of methods, that is, a method of superimposing call control information and sending it. here,
If the sub-channel transmitting the call control information is B ₁₁ ,
Since the call control information is transmitted using the sub-channel for which the disconnection request is generated, no problem occurs regardless of which method the call control information is transmitted.

When the sub-channel for transmitting the call control information is B ₁₂ , the call control information is transmitted using the sub-channel unrelated to the disconnection request, so that the call during communication is interrupted momentarily. Is expected to greatly affect communication quality. However, when using the communication terminal device for simultaneous communication of both the main purpose call and the incidental call as described above,
This interruption does not always have a great effect.
For example, it can be assumed that the terminal used for the communication of the call for the main purpose is present at a place distant from the communication terminal device like the cordless mobile station connected to the communication terminal device of the present invention. In such a case, not only the main purpose voice communication is performed by the cordless mobile station, but also an incidental call directly from the cordless mobile station, that is, a call using a subchannel different from the voice communication is disconnected. It is considered more convenient to instruct. As described above, since it may be effective in some cases to exchange call control information using the subchannel other than the subchannel in which the disconnection request is generated, the present invention provides the subchannel in which the call control information is exchanged. Is not particularly limited.

The same processing as described above is performed even when a disconnection request is issued for a call being communicated by the sub-channel B ₁₂ . A call control information signal processing circuit sends a connection request for a new call using a sub-channel via the B ₁ channel in a state where a call that is communicating using the total data transmission capacity of the B ₁ channel already exists. When the call control information signal processing circuit 2 receives the call control information, the call control information signal processing circuit 2 notifies the communication control unit 3 of the call control information received from the partner communication terminal. The communication control unit 3 determines from the call control information from the call control information signal processing circuit 2 that this call control information is a connection request for a new call, and changes the B ₁ channel into two subchannels B ₁₁ and B. Divide into ₁₂ . In particular,
Under the control of the communication control unit 3, the data path of the already connected call in the communication terminal device is demultiplexed (MUX / DM).
The path that does not go through the UX) 4 is changed to the path that goes through the demultiplexing unit 4, and at the same time, the data path of a new call is set so as to go through the demultiplexing unit 4. Similarly, the interface on the station line side is switched from the path not passing through the demultiplexing unit 4 to the path passing through the demultiplexing unit 4.

In the state where the communication terminal device is performing communication by two calls using two subchannels B ₁₁ and B ₁₂ , a request for disconnecting the call being communicated by B ₁₁ or B _{12 is} issued to one of the subchannels. When received by the communication terminal device via the call control information signal processing circuit 2, the communication control unit 3
The content of the call control information regarding the disconnection request is transmitted to the.
The communication control unit 3 determines from the call control information from the call control information processing circuit 2 that the call control information is a disconnection request for B ₁₁ or B ₁₂ , and disconnects the subchannel for which the disconnection request is made. Further, the data transmission capacity of the call that is not disconnected is switched from the sub-channel capacity to the B ₁ sub-channel capacity (64 kbps).

Specifically, the data path is switched within the communication terminal device under the control of the communication control unit 3. First, when two calls are simultaneously connected, the data paths of Data1 and Data2 in FIG. 3 are connected to the office line (B ₁ channel) via the demultiplexing unit 4. Here, it is assumed that the call control information signal processing circuit 2 receives the disconnect request for the call by the data 1. Under the control of the communication control unit 3, the paths between the Data 1 and Data 2 and the demultiplexing unit 4 are disconnected. In addition, Data
2 selects a path directly connected to the interface on the station line side to ensure a data transmission capacity of 64 kbps.

FIG. 4 is a block diagram of a call control information signal transmission circuit of a call control information signal processing circuit in a communication terminal device according to claim 3 of the present invention. In the figure, 11 is an I / F with a communication control unit. Circuit, 12 is a PB signal generation circuit, 13 is an encoder (ITU-T Recommendation G.711), and 14 is an encoder (IT
UT recommendation G.721), 15 is a switching unit, and 16 is a call control information signal transmission circuit.

As shown in FIG. 4, the call control information signal transmitting circuit 16 includes a PB signal generating circuit 12, an ITU-T recommendation G.711 PCM encoder 13 and an ITU-T recommendation G.
It is composed of the 721 ADPCM encoder 14 and can be applied to the call control information processing circuit 2 in FIG. Here, a portion surrounded by a dotted line is a selector for transmitting the call control information signal transmitted through the sub-channel to either B ₁₁ or B ₁₂ , and is always transmitted through the determined sub-channel. However, it is not necessary if call control information is not exchanged.

Hereinafter, description will be made assuming that the call control information signal transmitting circuit according to claim 3 is applied to a call control information signal processing circuit of an ISDN-connected communication terminal device. However, the channel that divides the communication terminal apparatus is the only B ₁ channel, the data transmission capacity of two subchannels B _{1 1} and B ₁₂ are the half of the data transmission capacity of B ₁ channel 32k
Suppose that it is bps. In the communication control unit 3, already 1
When a connection request for the second call, which can be connected by dividing the B ₁ channel used as a communication path for one call into subchannels, is generated, the communication control unit 3 sends a call control information signal. An instruction to send a connection request is given to the circuit 16. In the call control information transmitting circuit 16, the connection request is converted into a PB signal in the PB signal generating circuit 12. The call control information by the PB signal is sent to the B ₁ channel, so that ITU-T Recommendation G.71164 kbps P
The call control information encoded by the CM encoder 13 is transmitted to the partner communication terminal via the B ₁ channel.

Further, in a state where the B ₁ channel is divided into two sub-channels for communication, the call control information transmission circuit 16 causes one of two calls being communicated by the communication control unit 3. When the disconnection request is received, the PB signal generation circuit 12 converts the disconnection request into a PB signal. Since the call control information by the PB signal is transmitted through the sub-channel, ITU-T Recommendation G.721 32kbps AD
The call control information encoded by the PCM encoder 14 and encoded is sent to the partner communication terminal via one of the two subchannels.

FIG. 5 is a block diagram of the call control information signal monitoring circuit of the call control information signal processing circuit in the communication terminal device according to claim 4 of the present invention, in which reference numeral 21 denotes an I / I with the communication control unit.
F circuit, 22 is a PB signal detection circuit, and 23 is a decoder (I
TU-T Recommendation G.711), 24 and 25 are decoders (I
TU-T Recommendation G.721), 26 is a call control information signal monitoring circuit.

As shown in FIG. 5, the call control information signal monitoring circuit 26 includes a PB signal detection circuit 22, an ITU-T recommendation G.711 PCM decoder 23 and an ITU-T recommendation G.
721 ADPCM decoder 24 and is applicable to the call control information processing circuit 2 in FIG. here,
In the communication terminal device to which the present invention is applied, when the call control information exchanged via the sub-channel is always performed via the sub-channel B ₁₁ , the ITU-T Recommendation G. The 721 decoder 25 becomes unnecessary. Similarly, when the call control information exchanged via the sub-channel is always performed via the sub-channel B ₁₂ , the ITU-T recommendation G.721 decoder 24 enclosed by the solid line is not necessary.

Hereinafter, similar to the description of the communication terminal device according to claim 3, the call control information signal monitoring circuit according to claim 4 is used.
Call control information signal processing circuit 2 of SDN-connected communication terminal device
The explanation will be given assuming that it has been applied to. However, the channel to be divided in the communication terminal device is only the B ₁ channel,
It is assumed that the data transmission capacity of the two sub-channels is 32 kbps, which is half the data transmission capacity of the B ₁ channel. The PB signal detection circuit 22 of the call control information signal monitoring circuit 26,
It is connected to both the ITU-T recommendation G.711 decoder 23 and the ITU-T recommendation G.721 decoders 24 and 25, and receives the PB signal received via the B ₁ channel and the sub-channel. Both PB signals can be detected. In the PB signal detection circuit 22, 1
When the PB signal is detected via the B ₁ channel used as the communication path for one call, the detected PB signal is transmitted to the communication control unit 3. In addition, when the PB signal detection circuit 22 detects the PB signal sent through the sub-channel in the state where the B ₁ channel is divided into two sub-channels having a data transmission rate of 32 kbps and the communication is performed, the detection is also performed. The transmitted PB signal is transmitted to the communication control unit 3. When the information obtained is correct, the communication control unit 3 which has obtained the information of the PB signal detected through the B ₁ channel or sub-channel translates it into call control information and performs call control to obtain the obtained information. If is incorrect information, discard it.

As described above, according to the present invention, in a communication terminal device in which one information channel in a digital network is divided into two sub-channels for use, one call uses the total data transmission capacity of one information channel. Communication is carried out through the information channel to which the call is connected, and when two calls are simultaneously connected using two subchannels, two subchannels are connected. Of
Call control for sending call control information to the other communication terminal via one of the subchannels and for monitoring call control information sent from the other communication terminal via the information channel or subchannel Information signal processing circuit 2
have.

Further, the call control information signal transmitting circuit 16 of the call control information signal processing circuit 2 is provided so that the present invention can be easily applied to a communication terminal device connected to an ISDN or a digital cordless telephone conforming to RCR STD-28. PB signal generation circuit 12, ITU-T recommendation G.711 encoder 1
3 and ITU-T Recommendation G.721 encoder 14. Similarly, so that the present invention can be easily applied to an ISDN communication terminal device or a digital cordless telephone, a call control information signal monitoring circuit 26 for call control information signal processing.
PB signal detection circuit 22, ITU-T recommendation G.711 decoder 23 and ITU-T recommendation G.721 decoder 2
It is composed of 4, 25.

6 and 7 are flow charts for explaining an embodiment of the communication method according to claim 5 of the present invention. Hereinafter, the communication method of this embodiment will be described in order according to each step (S) shown in these flowcharts. The flow chart of FIG. 6 shows the case where the information regarding call control is generated from the own communication terminal, and here, in order to simplify the description, two B channels (B ₁ channel and B ₂ channel) of ISDN are described. Of these, only the B ₁ channel is conditioned so that it can be divided into two sub-channels. First, when a call connection request is generated in the initial state (S0) in which the information channel (B ₁ channel) that can be divided into sub-channels is not connected (S0)
1), the B ₁ channel is connected by the call control procedure by the D channel (S2), and the communication is started using the total data transmission capacity (64 kbps) of the B ₁ channel (S).
3). When call control information is generated in the state of S3 (S
4), it is determined whether the generated call control information is information regarding a connection request or a disconnection request (S5),
When it is determined that the connection request is made, the call control information relating to the connection request is exchanged with the partner communication terminal using the D channel packet (S6-1). When the processing of S6 is completed, the B ₁ channel is divided into two sub-channels B ₁₁ and B ₁₂ , and the communication by both the call already connected and the call for which a new connection request is generated through the two sub-channels. Perform (S7). Here, an already connected call and a call for which a new connection request has been generated are transmitted to the two sub-channels B ₁₁ ,
As to which one of B ₁₂ is to be allocated, a method of configuring sub-channel allocation before using the communication terminal, or negotiation with the other communication terminal in the exchange of call control information using the B ₁ channel is performed. Methods etc. are considered.

If it is determined in S5 that the generated request is a disconnection request, the B ₁ channel is disconnected by the call control procedure using the D channel (S8), the communication is terminated, and the process returns to S0. In the state of S7, if a disconnection request is generated for either of the two calls during communication (S
9) It is determined whether the generated disconnection request is a disconnection request to B ₁₁ or B ₁₂ of the subchannel (S10). In S10, when it is determined that a disconnection request for the B ₁₁ exchanges call control information on disconnection request using the D channel packet is performed with the other party's communication terminal (S11-1), have been communicated B ₁₁ The disconnected call is disconnected (S12). When the process of S12 is completed and terminates the dividing B ₁ channel into two subchannels, to expand the data transmission capacity of calls in communication with B ₁₂ the total data transmission capacity of B ₁ channel, B ₁ channel The communication is switched to the communication using all the data transmission capacity (S3).
Further, in S10, when the disconnection request is determined to be disconnection request for a call during communication in B _12, exchanges call control information on disconnection request using the D channel packets to and from the partner communication terminal ( S13-1), and disconnects the call that has been communicated B ₁₂ (S14). When the processing of S14 is completed, the division of the B ₁ channel into two subchannels is completed, and the data transmission capacity of the call being communicated is set to B by B _11.
Extended to a total data transmission capacity of _one channel is switched to the communication using all data transmission capacity of B ₁ channel (S
3).

Next, consider the case where information on call control is generated from the partner communication terminal (FIG. 7). However, B
From a state _{in which one} channel is not connected, with respect to the state transition to the communication of B ₁ channel using the data transmission capacity of 64kbps is connected is started, until from S3 S0 described with reference to FIG. 6 above Since it is the same as the state transition of the above, the description thereof is omitted here. Similarly, when a disconnection request for a call being communicated is sent from the partner communication terminal via the D channel in the state where the communication is performed through one communication path using the total data transmission capacity of the B ₁ channel. The state transition is also the same as the state transition returning from S5 to S8 in FIG. 6 to S0, and therefore the description thereof is omitted here. First, in the same state as S3 in FIG. 6, that is, in the state where the B ₁ channel is connected and the communication using the total data transmission capacity of the B ₁ channel is being performed, the communication terminal device sends a connection request for a new call D Upon receiving the channel packet (S6-1 '), B ₁
The channel is divided into two sub-channels B ₁₁ and B ₁₂ , and communication is started by both the already-connected call and the call for which a new connection request is generated through the two sub-channels (S7). Here, regarding which of the two sub-channels B ₁₁ and B ₁₂ the already-connected call and the call for which a new connection request is made are allocated, the sub-channel allocation is configured before the communication terminal is used. A method of preserving or a method of negotiating with the partner communication terminal in the exchange of call control information using the B ₁ channel can be considered.

[0045] In S7 in the state, when the communication terminal apparatus receives the call control information on disconnection request call by D-channel packet (S11-1 '), disconnect request B _11, B ₁₂
It is determined which subchannel the disconnection request is for (S15). In S15, when it is determined that a disconnection request to B _11, and disconnects the call that has been communicated subchannel B ₁₁ (S12). When the process of S12 ends, the division of the B ₁ channel into two sub-channels ends, and the data transmission capacity of the call being communicated on the sub-channel B ₁₂ is expanded to the total data transmission capacity of the B ₁ channel,
The communication is switched to the communication using the entire data transmission capacity of the B ₁ channel (S3). In S15, the disconnect request is B
_If it is determined in ₁₂ that the request is a disconnection request for the call being communicated, the call communicated in the sub-channel B ₁₂ is disconnected (S14). When the process of S14 is completed terminates the dividing B ₁ channel into two subchannels, to expand the data transmission capacity of calls in communication subchannel B ₁₁ the total data transmission capacity of B ₁ channel, B ₁ The communication is switched to the one using the entire data transmission capacity of the channel (S3).

In the communication method according to the sixth aspect of the present invention, the exchange of the call control information in the above description is not performed by the D channel packet, but the user information which is one of the call control messages in the circuit switching mode of ISDN communication is transmitted. Call control information is exchanged by using it. In the implementation, the basic communication control procedure is the same as the procedures in claims 1 and 5, and therefore the same procedure as in the above embodiment may be used.

[0047]

As is apparent from the above description, the present invention has the following effects. (1) In the communication method according to the present invention, sub-channel division /
By dynamically changing the call data transmission capacity between the channel and sub-channel capacities by non-division, the data transmission capacity can be effectively used without making space for the data transmission capacity, and the communication cost can be reduced. It will be possible. (2) The call control information signal transmission circuit of the call control information signal processing circuit includes a PB signal generation circuit and ITU-T recommendation G.711P.
The present invention can be easily implemented by using a CM encoder.
It can be applied to the SDN communication terminal device. Specifically, it is possible to share the voice encoder in the ISDN communication terminal device and the ITU-T recommendation G.711PCM encoder of the call control information signal transmitting circuit. IT in Figure 4
It is possible to share the encoder by providing a selector for selecting the PB signal and the voice signal before the analog input of the U-T recommendation G.711 encoder. (3) The PB signal detection circuit and the ITU-T recommendation G.711P are used in the call control information signal monitoring circuit of the call control information signal processing circuit.
The present invention can be easily implemented by using a CM decoder.
It can be applied to the SDN communication terminal device. Specifically, it is possible to share the voice decoder in the ISDN communication terminal device and the ITU-T recommendation G.711PCM decoder of the call control information signal monitoring circuit. IT in Figure 5
U-T Recommendation G.711 Decoder sharing not only by sending analog output to PB signal detection circuit, but also to voice output section in ISDN communication terminal device It is possible. (4) The call control information signal transmitting circuit of the call control information signal processing circuit includes a PB signal generating circuit and ITU-T recommendation G.721A.
By using a DPCM (voice coding method in a RCR STD-28 compliant digital cordless telephone) encoder, it can be easily used in an RCR STD-28 compliant digital cordless telephone. More specifically, since the voice coding defined by RCR STD-28 is used, the digital cordless mobile station can generate the PB signal, and the call control information is exchanged by the subchannel used by the digital cordless mobile station. In this case, the ITU-T recommendation G.721 encoder can be shared with the encoder of the digital cordless mobile station. (5) The call control information signal monitoring circuit of the call control information signal processing circuit includes a PB signal generation circuit and ITU-T recommendation G.721A.
By using a DPCM (voice coding method in a RCR STD-28 compliant digital cordless telephone) decoder, it can be easily used in an RCR STD-28 compliant digital cordless telephone. More specifically, since the voice coding defined by RCR STD-28 is used, the digital cordless mobile station can generate the PB signal, and the call control information is exchanged by the subchannel used by the digital cordless mobile station. In this case, the ITU-T Recommendation G.721 decoder can be shared with the decoder of the digital cordless mobile station. (6) In the communication method according to claim 2 of the present invention, since the call control information is exchanged using the D channel packet, B
Switching the data transmission capacity of the sub-channel during the communication of the B-channel without causing a failure in the channel,
The transmission capacity of the B channel can be effectively used. (7) Since user information, which is one of the call control messages in the circuit switched mode of ISDN communication, is used to exchange information regarding call control of subchannels, compared with the communication method according to claim 2 of the present invention, By eliminating the need for a packet handler in the communication terminal, it is possible to configure the system with a communication terminal device of lower cost. Further, either the D channel or the B channel can be treated as one of the control messages, the system can be flexibly considered, and the control message can be used as user information, so that an existing message can be obtained. Since the type can be used, it is practically advantageous.

[Brief description of drawings]

FIG. 1 is a flow chart for explaining a communication procedure when call control information is generated from a local communication terminal in an embodiment of a communication method according to the present invention.

FIG. 2 is a flowchart for explaining a communication procedure when call control information is generated from a partner communication terminal in the embodiment of the communication method according to the present invention.

FIG. 3 is a block diagram for explaining an embodiment of a communication terminal device according to the present invention.

FIG. 4 is a block diagram for explaining an embodiment of a call control information signal transmission circuit of the communication terminal device of the present invention.

FIG. 5 is a block diagram for explaining an embodiment of the call control information signal monitoring circuit of the communication terminal device of the present invention.

FIG. 6 shows another embodiment of the communication method according to the present invention,
7 is a flowchart for explaining a communication procedure when call control information is generated from the own communication terminal.

FIG. 7 shows another embodiment of the communication method according to the present invention,
7 is a flowchart for explaining a communication procedure when call control information is generated by a partner communication terminal.

[Explanation of symbols]

1 ... I / F circuit (interface circuit), 2 ... Call control information signal processing circuit, 3 ... Communication control unit, 4 ... MUX / DM
UX (demultiplexing unit), 5 ... I / F circuit (interface circuit), 11 ... I / F circuit with communication control unit, 12 ... P
B signal generation circuit, 13 ... Encoder (ITU-T Recommendation G.
711), 14 ... Encoder (ITU-T Recommendation G.72)
1), 15 ... switching unit, 16 ... call control information signal sending circuit,
21 ... I / F circuit with communication control unit, 22 ... PB signal detection circuit, 23 ... Decoder (ITU-T recommendation G.711),
24, 25 ... Decoder (ITU-T Recommendation G.721),
26 ... call control information signal monitoring circuit, the step of communication procedure S ₀ to S ₁₄ ... the communication method. S6 ', S6-1', S1
1 ', S11-1' ... Steps required in other communication procedures of this communication method.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication H04M 3/00 B 11/00 303

Claims (6)

[Claims] 1. A communication method in which the data transmission capacity of one channel is divided into two sub-channels less than the data transmission capacity for use in digital communication, and the channel is used as one communication path between communication terminals. If a connection request for a new call occurs while the current call is being performed, the call control information for the new call is exchanged using the channel that is already in communication to increase the data transmission capacity of the call during communication. By dynamically changing the total data transmission capacity of the channel to the data transmission capacity of the sub-channel and allocating the other sub-channel having the empty data transmission capacity generated in the channel to the communication path of a new call, A channel enables both existing and new calls to be connected at the same time for communication, and two by using two sub-channels between communication terminals. With the calls of
When a disconnection request for one call is generated, the call control information for the call for which the disconnection request is generated is exchanged using one of the sub-channels to disconnect the call for which the disconnection request is generated. Do not disconnect the total data transmission capacity of the channel by dynamically changing the data transmission capacity assigned to the call from the data transmission capacity of the sub-channel to the total data transmission capacity of the channel that is not divided into sub-channels. A communication method characterized by dynamically controlling a data transmission capacity that can be assigned as a call communication path. 2. In a communication terminal device, which is used by being divided into two sub-channels having a transmission capacity equal to or less than a data transmission capacity of one channel in digital communication, the communication terminal device receives from the communication terminal on the other side through the channel and the sub-channel. When a call control information signal processing circuit that monitors signals and generates a call control information signal is provided and only one call is connected between communication terminals, the channel is not divided into subchannels and the total number of channels is divided. When communication is performed using the data transmission capacity and a connection request for a new call is generated in the state where one call is already connected, the call control information signal is sent using the channel to which the already connected call is connected. The call control information signal generated from the processing circuit is exchanged as the call connection information of the call for which a new connection request is generated, and the channel to which the already connected call is connected is exchanged. Split into two sub-channels,
For an already connected call, the data transmission capacity is switched from the total data transmission capacity of the channel to the data transmission capacity of the subchannel obtained by dividing the channel, and communication is performed, and for a new call, it is assigned to the already connected call. By assigning the other sub-channel different from the established sub-channel as a communication path, two calls can be connected simultaneously, and by dividing one channel between two communication terminals into two sub-channels, If you want to disconnect one of the two calls while the calls are connected at the same time, 2
The call control information signal generated from the call control information signal processing circuit is exchanged as call disconnection information by using one of the two subchannels, and the call for which the disconnection request is generated is disconnected but not disconnected. Regarding a call, a communication terminal device is characterized in that during communication, communication using subchannels is switched to communication using the total data transmission capacity of channels that are not divided into subchannels. 3. A call control information signal processing circuit for exchanging call control information in the communication terminal device, wherein the call control information signal transmitting circuit converts a connection request or a disconnection request into a PB signal generating circuit. A PCM encoder that encodes call control information based on the PB signal converted from the connection request by the PB signal generation circuit and sends it to the B ₁ channel; and a call based on the PB signal converted from the disconnection request by the PB signal generation circuit. 3. The communication terminal apparatus according to claim 2, further comprising an ADPCM encoder which encodes control information and sends the control information to a sub-channel, thereby simplifying call control information transmission. 4. A call control information signal processing circuit for exchanging call control information in the communication terminal device, wherein the call control information signal monitoring circuit receives a PB signal via a B ₁ channel. And an ADPCM decoder for receiving a PB signal through a sub-channel and a PB signal detection circuit for detecting the PB signal, which is connected to the both decoders, to simplify the call control information detection. The communication terminal device according to claim 2, wherein 5. A communication method in which the data transmission capacity of one B channel is divided into two sub-channels equal to or less than the data transmission capacity in ISDN communication, and the B channel is used as one communication path between communication terminals. While using
When a connection request for a new call is generated, the call control information for the new call is exchanged using the D channel packet so that the data transmission capacity of the call being communicated can be calculated from the total data transmission capacity of the B channel. By dynamically changing the data transmission capacity of the sub-channel and thereby allocating the other sub-channel having the empty data transmission capacity generated in the channel to the new call communication path,
A state in which it is possible to connect and communicate both an existing call and a new call at the same time with one B channel, and two calls are simultaneously connected using two sub-channels between communication terminals When a disconnection request for one of the calls is issued, the call control information for the call for which the disconnection request is issued is exchanged using the D channel packet to disconnect the call for which the disconnection request is issued, but not to disconnect. By dynamically changing the data transmission capacity allocated to the call from the data transmission capacity of the sub-channel to the total data transmission capacity of the B channel in a state where it is not divided into sub-channels,
A communication method characterized in that the total data transmission capacity of the B channel is dynamically controlled so that it can be assigned as a communication path of a call without disconnecting. 6. A communication method in which the data transmission capacity of one B channel is divided into two sub-channels less than the data transmission capacity for use in ISDN communication, and the B channel is used as one communication path between communication terminals. While using
When a connection request for a new call is generated, the call control information for the new call is exchanged by using the user information, which is one of the call control messages in the circuit switching mode, so that the data of the call being communicated can be obtained. The transmission capacity is dynamically changed from the total data transmission capacity of the B channel to the data transmission capacity of the sub-channel, so that the other sub-channel having the empty data transmission capacity generated in the channel becomes the communication path of the new call. By allocating, it becomes possible to connect and communicate both an existing call and a new call at the same time on one B channel, and use two sub-channels between communication terminals to make two calls at the same time. With it connected,
When a disconnection request for one of the calls is generated, the call control information for the call for which the disconnection request is generated is exchanged using the user information to disconnect the call for which the disconnection request is generated, and the call is not disconnected. By dynamically changing the allocated data transmission capacity from the data transmission capacity of the sub-channel to the total data transmission capacity of the B channel in a state where it is not divided into sub-channels, the total data transmission capacity of the B channel is not disconnected. A communication method characterized by dynamically controlling a data transmission capacity that can be allocated as a communication path.