JPS6236421B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a communication control method, in which a station system having a processing device and a communication control device is configured such that the communication control device autonomously transmits an incoming call rejection signal or a controlled not ready signal. The present invention relates to a communication control method configured to reduce interruptions to the processing device.

FIG. 1 shows a station system having a processing device and a communication control device communicating with another station system or a terminal device.
It is a connection topology diagram when communicating via a circuit switching network, in which 1 is a switching network, 2 is a circuit termination device, and 3
4 is a communication control device, 4 is a central processing unit, and 5 is a terminal device. In such a line switching system, the above-mentioned station system or terminal equipment uses a so-called X20 interface or
Control operations must be performed based on an interface called the X21 interface. In response to an incoming call from the other party, if the X20 interface cannot accept the incoming signal received from the network, it must send an incoming call rejection signal to the network. Furthermore, when the system becomes unable to receive calls using the X21 interface, it is necessary to continuously transmit a controlled not ready (CNR) signal to the network, regardless of whether or not there is an incoming call.

Figure 2a is an example of a conventional communication control method when transmitting a call rejection signal based on the X20 interface, and Figure 2b is an example of a conventional communication control method when transmitting a controlled not ready signal based on the X21 interface. This is an example of a conventional communication control method in .

The communication control device is equipped with a channel control word corresponding to each line, and is configured so that the contents of the channel control word are sequentially updated based on the progress of processing. The content of the control word is periodically read out and the firmware executes the process to be executed at the relevant timing. From this,
The figure expresses the firmware processing described above in the form of a flowchart for the sake of simplicity.

The operation of the conventional method when a call is received is as follows. First, in the case of the X20 interface, (1) When the central processing unit 4 issues a call rejection command 7 because the call cannot be received, the communication control unit 3 transmits the command to the channel control corresponding to the line. Set within a word (not shown).

(2) Then, the communication control device 3 enters the incoming signal receiving state.

(3) When receiving an incoming call signal, it transmits an incoming call rejection signal once, and then interrupts the central processing unit 4.

(4) If the central processing unit 4 continues to be unable to receive calls, it issues the call rejection command 7 again.

(5) As a result, the communication control device 3 performs the above (2) and (3)
Repeat the action.

(6) On the other hand, if the central processing unit 4 transitions to the incoming call ready state while the communication control device 3 is executing the incoming call rejection command 7, the central processing unit 4 An operation stop command 9 is issued.

(7) After the communication control device 3 stops executing the incoming call rejection command 7, it interrupts the central processing device 4.

(8) After processing the interrupt in (7), the central processing unit 4 issues an incoming call acceptance command 8.

(9) Thereafter, the communication control device 3 enters the incoming signal receiving state, and when receiving the incoming signal, performs incoming call acceptance processing such as transmitting an incoming call acceptance signal. After the processing is completed, the CPU 4 interrupts the processing.

Next, in the case of the X21 interface in the conventional system, (10) When the central processing unit 4 issues the call rejection command 7 because the call cannot be received, the communication control unit 3
sets the command in the channel control word (not shown) corresponding to the line.

(11) The communication control device 3 is a controlled
A ready (CNR) signal is transmitted continuously for a certain period of time and then interrupts the central processing unit 4.

(12) If the central processing unit 4 continues to be unable to receive calls, it issues an incoming call rejection command again.

(13) With this, the communication control device 3
Repeat the action.

(14) On the other hand, while the communication control device 3 is executing the incoming call rejection command, if the central processing unit shifts to the incoming call enabled state, the same operations as in (6) to (9) above are performed.

In the case of the conventional system shown in FIG. 2 above, each time a call rejection signal is transmitted or a controlled not ready signal is transmitted for a certain period of time, the central processing unit 4 is interrupted and reported. There is. Therefore, the processing load on the central processing unit 4 increases. In particular, the central processing unit 4 issues an incoming call rejection command when the central processing unit 4 is operating near its processing capacity limit, so the above-mentioned interruption makes the central processing unit 4 even more difficult. will be forced into.

The purpose of the present invention is to solve the above-mentioned problems, and to enable processing to be carried out autonomously within a communication control device without requesting instructions from the central processing unit each time when a call cannot be received. The purpose is Therefore, in the communication control system of the present invention, in a station system having a processing device that performs information processing and a communication control device that performs line control, an incoming call rejection command is issued from the processing device to the communication control device. In this case, a transmission processing means is provided which transmits an incoming call rejection signal without interrupting the processing device each time a call arrives, or continuously transmits a controlled not ready signal without interrupting the processing device. , the communication control device autonomously transmits the incoming call rejection signal or the controlled not ready signal until an operation stop command is issued from the processing device.

The present invention will be explained below with reference to the drawings.

FIG. 3a shows an embodiment of the communication control method of the present invention when transmitting a call rejection signal based on the X20 interface, and FIG. This is an embodiment of the communication control method of the present invention during transmission. Note that, as in the case of the description of the conventional example described above, the figure expresses the processing of firmware within the communication control device in the form of a flowchart for the sake of simplicity.

The embodiment shown in FIG. 3a is configured to perform the following processing. That is, (A) when the central processing unit 4 issues a call rejection command 7 because the call cannot be received, the communication control unit 3 inserts the command into the channel control word (not shown) corresponding to the line. Set.

(B) Then, the communication control device 3 enters the incoming signal receiving state.

(C) Upon receiving the incoming signal, the communication control device 3:
The firmware sends a call rejection signal to the line once.

(D) Thereafter, without interrupting the central processing unit 4, the incoming signal state is entered.

(E) Thereafter, the operations in (C) and (D) above are repeated until an operation stop command is issued from the central processing unit 4.

(F) On the other hand, if the central processing unit 4 transitions to the incoming call ready state while the communication control device 3 is executing the incoming call rejection command 7, the central processing unit 4 The operation stop command 9 is issued.

(G) Thereafter, operations are performed in the same manner as (7) to (9) of the conventional example.

Next, in the case of the embodiment shown in FIG. 3B, the following processing is performed.

(H) When the central processing unit 4 generates a call rejection command 7 because the call cannot be received, the communication control unit 3 sets the command in the channel control word (not shown) corresponding to the line in question. .

(I) The communication control device 3 performs controlled notes on the line using the firmware.
Continuously transmits ready (CNR) signals.

(J) On the other hand, if the central processing unit 4 transitions to the incoming call ready state while the communication control device 3 is executing the incoming call rejection command 7, the central processing unit 4 The operation stop command 9 is issued.

(K) Thereafter, operations are performed in the same manner as (7) to (9) of the conventional example.

As explained above, according to the present invention, when receiving a call rejection instruction, the communication control device enters the state in which the central processing unit is ready to receive a call, and the communication control device continues to operate until the central processing unit issues an operation stop command. Since the termination interrupt is not performed, no intervention by the central processing unit is required during that time, and therefore the processing capacity and processing efficiency of the central processing unit in a state where incoming calls cannot be received can be improved.

[Brief explanation of the drawing]

Figure 1 is a connection configuration diagram when communicating via a circuit switched network, Figure 2 a is an example of a conventional communication control method when using an X20 interface, Figure 2 b
3 is an example of the conventional communication control method when using the X21 interface, FIG. 3a is an example of the communication control method of the present invention when using the X20 interface, and FIG. It is an example of the communication control method of this invention when it is used. In the figure, 3 indicates a communication control device, and 4 indicates a central processing unit.

Claims (1)

[Claims] 1. In a station system that has a processing device that performs information processing and a communication control device that performs line control, if an incoming call rejection command is issued from the processing device in the communication control device, the above processing is carried out every time a call arrives. A transmission processing means is provided to transmit an incoming call rejection signal without interrupting the device, or to continuously transmit a controlled not ready signal without interrupting the processing device, and the processing device receives an operation stop command from the processing device. A communication control system characterized in that the communication control device autonomously transmits the call rejection signal or the controlled not ready signal until the call is issued.