KR100247200B1 - Automatic converting method of communication mode of telecommunication system - Google Patents

Abstract

The present invention periodically checks and maintains the connection / disconnection state of the link and maintains the link in the disconnected state by actively initiating and activating the link to maintain the link state. A first step of delaying a timing when a link is disconnected or connected by a mode conversion when an event occurs in an idle state of the packet communication apparatus, and detecting synchronization after a predetermined timing has elapsed in the first step The second state of checking whether the first mode is to transmit the corrected information while taking the transmission rate after converting the previous mode to another new mode if the synchronization is not detected. Process and, in the second process in the first mode, the operation is initialized to be activated, and a link is connected to provide information. A third process of disabling a second mode for transmitting high-speed information even if a plurality of pieces of information is inaccurate and delaying the next operation, and in a second mode other than the first mode in the second process. A fourth process of activating data transmission according to the two modes and disabling the first mode to delay a predetermined time for the next operation.

Description

Automatic conversion of communication mode of communication system

The present invention relates to a packet communication system, and in particular, periodically checks the connection or disconnection state of the link, and maintains the previous state when the link is connected. The present invention relates to a communication mode automatic conversion method of a communication system that actively links a mode by connecting a link through a link activation process.

In the conventional packet communication apparatus, the PAD 114 is connected and operated between the asynchronous terminal 100 and the switch 116 as in the example of FIG. 1, and the front panel unit for function selection and link connection and disconnection status display. (106), CPU (104) for the control of packet communication, USART (102) for data transfer between the asynchronous terminal (100) and CPU (104), memory (108) for storing programs and data, BCH control processing unit 112 for data transmission and error correction, HDLC control processing unit 110 for data transmission and processing according to HDLC protocol, and connection / disconnection status for the link between the exchange 116. And a signal processor 114 for providing a signal so that the signal can be recognized. Therefore, even if the transmission rate is low, as in the BCH control processor 112, the HDLC control processor 110 can obtain accurate information or deteriorate the information. Than accurate information as in Many packet communication apparatuses have different characteristics in order to obtain fast information. [0003] Conventional packet communication apparatuses change modes on one side so that the link between the two equipments cannot survive or change ports. If the mode is different, the front panel 106 in another device inputs a signal for manually changing the mode, and the CPU 104 controls the signal processor 114 to survive the link. If a packet communication device does not know the reason why the link is disconnected, such as a place where two equipments are installed or an operator who does not know how to switch modes, the communication does not proceed smoothly. If the communication mode of the camera is changed for any reason or situation, it is determined that the situation is the state of the mode change. If the mode is manually changed and set by the front panel unit 106, the CPU 104 changes the mode by control, so if the operator is unfamiliar with the mode setting or does not recognize the change of the mode of the counterpart device, the link There was a problem that the communication is not made because it is in a broken state until manual operation.

Accordingly, an object of the present invention is to periodically check the connection / disconnection state of the link and keep it as it is.In the disconnected state, the process is initialized and the link activation process is performed to maintain the link in a connected state to actively cope with the mode change. To provide a way to do this.

According to an aspect of the present invention, there is provided a first process for delaying a predetermined timing when a link is disconnected or connected by mode conversion when an event occurs in an idle state of a packet communication apparatus.

In the first process, after a predetermined timing has elapsed, the synchronization is detected. If the synchronization is detected, the idle state is maintained. If the synchronization is not detected, the error correction is performed while converting the previous mode to another new mode and taking the transmission rate. A second process of checking whether the first mode is to transmit information,

In the second process, when the first mode is activated, this operation is activated, the link is connected to transmit information, and the second operation to transmit high-speed information even if a plurality of pieces of information is not accurate is disabled. The third process,

In the second process, a fourth process is performed to activate data transmission according to the second mode when the second mode is not the first mode, and to disable the first mode and delay a predetermined time for the next operation.

1 is a packet communication system reference to an embodiment of the present invention.

2 is a flowchart for automatically converting communication modes according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A detailed description of a preferred embodiment of the present invention will now be described with reference to the accompanying drawings. In the following, reference numerals are given to components of each drawing, even though the same components are shown in different drawings. Note that they have the same sign. In describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or a chip designer, and the definitions should be made based on the contents throughout the present specification.

2 is a flowchart of communication mode automatic conversion according to an embodiment of the present invention.

A first step of predetermining a timing when a link is disconnected or connected by mode conversion when an event occurs in an idle state of a packet communication apparatus,

If the synchronization is detected after checking whether the synchronization is detected after a predetermined timing in the first process, the idle state of the first process is detected. If the synchronization is not detected, the transfer mode is changed after changing the previous mode to another new mode. A second process of checking whether the first mode (BCH) is intended to transmit error-corrected correct information while

The second mode (HDLC) in which the operation is activated when the first mode (BCH) is activated in the second process, the link is transmitted, information is transmitted, a predetermined delay is made, and even if a plurality of information is not accurate. A third process of disabling

In the second process, when the second mode (HDLC) is not the first mode (BCH) but in the second mode (HDLC), it is activated to transmit data according to the second mode (HDLC), and the first mode (BCH) is disabled for the next operation. It consists of a fourth process of predetermined delay.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIG.

Conventionally, the packet communication apparatus of FIG. 1 uses the HDLC control processing unit 10 and the BCH control processing unit 112 having different characteristics in one device to select the CPU 104 by the front panel unit 106. The control changes the mode on either side so that the link between the two devices can survive. In other words, the mode change for saving the link can be performed when one mode of the packet communication device does not survive in either mode or by switching ports. If it is different, the mode is changed manually to save the link. And if the place where the two equipments are installed is not far or the operator who doesn't know how to change the mode manages or doesn't know the reason why the link is broken, it keeps the communication unstable.

Therefore, the present invention does not intend to save the link manually by the front panel unit 106, but periodically determines the connection / disconnection state of the link and maintains the connection as it is, and operates the corresponding mode by changing the mode in the disconnected state. It is possible to make the link connected by proceeding with the process of initializing and activating the link of the processing unit, and to cope with the mode conversion actively to recover the wrong link automatically, which is convenient for the operator, and to carry out additional work when the mode is changed. It is to help reduce and maintain a stable communication state.

In order to manually switch the mode according to the existing method, the front panel unit 106 is set to the selection mode, and to apply the new and improved method of the present invention, the front panel unit 106 is set to the automatic mode, and automatically Alternatively, if the link is revived by manually changing the mode, the front panel unit 106 is also displayed in the changed mode under the control of the CPU 104. In the case of the automatic mode in the process (2l) of FIG. The CPU 104 receives the input of an event in step (2a) and checks whether the CPU 104 connected or disconnected the signal through the signal processing unit 114. In step (2b), the CPU 104 changes the mode. The signal processor 114 checks whether or not the link has failed. If the link fails by checking in step (2b), a timing of about 1 minute is specified in step (2c), and then (2a) and (2b). Execute process again, but process (2b) Even if it is not a failure according to the mode conversion in step 2c and 2e, the predetermined timing is delayed and the CPU 104 receives a signal from the signal processor 114 while the link is connected in step 2f (2f). In step 2f, if the synchronization signal is detected, it is regarded as proceeding normally to the current mode and returns to the initial idle state without any other operation, but the synchronization signal is not detected. Otherwise, if the previous mode is the first mode BCH in step 2g, the mode conversion area of the memory 108 is converted to the second mode HDLC and the second mode HDLC is converted to the first mode BCH. Accordingly, it is checked whether or not the first mode is set in the first or second mode set in step (2h). In the first mode, the CPU 104 controls HDLC in step (2i). Disable the processing unit 110, and the BCH control processing unit 112 It is enabled and is initialized according to the operation. Then, after a predetermined timing is delayed in step (2k), the initial idle state is set. However, in the second mode in step (2h), the BCH is performed in step (2j). The control processing unit 112 is disabled, and the HDLC control processing unit 110 is enabled and initialized according to the operation. Then, after the predetermined timing is delayed in step 2k, the control unit 112 is set to the initial idle state.

That is, the present invention displays the display through the front panel 106 or the lamp and operates the timer in the signal processing unit 114 to check the state of the link every predetermined time. If the link is not activated by checking the link status after the corresponding time (1 minute) of the timer in operation under the assumption of constant mode, switch to another mode and display the driving chip of the corresponding function corresponding to the previous mode. Able to initialize the drive chip of the corresponding function corresponding to the switched mode, generate a synchronization pattern to synchronize, enable the link activation process, and then start the timer. If the status is determined and activated, continue with the current mode, and if not activated, repeat the above procedure.If the link fails due to a mode change, the timer is started. Naming) When the timer is operated at T9, it is checked whether synchronization is detected on the corresponding link and the synchronization is detected. In this case, it is transferred to the initial state without any other work as it is normally progressed to the current mode, and when the synchronization is not detected, when the previous mode (represented as pre mode) is the BCH mode (communication using the BCH chip) If the current mode (expressed as Mode) is set to HDLC mode, if the previous mode is HDLC mode, it is set to BCH mode and the driving chip corresponding to the previously activated mode is disabled, and the driving chip corresponding to the current mode is After the initialization, the timer T9 is driven to transition to the idle state to determine whether the synchronous detection is performed after the timer T9.

As described above, the present invention takes into account the convenience of the user, and when the mode is changed in the counterpart device or the other device is started in a different mode using a different communication driver between the two devices. There is an advantage that the communication between the two devices can be made by changing the mode in its own way without manually changing to the same mode as the counterpart device.

Claims (1)

In the communication mode conversion method of a packet communication device, A first step of delaying a predetermined timing when a link is disconnected or connected by a mode change when an event occurs in an idle state of the packet communication apparatus; In the first process, after a predetermined timing has elapsed, the synchronization is detected. If the synchronization is detected, the idle state is maintained. If the synchronization is not detected, the error correction is performed while converting the previous mode to another new mode and taking the transmission rate. A second process of checking whether the first mode is to transmit information, In the second process, when the first mode is activated, this operation is activated, the link is connected to transmit information, and the second operation to transmit high-speed information even if a plurality of pieces of information is not accurate is disabled. The third process, And a fourth process of activating data transmission according to the second mode when the second mode is not the first mode and disabling the first mode for a next operation. How to convert communication mode automatically.

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