JP3603955B2 - Method and apparatus for filtering ATM cell stream on receiving side of SDH line - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ATM system for a receiving side device which supports an STM signal including an ATM cell in a payload portion transmitted via a transmission line duplexed by an SDH line, when the connection quality or the transmission quality is deteriorated or defective. The present invention relates to a method and an apparatus for filtering a cell stream.
[0002]
[Prior art]
In the communication network, various measures have been taken to secure communication quality such as connection quality and transmission quality at a certain level or higher, and in the SDH line, information is duplicated on the transmission side and two transmissions are performed. Transmission is performed as an STM signal via a transmission line (optical fiber), and the receiving side receives each STM signal separately, that is, a so-called duplex communication transmission path is taken. In this case, the receiving apparatus selects one of the two pieces of information in order to receive the same two pieces of information.
[0003]
Here, SDH is an abbreviation of Synchronous Digital Hierarchy, which is an international standard that defines an encoding rule (conversion method) for information transmission using an optical fiber, and an SDH line is the standard. Indicates a communication line according to. STM is an abbreviation for Synchronous Transfer Mode, and a frame of an STM signal is composed of a section overhead section, a path overhead section, and a payload section, and an ATM cell is stored and transmitted in the payload section. . ATM is an abbreviation for Asynchronous Transfer Mode.
[0004]
Hereinafter, the method will be described using the duplex transmission / reception device shown in FIG. 3 as an example. Here, a method of switching the ATM cell stream on the receiving side of the SDH line is adopted.
The dual transmission / reception apparatus for the SDH line shown in FIG.
An active system package 101 including a receiving end unit 110, an APS information extracting unit 111, an output control unit 112, and a transmitting side generating unit 113 connected to the active system line;
A standby system package 102 including a receiving end unit 115, an APS information extracting unit 116, an output control unit 117, and a transmitting side generating unit 118 connected to the standby system line;
A common package 103 including an output control signal generation unit 119, an AIS insertion control unit 120, an AIS insertion unit 122, and a buffering 123;
It is composed of
Among the device constituent units, the receiving side termination units 110 and 115, the APS information extraction units 111 and 116, the output control units 112 and 117, the output control signal generation unit 119, the AIS insertion control unit 120, and the AIS insertion unit 122 perform reception. The transmission-side generating units 113 and 118 and the buffering 123 are involved in transmission. The arrows in the figure indicate the exchange of signals between the units.
Here, APS is an abbreviation of automatic protection switch, and APS information is K1 / K2 byte information included in a section overhead section. This byte includes information indicating transmission quality and information indicating a line state. (Line-AIS). AIS is an abbreviation for an alarm indication signal (Alarm Indication Signal).
[0005]
Next, an ATM cell stream switching method will be described based on a signal flow from receiving a duplicated STM signal to transmitting an ATM cell stream downstream via a duplicated transmitting / receiving device.
(1) STM signal reception and termination processing
(1) Working package 101;
a) The receiving end unit 110 receives an STM signal including an ATM cell in a payload portion as an optical signal L101 via the working line 104.
b) The received optical signal L101 is optically / electrically converted at the receiving end unit 110,
Termination processing of section overhead, pointer, path overhead, and ATM cell synchronization is performed on the STM signal to obtain an ATM cell a11, a section overhead signal h1, and a line state signal k1.
The line state signal k1 is K1 / K2 byte information which is one element of the section overhead signal h1.
c) From the receiving end unit 110, the ATM cell a11 is output to the output control unit 112, the section overhead signal h1 is output to the APS information extraction unit 111, and the line state signal k1 is output to the AIS insertion control unit 120.
Here, since the ATM cells a11 are sequentially output when viewed over time, a flow of active ATM cells (active ATM cell stream) is formed.
(2) standby package 102;
The same processing as that of the active package is basically performed in the standby package.
a) The receiving end unit 115 receives the STM signal including the ATM cell in the payload as the optical signal L103 via the protection line 105.
b) The received optical signal L103 is optically / electrically converted at the receiving end unit 115,
The STM signal is subjected to termination processing of section overhead, pointer, path overhead, and ATM cell synchronization to obtain an ATM cell a12, a section overhead signal h2, and a line state signal k2.
The line state signal k2 is K1 / K2 byte information which is one element of the section overhead signal h2.
c) From the receiving end unit 115, the ATM cell a12 is output to the output control unit 117, the section overhead signal h2 is output to the APS information extraction unit 116, and the line status signal k2 is output to the AIS insertion control unit 120.
Here, since the ATM cells a12 are sequentially output when viewed over time, a flow of a standby ATM cell (a standby ATM cell stream) is formed.
The timing at which the ATM cell a23 reaches the output control unit 117 is synchronized with the timing at which the ATM cell a11 reaches the output control unit 112.
[0006]
(2) APS information extraction
(1) Working package 101;
a) The APS information extraction unit 111 extracts K1 / K2 byte information, which is one element of the section overhead signal h1 input.
b) The extracted K1 / K2 byte information is output from the APS information extraction unit 111 to the output control signal generation unit 119 as an APS signal i1.
(2) standby package 102;
The same processing as that of the active package is basically performed in the standby package.
a) The APS information extraction unit 116 extracts information of K1 / K2 bytes, which is one element of the section overhead signal h2 input.
b) The extracted K1 / K2 byte information is output from the APS information extraction unit 116 to the output control signal generation unit 119 as an APS signal i2.
[0007]
(3) Selection of active / standby ATM cell
(1) Output control signal generator 119;
The output control signal generation unit 119 interprets K1 / K2 byte information based on the input APS signals i1 and i2, generates and outputs output control signals j1 and j2 as follows.
a) When the connection quality and the transmission quality of the working ATM cell a11 are normal, the output control signal j1 is output so as to output the working ATM cell a11 regardless of the connection quality and the transmission quality of the protection ATM cell a12. And outputs the signal j1 to the output control unit 112.
b) If the connection quality or transmission quality of the active ATM cell a11 is abnormal and the connection quality and transmission quality of the backup ATM cell a12 are normal, the output control signal j2 is activated to output the backup ATM cell a12. And outputs the signal j2 to the output control unit 117.
c) If the connection quality or the transmission quality of both the working ATM cell a11 and the protection ATM cell a12 is abnormal, the output control signals j1 and j2 are not output so as not to output any of the ATM cells.
The output control signal when not active is a high impedance output in any case.
(2) Output control units 112 and 117;
The ATM cells are selectively output as follows in accordance with the output control signals j1 and j2 states a), b) and c).
State a): The active ATM cell a11 is output from the output control unit 112 to the AIS insertion unit 122 (the standby ATM cell a12 is not output).
State b): The backup ATM cell a12 is output from the output control unit 117 to the AIS insertion unit 122 (the active ATMa11 is not output).
State c): Both the active ATM cell a11 and the standby ATM cell a12 are not output.
[0008]
(4) Insertion of AIS cell
(1) AIS insertion control unit 120;
The AIS insertion control unit 120 interprets K1 / K2 byte information based on the input line state signals k1 and k2, generates an AIS insertion control signal e2 as follows, and outputs it to the AIS insertion unit 122.
a) If the connection quality or the transmission quality of both the active ATM cell a11 and the standby ATM cell a12 is abnormal, the AIS insertion control signal e2 is activated.
b) In cases other than the above, the AIS insertion control signal e2 is set to a high impedance output.
(2) AIS insertion part 122;
In accordance with the states a) and b) of the AIS insertion control signal e2, the AIS cell is inserted into the corresponding empty cell as follows.
State a): Insert an AIS cell into a corresponding empty cell.
State b): The cell a13 input to the AIS insertion unit 122 flows downstream as it is (does nothing).
An ATM cell stream whose normal communication quality has been ensured by the above-described processing on the receiving side is transmitted downstream, and a cell whose communication quality has not been ensured because a failure (line disconnection, etc.) has occurred in both the working system and the protection system. Is inserted with an AIS cell indicating an alarm.
[0009]
The signal processing on the transmission side of the duplex transmission / reception device is performed in the following flow.
(1) The ATM cell 136 is input to the buffering 123.
(2) buffering 123;
{Circle around (1)} The input ATM cell f5 is duplicated and the waveform is adjusted to obtain the ATM cell f6.
{Circle around (2)} The duplicated ATM cell f6 is separately output to the active transmission side generator 113 and the standby transmission side generator 118.
(3) Active transmitting side generating section 113, standby transmitting side generating section 118;
(1) The input ATM cell f6 is subjected to ATM cell synchronization, path overhead, pointer, and section overhead generation processing to generate an STM signal including an ATM cell in a payload portion.
(2) The signal processed in (1) is subjected to electrical / optical conversion to obtain optical signals L102 and L104.
(3) The optical signals L102 and L104 are output to the working line 104 and the standby line 105, respectively.
[0010]
[Problems to be solved by the invention]
In the above method, the active ATM cell is selected and output controlled (ie, switched on) in the normal state at the stage of output control of the ATM cell, and the selective output control of the standby ATM cell is switched off, High impedance output. At this time, if deterioration or failure of the line quality of the working system occurs, switching to the protection system is performed. That is, the switching from the active ATM cell stream to the standby ATM cell stream is performed as the flow of the ATM cells. At this time, a so-called instantaneous interruption of data occurs, and a problem such as a data error due to an arrival delay or loss of the ATM cells occurs. Had occurred.
Also, if there is an abnormality in both the working system and the protection system based on the line status signal, measures are taken to insert an AIS cell into the corresponding empty cell and issue an alarm. The detection and determination unit, that is, the determination unit (AIS insertion control unit) for controlling the insertion of the AIS cell is different from the determination unit (output control signal generation unit) for controlling the output of the ATM cell. Therefore, when an abnormal signal is input, there is a possibility that an AIS cell is not inserted even if an empty cell is originally formed, or an AIS cell is inserted into a portion of an ATM cell having normal communication quality.
[0011]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the related art, and in a transmission line duplexed into a working system and a protection system, deterioration and failure of communication quality of a working ATM cell occur, and It is an object of the present invention to provide a method and an apparatus for filtering a receiving-side ATM cell stream on an SDH line, which can prevent instantaneous interruption of data when switching to a cell and ensure normal communication quality.
[0012]
[Means for Solving the Problems]
The inventor of the present application has noticed that the instantaneous interruption of data is caused by the switching operation of the ATM cell stream, and furthermore, it is necessary to select ATM cells in different units, so that the switching system must be used. Thus, the present invention has been made.
In other words, the method for filtering an ATM cell stream on the receiving side of an SDH line according to the present invention, which is provided to solve the above-described problem, is a method of converting an STM signal containing an ATM cell in a payload portion, which is transmitted in duplicate, into an active STM signal. An ATM cell stream step of separately receiving ATM cells as protection STM signals, an ATM cell stream step of taking out ATM cells from each received signal and separately flowing downstream as working ATM cells and protection ATM cells, When the connection quality or the transmission quality is abnormal, a VPI value inserting step of inserting a fixed value set in advance into the VPI of the header of the ATM cell, and in the ATM cell stream after the VPI value insertion, In the VPI values of the headers of the synchronized working ATM cell and protection ATM cell, the working ATM cell is If only the VPI value of the TM cell is a fixed value, the standby ATM cell is selected and passed. If the VPI value of both the working system and the standby system is the fixed value, neither ATM cell is passed. Otherwise, it comprises a filter step for selecting and passing the active ATM cell.
[0013]
According to this method, the switching system can be avoided by preventing the active ATM cell and the standby ATM cell from being gathered in one place and transmitting and selecting only useful ATM cells, thereby preventing instantaneous data interruption. Became possible.
Focusing on utilizing the VPI value of the ATM cell header portion to identify useful ATM cells, the communication quality of each ATM cell can be reliably confirmed by inserting the ATM cell communication quality information. By providing logic for comparing and selecting the VPI values of the active ATM cell and the standby ATM cell, normal communication quality can be ensured.
VPI is an abbreviation of Virtual Path Identifier (VPI), and is a section used for identifying a communication path in a header portion of an ATM cell.
[0014]
In this filtering method, the abnormality of the connection quality or the transmission quality is detected from the K1 / K2 byte information included in the section overhead part in the frame of the STM signal at the reception stage or at the reception stage. That is, the communication quality information of the ATM cell is inserted into the VPI based on these pieces of information.
If neither the active system cell nor the standby system ATM cell is passed in the filter stage, an AIS cell is inserted into the empty cell portion.
As a result, the grounds for detecting that there is an abnormality in both the working system and the protection system are the same for the case where the ATM cell is selected and the case where the AIS cell is inserted, and the AIS cell for the empty cell portion is determined. Can be reliably inserted.
[0015]
In order to solve the above-described problem, a filter device for an ATM cell stream on a receiving side of an SDH line according to the present invention includes an ATM cell in a payload portion transmitted via a duplexed transmission line on an SDH line receiving side. It has an active receiving package and a standby receiving package corresponding to the STM signal. Each receiving package receives the STM signal, extracts an ATM cell from the STM signal, and flows the ATM cell downstream as an ATM cell stream. A termination unit that outputs a line state signal when connection quality or transmission quality is abnormal, and a VPI that specifies an ATM cell corresponding to the input line state signal and outputs a signal designating the ATM cell. An insertion control unit and a designated part of the incoming ATM cell stream by the input ATM cell designation signal. And a VPI insertion unit for inserting a fixed value set in advance into the VPI of the header of the ATM cell to flow the ATM cell stream downstream, and further, a working ATM cell stream transmitted from the VPI insertion unit. And a standby ATM cell stream which are input in synchronization with each other, compare the VPI values of the cell headers of the respective ATM cells of both systems, and output a cell selection control signal for instructing the selection of the ATM cell. The active ATM cell stream and the standby ATM cell stream sent from the VPI insertion unit are input synchronously, and the target ATM cell is selectively passed according to the instruction of the input cell selection control signal to form an ATM cell stream. And a cell selection filter section that flows downstream.
[0016]
In this device, the active ATM cell and the standby ATM cell are gathered into one unit, and only a useful ATM cell is transmitted and selected, thereby adopting a filtering function. Prevention became possible.
Also, paying attention to utilizing the VPI value of the ATM cell header to identify useful ATM cells, the communication quality of each ATM cell can be reliably confirmed by inserting the communication quality information of the ATM cell. became.
Incidentally, by inputting an instruction signal for selecting a cell from the outside instead of the cell selection control signal to the cell selection filter section, it is possible to intentionally switch between the active ATM cell and the standby ATM cell.
[0017]
In this filter device, an abnormality in connection quality or transmission quality, which is an output condition of a line state signal in the terminal section, is detected in a section overhead section within a frame of an STM signal in a detection of a line disconnection in a reception stage or in a reception stage. Is recognized by reading the K1 / K2 byte information. That is, the communication quality information of the ATM cell is inserted into the VPI of the ATM cell based on these pieces of information.
[0018]
The ATM cell selection setting condition in the cell selection control signal generation section is such that when only the VPI value of the active ATM cell is a fixed value, the standby ATM cell is selected and passed, and both the active and standby ATM cells are passed. If the VPI value is a fixed value, no ATM cell is allowed to pass. Otherwise, the condition is such that the current ATM cell is selected and allowed to pass. By providing logic for comparing and selecting the VPI values of the active ATM cell and the standby ATM cell, normal communication quality can be ensured.
[0019]
Further, when the cell selection control signal generation unit is in a condition not to pass any of the working system and protection system ATM cells, the cell selection control signal generation unit outputs a signal designating the empty cell, and outputs the ATM cell stream input from the cell selection filter unit. And an AIS insertion unit for inserting an AIS cell into a vacant cell part designated by the input cell designation signal.
As a result, the unit for selecting and judging the ATM cell and the unit for judging the insertion of the AIS cell become the same, and if both the working system and the protection system have an abnormality, the AIS cell can be reliably inserted into the empty cell portion. It becomes possible. In addition, the number of units is reduced, and simplification of the device is achieved.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
A first embodiment of the present invention will be described with reference to FIG.
The SDH line duplex transmission / reception device of the present invention shown in FIG.
An active system package 1 including a receiving end unit 10, a VPI insertion control unit 11, a VPI insertion unit 12, and a transmission side generating unit 13 connected to the active system line 4;
A standby system package 2 including a reception-side termination unit 15, a VPI insertion control unit 16, a VPI insertion unit 17, and a transmission-side generation unit 18 connected to the standby system line 5,
A common package 3 including a cell selection control signal generation unit 20, a cell selection filter unit 21, an AIS insertion unit 22, and a buffering 23;
It is composed of
Among the device constituent units, the reception side termination units 10 and 15, the VPI insertion control units 11 and 16, the VPI insertion units 12 and 17, the cell selection control signal generation unit 20, the cell selection filter unit 21, and the AIS insertion unit 22 receive. , And the transmission-side generating units 13 and 18 and the buffering 23 are involved in transmission. The arrows in the figure indicate the exchange of signals between the units.
[0021]
Next, an ATM cell stream filter method will be described based on a signal flow from receiving a duplicated STM signal to transmitting an ATM cell stream downstream via a duplicated transmitting / receiving apparatus.
(1) STM signal reception and termination processing
(1) Working package 1;
a) The receiving end unit 10 receives the STM signal including the ATM cell in the payload part as the optical signal L1 via the working line 4. At this time, the line status of the working line (whether or not the line is disconnected) is simultaneously monitored.
b) The received optical signal L1 is optically / electrically converted in the receiving end unit 10, and the STM signal is subjected to termination processing of section overhead, pointer, path overhead, and ATM cell synchronization, and the line status of the active line is monitored. The ATM cell a1 and the line state signal b1 are obtained in consideration of the result.
The line status signal b1 is K1 / K2 byte information, which is one element of the section overhead, and line status monitor result information of the working line.
c) The ATM cell a1 is output from the receiving end unit 10 to the VPI insertion unit 12, and the line state signal b1 is output to the VPI insertion control unit 11.
Here, since the ATM cells a1 are sequentially output when viewed over time, a flow of active ATM cells (active ATM cell stream) is formed.
(2) Spare package 2;
The same processing as that of the active package is basically performed in the standby package.
a) The receiving end unit 15 receives the STM signal including the ATM cell in the payload section as the optical signal L3 via the protection line 5. At this time, the line status of the working line (whether or not the line is disconnected) is simultaneously monitored.
b) The received optical signal L3 is optically / electrically converted by the receiving end unit 15, and the STM signal is subjected to section termination, pointer, path overhead, and ATM cell synchronization termination processing, and the line status of the active line is monitored. The ATM cell a3 and the line state signal b2 are obtained in consideration of the result.
The line status signal b2 is K1 / K2 byte information, which is one element of the section overhead, and line status monitor result information of the standby line.
c) The ATM cell a3 is output from the receiving end unit 15 to the VPI insertion unit 17, and the line state signal b2 is output to the VPI insertion control unit 16.
Here, since the ATM cells a3 are sequentially output when viewed over time, a flow of a standby ATM cell (a standby ATM cell stream) is formed.
[0022]
(2) VPI insertion
(1) Working package;
A) VPI insertion control unit 11;
The VPI insertion control unit 11 interprets the K1 / K2 byte information based on the input line state signal b1, generates a VPI insertion control signal c1 as follows, and outputs it to the VPI insertion unit 12.
a) If the connection quality or the transmission quality of the active ATM cell a1 is abnormal, the VPI insertion control signal c1 is activated.
b) If the connection quality or the transmission quality is normal, the VPI insertion control signal c1 is set to a high impedance output.
B) VPI insertion unit 12;
According to the states a) and b) of the VPI insertion control signal c1, the following processing is performed on the VPI section of the active ATM cell header.
State a): A fixed VPI value set in advance is inserted, and the ATM cell a2 is transmitted to the cell selection control signal generation unit 20 and the cell selection filter unit 21.
State b): The ATM cell a1 input to the VPI insertion unit 12 is directly transmitted to the cell selection control signal generation unit 20 and the cell selection filter unit 21 as the active ATM cell a2.
(2) Spare package 2;
The same processing as that of the active package is basically performed in the standby package.
A) VPI insertion control unit 16;
The VPI insertion control section 16 interprets the K1 / K2 byte information based on the input line state signal b2, generates a VPI insertion control signal c2 as follows, and outputs it to the VPI insertion section 17.
a) If the connection quality or the transmission quality of the standby ATM cell a3 is abnormal, the VPI insertion control signal c2 is activated.
b) If the connection quality or the transmission quality is normal, the VPI insertion control signal c2 is set to a high impedance output.
B) VPI insertion unit 17;
The following processing is performed on the VPI section of the standby ATM cell header in accordance with the states a) and b) of the VPI insertion control signal c2.
State a): A fixed VPI value set in advance is inserted, and the ATM cell a4 is transmitted to the cell selection control signal generation unit 20 and the cell selection filter unit 21.
State b): The ATM cell a3 input to the VPI insertion unit 17 is directly transmitted to the cell selection control signal generation unit 20 and the cell selection filter unit 21 as the standby ATM cell a4.
The active ATM cell a2 and the standby ATM cell a4 are synchronized when they reach the cell selection filter unit 21.
[0023]
(3) Selection of active / standby ATM cell
(1) Cell selection control signal generator 20;
The cell selection control signal generation section 20 compares the VPI values of the headers of the input working and protection ATM cells a2 and a4, generates a cell selection control signal d1 as follows, and sends it to the cell selection filter section 21. Output.
a) When the connection quality and the transmission quality of the working ATM cell a2 are normal, the cell selection control signal is output so as to output the working ATM cell a2 regardless of the connection quality and the transmission quality of the protection ATM cell a4. The signal d1 is output to the cell selection filter unit 21 with d1 as a preset fixed value (for example, +1).
b) If the connection quality or transmission quality of the working ATM cell a2 is abnormal and the connection quality and transmission quality of the protection ATM cell a4 are normal, the output control signal d1 is output in advance so as to output the protection ATM cell a4. The signal d1 is output to the cell selection filter unit 21 as a fixed value (for example, -1) different from the set value a).
c) When the connection quality or the transmission quality of both the working ATM cell a2 and the protection ATM cell a4 are abnormal, the output control signal d1 is set so as not to output any ATM cells. The signal d1 is output to the cell selection filter 21 as a different fixed value (for example, 0) (the output control signal d1 may not be output and a high impedance output may be used).
(2) Cell selection filter 21;
According to the states a), b) and c) of the cell selection control signal d1, an ATM cell is selected as follows and transmitted to the AIS insertion unit 22.
State a): The active ATM cell a2 is selectively transmitted through the cell selection filter 21 and transmitted to the AIS insertion unit 22 (the standby ATM cell a4 is not selectively transmitted).
State b): The standby ATM cell a4 is selectively transmitted through the cell selection filter 21 and transmitted to the AIS insertion unit 22 (the active ATM cell a2 is not selectively transmitted).
State c): Neither the active ATM cell a2 nor the standby ATM cell a4 are selectively transmitted.
[0024]
(4) Insertion of AIS cell
(1) Cell selection control signal generator 20;
The cell selection control signal generation unit 20 generates an AIS insertion control signal e1 as follows in accordance with the states a), b), and c) of the cell selection control signal d1 and outputs it to the AIS insertion unit 22 as follows. .
a) In the case of the state c) of the cell selection control signal d1 (when both the active ATM cell a2 and the standby ATM cell a4 have abnormal connection quality or transmission quality), the AIS insertion control signal e1 is activated.
b) In cases other than the above, the AIS insertion control signal e1 is set to a high impedance output.
(2) AIS insertion part 22;
In accordance with the states a) and b) of the AIS insertion control signal e1, the AIS cell is inserted into the corresponding empty cell as follows.
State a): Insert an AIS cell into a corresponding empty cell.
State b): The cell a5 input to the AIS insertion unit 31 flows downstream as it is (does nothing).
An ATM cell stream whose normal communication quality has been ensured by the above-described processing on the receiving side is transmitted downstream, and a cell whose communication quality has not been ensured because a failure (line disconnection, etc.) has occurred in both the working system and the protection system. Is inserted with an AIS cell indicating an alarm.
The signal processing on the transmission side of the duplex transmission / reception device is the same as that of the conventional example.
[0025]
Next, a second embodiment of the present invention will be described with reference to FIG.
The SDH line duplex transmission / reception device of the present invention shown in FIG.
An active system package 51 including a receiving-side termination circuit 60, a cell header processing circuit 61, and a transmitting-side generating circuit 63 connected to the active system line 54;
A standby system package 52 including a receiving-side termination circuit 65, a cell header processing circuit 66, and a transmission-side generating circuit 68 connected to the auxiliary system line 55;
A common package 53 including a cell selection filter circuit 71, an alarm insertion circuit 72, and a waveform improvement circuit 73;
It is composed of
Among the device constituent units, the receiving side termination circuits 60 and 65, the cell header processing circuits 61 and 66, the cell selection filter circuit 71 and the alarm insertion circuit 72 are involved in the reception, and the transmission side generating circuits 63 and 68 and the waveform improving circuit. 73 are involved in transmission. The arrows in the figure indicate the exchange of signals between the units.
Here, the receiving-side terminating circuits 60 and 65 are circuits having functions equivalent to those of the receiving-side terminating units 10 and 15 in the first embodiment (FIG. 1), and (1) receiving and terminating the STM signal in the first embodiment. The same operation and effect as the processing are performed.
The cell header processing circuits 61 and 66 are circuits having the functions of the VPI insertion control units 11 and 16 and the VPI insertion units 12 and 17 in the first embodiment (FIG. 1), and are the same as (2) VPI insertion in the first embodiment. The operation and effect of (1) are performed.
The cell selection filter circuit 71 is a circuit having both functions of the cell selection control signal generation unit 20 and the cell selection filter unit 21 in the first embodiment (FIG. 1), and (3) the active / standby ATM in the first embodiment. The same operation and effect as the cell selection are performed.
The alarm insertion circuit 72 is a circuit having the same function as the AIS insertion unit 22 in the first embodiment (FIG. 1), and has the same operation and effect as (4) insertion of an AIS cell in the first embodiment. .
The transmission-side generation circuits 63 and 68 and the waveform improving circuit 73 have the same functions as the transmission-side generation units 13 and 18 and the buffering 23 in the first embodiment (FIG. 1), and perform the same functions and effects.
[0026]
【The invention's effect】
As described above, according to the method of the present invention, the switch switching method is realized by collecting the active ATM cell and the standby ATM cell at one place and employing a filter function of transmitting and selecting only useful ATM cells. Can be avoided and instantaneous interruption of data can be prevented.
Focusing on utilizing the VPI value of the ATM cell header portion to identify useful ATM cells, the VPI section of the ATM cell detects line disconnection at the reception stage or detects the line break in the frame of the STM signal at the reception stage. By inserting the communication quality information (connection quality or transmission quality) recognized from the K1 / K2 byte information included in the section overhead section, the communication quality of each ATM cell can be confirmed with certainty. By providing a logic for comparing and selecting the VPI value of the standby ATM cell, normal communication quality can be ensured.
Furthermore, the grounds for detecting that there is an abnormality in both the working system and the protection system are the same for the case where the ATM cell is selected and the case where the AIS cell is inserted, and the AIS cell is inserted into the empty cell portion. Reliable insertion becomes possible.
[0027]
According to the apparatus of the present invention, the switch switching method can be avoided by collecting the active ATM cell and the standby ATM cell into one unit and employing a filter function of transmitting and selecting only useful ATM cells, Data instantaneous interruption can be prevented.
Also, paying attention to utilizing the VPI value of the ATM cell header to identify useful ATM cells, the communication quality of each ATM cell can be reliably confirmed by inserting the communication quality information of the ATM cell. Become.
[0028]
In this filter device, an abnormality in connection quality or transmission quality, which is an output condition of a line state signal at a terminal portion, is included in a section overhead portion in a frame of an STM signal in a detection of line disconnection in a reception stage or in a reception stage. The communication quality information of the ATM cell is inserted into the VPI of the ATM cell based on the information recognized by reading the K1 / K2 byte information.
Further, by providing a logic for comparing and selecting the VPI values of the active ATM cell and the standby ATM cell, normal communication quality can be ensured.
The unit for selecting and judging the ATM cell and the unit for judging the insertion of the AIS cell are the same, and the AIS cell can be reliably inserted into the vacant cell portion when both the working system and the protection system have an abnormality. . In addition, the number of units is reduced, and simplification of the device is achieved.
[Brief description of the drawings]
FIG. 1 is a block diagram of a duplex transmission / reception device showing an embodiment of the present invention.
FIG. 2 is a block diagram of a duplex transmission / reception device showing an embodiment of the present invention.
FIG. 3 is a block diagram of a conventional duplex transmission / reception device.
[Explanation of symbols]
1, 51, 101 Working package
2, 52, 102 Reserved package
3, 53, 103 Common package
4, 54, 104 Working line
5, 55, 105 Spare line
L1, L3, L51, L53, L101, L103 Receiver optical signal
L2, L4, L52, L54, L102, L104 Transmission side optical signal
10, 15, 110, 115 Receiving end unit
11, 16 VPI insertion control unit
12, 17 VPI insertion part
b1, b2, k1, k2 line status signals
a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, f1, f2, f3, f4, f5, f6 Main signals (ATM cells)
g1, g2 main signal (ATM cell) and line status signal
c1, c2 VPI insertion control signal
13, 18, 113, 118 Transmission-side generation unit
20 Cell selection control signal generator
d1 cell selection control signal
21 Cell selection filter section
22, 122 AIS insertion part
23, 123 Buffering
e1, e2 AIS insertion control signal
63, 68 Receiving end circuit
61, 66 cell header processing circuit
63, 68 transmission side generation circuit
71 Cell Selection Filter Circuit
72 Alarm insertion circuit
73 Waveform improvement circuit
111, 116 APS information extraction unit
112, 117 output control unit
h1, h2 section overhead signal
i1, i2 APS signal
119 output control signal generator
j1, j2 output control signal
120 AIS insertion control unit

Claims (7)

Separately receiving an STM signal including an ATM cell in a payload portion transmitted as a duplex transmission as an active STM signal and a standby STM signal;
An ATM cell stream stage for taking out ATM cells from the received signals and separately flowing downstream as active ATM cells and standby ATM cells;
A VPI value inserting step of inserting a fixed value set in advance into a VPI of a header of the ATM cell when connection quality or transmission quality is abnormal among the extracted ATM cells,
In the ATM cell stream after the VPI value insertion, if only the VPI value of the active ATM cell is a fixed fixed value in the VPI values of the respective headers of the synchronized active ATM cell and the standby ATM cell, the backup is performed. A system ATM cell is selected and passed. If the VPI value of both the active system and the standby system is a fixed value, no ATM cell is passed. Otherwise, an active ATM cell is selected and passed. A method for filtering an ATM cell stream on a receiving side of an SDH line, comprising a filtering step. 9. The method according to claim 8, wherein the abnormality of the connection quality or the transmission quality is detected from a K1 / K2 byte information included in a section overhead section in a frame of the STM signal at a stage of detecting or detecting a line disconnection at a receiving stage. 2. The method for filtering an ATM cell stream on a receiving side of an SDH line according to 1. 3. The receiving side of an SDH line according to claim 1, wherein an AIS cell is inserted into an empty cell portion when neither an active system cell nor a standby system ATM cell is passed in the filtering step. How to filter ATM cell streams. An active receiving package corresponding to an STM signal including an ATM cell and a standby receiving package corresponding to an STM signal including an ATM cell in a payload portion transmitted via a duplexed transmission path on an SDH line receiving side;
Each receiving package receives the STM signal, extracts an ATM cell from the STM signal, flows the ATM cell stream downstream as an ATM cell stream, and outputs a line state signal when connection quality or transmission quality is abnormal. Terminations,
A VPI insertion control unit for specifying an ATM cell corresponding to the input line state signal and outputting a signal designating the ATM cell;
Of the incoming ATM cell stream, a predetermined fixed value is inserted into the VPI of the header of the ATM cell designated by the inputted ATM cell designation signal, and the VPI insertion for flowing the ATM cell stream downstream is inserted. Section is provided,
Further, the active ATM cell stream and the standby ATM cell stream sent from the VPI insertion unit are input in synchronization with each other, the VPI values of the cell headers of the respective ATM cells of both systems are compared, and a cell for selecting and instructing the ATM cell is selected. A cell selection control signal generator that outputs a selection control signal,
The active ATM cell stream and the standby ATM cell stream sent from the VPI insertion unit are input in synchronization with each other, and the target ATM cell is selectively passed according to the instruction of the input cell selection control signal, and downstream as the ATM cell stream. A filter device for an ATM cell stream on a receiving side of an SDH line, comprising a cell selection filter section for flowing the data on the receiving side. K1 / K2 byte information included in the section overhead section in the frame of the STM signal at the time of detection of line disconnection at the reception stage or the reception of the abnormality in connection quality or transmission quality, which is the output condition of the line state signal at the termination section 5. The filter device for an ATM cell stream on the receiving side of an SDH line according to claim 4, wherein the filtering is performed by reading the ATM cell stream. The ATM cell selection setting conditions in the cell selection control signal generator are as follows:
If only the VPI value of the active ATM cell is a fixed value, the standby ATM cell is selected and passed,
If the VPI value of both the working system and the protection system is a fixed fixed value, no ATM cell is passed,
6. The filtering device for an ATM cell stream on the receiving side of an SDH line according to claim 4, wherein conditions other than those are used to select and pass a current ATM cell. Outputting a signal designating a vacant cell in the cell selection control signal generating section when the condition is such that neither the working system nor the protection system ATM cell is passed;
7. The AIS insertion unit according to claim 6, further comprising an AIS insertion unit that inserts an AIS cell into a vacant cell portion specified by the input cell specification signal in the ATM cell stream input from the cell selection filter unit. Of the receiving side ATM cell stream of the SDH line.

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