JP3081406B2 - Pointer reception error judgment method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an SDH (Synchronous Diode).
The present invention relates to a method for determining a pointer reception abnormality in an SDH transmission method for transmitting information using a transmission frame.

[0002]

2. Description of the Related Art CCITT (International Telegraph and Telephone Advisory Committee)
Recommendation G. S defined in 707, 708, 709
In the DH transmission method, a block position designation method called a pointer is employed. This pointer indicates the head position of the blocked information called a virtual container by the number of bytes as the distance from the pointer value accommodation time slot.

[0003] Also, a method has been defined in which a plurality of virtual containers are connected to transmit more information than the capacity of one virtual container. At this time, only one pointer is defined for the plurality of connected virtual containers, and a concatenation indication bit indicating the connection of the plurality of virtual containers is stored in the other pointer areas. For example, when connecting X virtual containers-4, the AU-4-Xc pointer is stored in the first part of the corresponding pointer area, and the concatenation indication bit is stored in the other part of the pointer area. You.

FIG. 2 shows an AU-frame in an STM-4 frame.
It is a figure showing a 4-4c pointer. As shown in the figure, the pointer value accommodation time slots H1 and H2 have pointer values PTR indicating the head position of the virtual container VC-4.
At the same time, a new data flag bit NDF and a size designation bit SS are stored, and the pointer value PTR, the new data flag bit NDF, and the size designation bit SS constitute an AU-4-4c pointer.

[0005] A method for judging the reception abnormality of the pointer value of the AU-4 pointer is described in CCITT Recommendation G. As described in 783, when the pointer value does not exceed 782, it is regarded as a normal value. Also, the concatenation indication bit CI indicates that the transmission signal is AU-4-
4c pointer, so that the AU-
During transmission of the 4-4c pointer, it is necessary to constantly monitor its normality.

[0006]

However, conventionally, there has been no definition of a method for judging the reception abnormality of the AU-4-Xc pointer including the monitoring of the concatenation indication bit CI. Then, in the pointer reception abnormality determination method, it is desirable to use a method capable of suppressing the abnormality erroneous detection probability to be small even with a short abnormality detection time, that is, a short protection stage number.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and has as its object to provide a pointer reception abnormality determination method with a small abnormality erroneous detection probability even with a short protection stage number.

[0008]

In order to achieve this object, the present invention provides a method for storing a plurality of virtual containers.
4 in which the AU-4-Xc pointer is added to the AU-4-Xc pointer of 6X bytes and transmitted.
X in units of 6 bytes, which is the size of a U-4 pointer
After dividing the divided pointers into individual divided pointers and independently detecting a fixed value for each of the divided pointers to detect a reception error of the divided pointers, the logical sum of the result is used to calculate the AU.
-4- Determine whether reception of the Xc pointer is abnormal.

[0009]

According to the pointer reception abnormality determination method, the erroneous detection time interval based on the transmission path error can be increased.

[0010]

FIG. 1 is a diagram showing an apparatus for implementing a pointer reception abnormality determining method according to the present invention. As shown in the figure, the SOH processing unit 2 synchronizes the signal received by the optical receiving unit 1 with a frame, and further processes each overhead byte. Next, the separation unit 3 separates the linked virtual container and the pointer value accommodation time slot. That is, in the STM-4, a maximum of four virtual containers VC-4 can be connected, and the AU-4-4c pointer added at this time is 24 bytes long. AU
-4 Divide the pointer into four divided pointers in units of 6 bytes corresponding to the size of the pointer. Next, the first divided pointer is collated by the pointer collating unit 4, and the following three divided pointers are collated by the CI collating units 5a to 5c.
Performs bit pattern collation. Next, the detection protection units 6a to 6d independently perform detection protection of a fixed value for each of the divided pointers, and output an abnormality signal from the detection protection units 6a to 6d if the abnormality continues several times in protection stages. Next,
The OR circuit 7 takes a logical sum, and if an abnormal signal is output from at least one of the detection protection units 6a to 6d, the OR circuit 7 outputs a LOP (Loss of Pointer) detection signal.

Here, the abnormality erroneous detection probability when performing the LOP determination is the reciprocal of the erroneous detection time interval. Assuming that the number of protection stages against a transmission path error is n, the frame period is t, and the pointer error probability is P, the erroneous detection time interval T based on the transmission path error can be evaluated by the following equation.

[0012]

(Equation 1)

When the number of pointer collation bits is r and the transmission line error rate frame period is Pe, P = r · Pe.

Therefore, the erroneous detection time interval T of the AU-4 pointer is as follows. In the case of the AU-4 pointer, the number r of pointer collation bits is 38, and the frame period t is 125 μsec. Road error rate Pe is 10 ~ ⁴
Under the condition (1), the false detection time interval is 5 years.

When the abnormality is detected without dividing the AU-4-4c pointer, since the number r of pointer collation bits is 155, the erroneous detection time interval T is 0.004.
Year.

On the other hand, when the AU-4-Xc pointer is divided into X (the number of links), the erroneous detection time interval T based on the transmission path error can be evaluated by the following equation.

[0017]

(Equation 2)

If the number of pointer collation bits before connection is m, then P = m · Pe and the number of pointer collation bits m is 38. Therefore, when the number of links X is 4, the frame period t and the number of protection stages n and the transmission path error rate Pe are the same as described above, the erroneous detection time interval T is 1.25 years.

As described above, the AU-4-4c pointer is set to 4
When the abnormality detection is performed by dividing the pointer into a plurality of divided pointers, the erroneous detection time interval T becomes very large as compared with the case where the abnormality detection is performed without dividing the AU-4-4c pointer. Therefore, it is possible to determine a pointer reception error with a small error detection probability even with a short protection stage number.

In the above embodiment, the case where the number of links X is 4 has been described, but it is clear that the present invention can be applied to the case where the number of links is other.

[0021]

As described above, in the pointer reception abnormality determination method according to the present invention, the erroneous detection time interval based on a transmission line error can be increased, so that the erroneous error detection probability is reduced even with a short number of protection stages. can do. Thus, the effect of the present invention is remarkable.

[Brief description of the drawings]

FIG. 1 is a diagram showing an apparatus for implementing a pointer reception abnormality determination method according to the present invention.

FIG. 2 is a diagram showing an AU-4-4c pointer in STM-4.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Optical receiving part 2 ... SOH processing part 3 ... Separation part 4 ... Pointer collation part 5 ... CI collation part 6 ... Detection protection circuit 7 ... OR circuit

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hitoshi Uematsu 1-1-6 Uchisaiwaicho, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Inventor Hiromi Ueda 1-1-6 Uchisaiwaicho, Chiyoda-ku, Tokyo Japan (56) References JP-A-5-235885 (JP, A) JP-A-6-268621 (JP, A) JP-A-4-150329 (JP, A) (58) Fields investigated ( Int.Cl. ⁷ , DB name) H04J 3/00 H04L 1/00

Claims (1)

(57) [Claims] 1. A method for connecting a plurality of virtual containers-4,
In the pointer reception abnormality determination method in the SDH transmission method in which a 6X-byte AU-4-Xc pointer is added and transmitted, the AU-4-Xc pointer is converted into an X in units of 6 bytes corresponding to the size of the AU-4 pointer. After dividing the divided pointers into a plurality of divided pointers and independently protecting each of the divided pointers with a fixed value to detect the reception abnormality of the divided pointers, the logical sum of the results is used to receive the AU-4-Xc pointer. A pointer reception abnormality determination method, comprising: performing an abnormality determination.