JPH04100347A - Atm transmission system - Google Patents

Abstract

PURPOSE:To send a synchronization data signal through the use of an ATM (Asynchronous Transfer Mode) network by setting a bit string for frame synchronization to a head of a frame so as to process a cell. CONSTITUTION:A bit string SYNC 4 for frame synchronization is added to identify a head of an information frame of a user and a synchronizing signal string 5a is accommodated. Succeeding synchronizing signal strings 5b, 5c are accommodated in 2nd and 3rd cells and remaining information 5d of user information is accommodated in a 4th cell and a bit string SYNC 4 for frame synchronization representing a head of a succeeding information frame is inserted and a synchronizing signal string 6 of a succeeding frame is accommodated. Thus, ATM cell processing is implemented to the synchronizing signal string having frame structure without losing the frame structure and the ATM transmission of the synchronizing signal having the frame structure is realized.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention is applicable to ATM (Asylum) in wideband ISDN.
nchronus TransferMode
) It is related to the transmission method.

[Prior art] Digital transmission formats include the Journal of the Institute of Electronics, Information and Communication Engineers 198
As stated on pages 806-814 of the August 2008 issue, there are two main types: synchronous transfer mode and asynchronous transfer mode.
There are two types. The synchronous transfer mode is for transmitting a synchronous data signal having a frame structure, for example,
In the public network, NTT's high-speed digital leased line and 15DN-
This includes the Basic interface and the like. on the other hand,
In the asynchronous transfer mode, data is transmitted aperiodically, and includes packet communication and ATM communication. In this way, the synchronous transfer mode and the asynchronous transfer mode are completely different types, and it has never been considered to transmit a signal in the synchronous transfer mode in the asynchronous transfer mode.

[Problems to be Solved by the Invention] The ATM transmission method in wideband I5DN is a type of asynchronous transfer mode, in which transmission information is accommodated in fixed-length cells, and is demultiplexed and transmitted on a cell-by-cell basis. . Therefore, in order to transmit a synchronous data signal using an ATM network, which is an asynchronous communication network, the synchronous data signal must be converted into cells/decells in a way that does not lose sight of the frame structure of the synchronous data signal. There is a problem.

[Means for Solving the Problems] The ATM transmission system according to the present invention transmits information clarifying the frame structure of a synchronous data signal (hereinafter referred to as frame information) to 5 in the ATM adaptation layer.
AR-PDU (Segmentation A
nd Reassembly-Protoco]
By setting this in the payload of the synchronous data unit (Data Unit), the frame structure of the synchronous data signal can be easily recognized during ATM decellation.

The first invention is characterized in that a bit string for frame synchronization is set at the beginning of the frame and then the frame is converted into cells (method 1).

The second invention is characterized in that a pointer area is provided to display the phase in the information field at the head of the frame, and information on the head position of the information frame is written in the area to form a cell (method 2).

The third invention is characterized in that a frame synchronization bit string is inserted into an empty slot of an information frame to form cells (method 3).

[Operation] Among the three methods of this invention, in methods 1 and 3, on the cell receiving side, the bit string for frame synchronization in the payload of 5AR-PDTJ (in the case of method 1) or the frame synchronization signal (in the case of method 3) is used. However, in method 2, frame synchronization is achieved by searching for 5AR-P
Since the pointer is set at a predetermined position in the DTJ, frame synchronization can be achieved without searching within the payload of the 5AR-PDIJ.

[Example] Hereinafter, one embodiment of the present invention will be described based on the drawings.

FIG. 1 is a diagram showing an embodiment of the first invention, and shows the structure within an ATM cell when a synchronization signal string consisting of 1056 bits per frame is formed into cells. In the figure, (1) is an ATM cell header consisting of 5 octets, (
2) is a 4-bit sequence number (called SN)
, (3) is a 4-bit sequence number protection (SNP), (4) is a 5YNC bit, (
5a), (5b), (5c) and (5d), etc. (5) is the synchronization signal sequence of one frame of 1056 bits, (6
) is the synchronization signal sequence of the previous frame, and (7) is the synchronization signal sequence of the next frame.

The cell consists of a cell header (1) and 48 octets of 5AR-P.
The 5AR-PDU consists of a 4-bit sequence number (SN) and a 4-bit sequence number (SN).
It consists of number protection (SNP) and the remaining 47 octets of synchronization signal string which is user information.

Next, the operation will be explained. First, a case will be described in which a user's information frame is converted into cells.

Eight bits of a frame synchronization bit string 5YNC (4) for identifying the leading position of the user's information frame are added to accommodate a synchronization signal string (5a) that satisfies the cell length. Successive synchronization signal sequences (5b) and (
5C) is accommodated in an area of 47 octets. The fourth cell contains the remaining 1056-bit user information (5d
), a bit string 5YNC (4) for frame synchronization indicating the beginning of the next information frame is inserted, and a synchronization signal string (6) of the next frame is accommodated.

On the cell receiving side, frame synchronization can be achieved by searching the bit pattern of the frame synchronization bit string 5YNC(4) inserted on the cell transmitting side.

FIG. 2 is a diagram showing an embodiment of the second invention, and in the diagram,
(8) is a pointer that displays the top phase of the user's information frame, and the pointer (8) is provided at one octet next to the sequence number protection 5NP (3).

The configuration of one frame of user information is 1056 bits.

Next, the operation will be explained. When converting user information into cells on the sending side, pointer to the beginning position of the frame (8)
write to.

The receiving side decodes the pointer (8) set on the transmitting side and recognizes the starting position of the frame within 5AR-PDtJ.

FIG. 4 shows an embodiment in which this pointer (8) is composed of one octet.

In the figure, AO-A5 with bit numbers 0 to 5 is 5AR-PD
The address indicating the start position of the frame within U, bit numbers 6 and 7, X and P, are assigned to dummy bits and parity bits, respectively.

FIG. 3 is a diagram showing an embodiment of the third invention, in which the structure of one frame of user information is exemplified by a synchronization signal string composed of 1056 bits, similar to the embodiment of the first invention.

On the transmitting side, when converting a user's information frame into cells, the frame synchronization bit string 5YNC(4) is inserted into an empty time slot in the synchronization signal string of the information frame.

On the other hand, when decelling is performed on the receiving side, frame synchronization is achieved using this inserted frame synchronization bit string 5YNC(4).

[Effects of the Invention] As described above, according to the present invention, a synchronization signal sequence having a frame structure can be converted into an ATV cell without losing sight of the frame structure, and the receiving side can easily convert it into an ATV cell. Since the frame structure can be restored, there is an effect that ATM transmission of a synchronization signal having a frame structure can be realized.

[Brief explanation of drawings]

FIG. 1 is a diagram showing an embodiment of the first invention, FIG. 2 is a diagram showing an embodiment of the second invention, FIG. 3 is a diagram showing an embodiment of the third invention, and FIG. 4 is a diagram showing a pointer. It is a figure showing an example of composition. (1)...Cell header, (2)...Sequence number SN, (3)...Sequence number protection SNP, (4)...-Frame synchronization bit string 5YNC, (5)... Information frame, (6)...Previous information frame, (7)...Next information frame, (8)...
. . . Pointer PTR0 In the figures, the same reference numerals indicate the same or equivalent parts. Figure 1

Claims (3)

[Claims] (1) When accommodating a signal string having a frame structure in the information field within an ATM cell, in addition to the above-mentioned signal string,
An ATM transmission method characterized by setting a bit string for frame synchronization at the beginning of a frame and then converting it into cells. (2) When storing a signal string having a frame structure in the information field of an ATM cell, a pointer is provided in the information field of the ATM cell to display the phase in the information field of the top position of the frame of the above-mentioned signal string. An ATM transmission system characterized by: (3) When storing a signal string having a frame structure in the information field of an ATM cell, a frame synchronization bit string is inserted into the empty slot in the above-mentioned signal string, and the frame of the signal string in the information field of the ATM cell is An ATM transmission method characterized by displaying the phase.