JP3461784B2 - Communication method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated network constructed by connecting communication systems adopting different communication systems to the communication system of an existing synchronous communication system, and more particularly to common operation in the integrated network. It relates to possible communication methods.

[0002]

2. Description of the Related Art FIG. 4 shows an example of an integrated network A1 in which an existing synchronous communication system 7 and a new communication system 7'having a new protocol different from that of the conventional synchronous communication system 7 are connected by a conventional technique. This integrated network A1
Is composed of a synchronous communication system 7, a new communication system 7 ', and a communication system conversion node A2 connecting them.

The synchronous communication system 7 has a predetermined frame structure 1 and a predetermined frame signal 9 including communication data 2 and control information 3 having an n-bit length (n is a natural number) for operating and maintaining the communication system. Of the synchronous frame communication method 5 for continuously transmitting and receiving at the interval of the frame time 4 of
And a network operation unit 30 according to a control information processing method 6 which is a processing method of the control information 3 for performing operation and maintenance.

The new communication system 7'uses a frame time 4 by a communication system 5'which is different from the synchronous frame communication system 5.
Between the communication data 2'and at least N bits long (N is n
Communication unit 50 ′ according to communication method 5 ′ capable of communicating a signal 9 ′ including control information 3 ′ having a larger natural number)
And a network operation unit 30 'according to a control information processing method 6'which is a processing method of the control information 3'for performing operation and maintenance.

[0005]

In the integrated network A1, since the control information processing system 6'of the new communication system 7'is different from the control information processing system 6 of the existing synchronous communication system 7, the new communication system 7 '. When introducing
It was necessary to develop new software to realize the control information processing method 6 '. In addition, integrated network A
In No. 1, the network operation is individually performed by the control information processing method 6 of the synchronous communication system 7 and the control information processing method 6'of the new communication system 7 '.

Therefore, in the integrated network A1 according to the above conventional technique, even if the cost reduction of hardware is realized by the introduction of the new communication system 7 ', a new control information processing system 6'is realized. There was a problem that the cost of software development could not make the integrated network economical.

Further, regarding a signal transmitted through both the synchronous communication system 7 and the new communication system 7 ', there is no operation mechanism for guaranteeing the service quality between the transmitting end and the receiving end of the signal, and the quality is improved. There was a problem that could not provide a guaranteed service.

The present invention has been made to solve the above problems, and its object is to reduce the development cost by directly using the control information processing system adopted in the existing synchronous communication system. And to provide a communication method capable of realizing seamless network operation when constructing an integrated network with an existing synchronous communication system.

[0009]

To achieve the above object, in a communication method according to the present invention, a frame signal including communication data and first control information having an n-bit length and having an SDH frame structure is provided. Which is a synchronous frame communication system for communicating frames at a frame time interval of 125 μs .
Communication method and SDH frame overhead processing method
Conforming to the formula, the communication system using the control information processing method of processing said first control information, said first
Control information is provided for each byte in the repeater section overhead.
And each byte of the terminal section overhead, high
All or part of each byte of next pass overhead
A second communication method, which is a communication method different from the above-mentioned first communication method, is composed of a certain m bytes of control information bytes , and communication data and a larger amount of information than the first control information are transmitted.
A signal and a second control information having the N (> n) bits long, which may include communication above notated frame time interval, in which,
A second control information including information corresponding to the control information bytes are to communicate on notated frame time interval.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. In the present embodiment, in the communication method different from the communication method of the existing synchronous communication system, the control information is made common and the communication speed of the control information is adjusted so that the same mechanism as the communication by the frame of the existing synchronous communication system is virtualized. Will be realized in real time. This allows
By communicating the overhead information of the synchronous communication system using the frame in the frame cycle (virtual frame), it is possible to realize the communication system which has no difference in operation.

FIG. 1 shows an embodiment of an integrated network A1 in which an existing synchronous communication system 7 and a new communication system 7'of a new protocol according to the present invention different in communication system from the existing synchronous communication system 7 are connected. The integrated network A1 includes a synchronous communication system 7, a new communication system 7 ', and a communication system conversion node A2 connecting them.

A network operation unit 100 is provided in each of the synchronous communication system 7 and the new communication system 7 '. As will be described later, the network operation unit 100 processes the control information 3 and the control information 3 ′ according to the control information processing method 6 based on the SDH frame overhead processing method.

The synchronous communication system 7 uses the communication unit 50 to communicate the communication data 2 and the control information 3 for the operation and maintenance of the communication system according to the synchronous frame communication system 5, which is a communication system using SDH frames.

FIG. 2A shows a structure of a signal communicated by the synchronous frame communication system 5, and FIG. 2B shows a frame structure of the synchronous frame communication system 5. As shown in FIG. 2A, in the synchronous frame method 5, the communication data 2 and the control information 3 are transmitted / received continuously at intervals of the frame time 4 of 125 μs by using the frame having the frame structure 1 conforming to SDH. .

As shown in FIG. 2B, the control information 3 is
M bytes (m is a natural number) of control information bytes 8-1 to 8 which are all or a part of each byte of the repeater section overhead, each byte of the terminal section overhead, and each byte of the high-order path overhead. -M. The control information processing method 6, which is a processing method of the control information 3 for performing operation and maintenance, conforms to the SDH frame overhead processing method.

FIG. 3 is an example of a timing chart of signals for communication in the new communication system 7 '. The new communication system 7'uses the communication unit 50 'to perform communication data 2'and one block as the control information 3'in the frame time 4 of 125 μs by the communication method 5'different from the synchronous frame communication method 5. Is composed of K (K is a natural number) codes, and m control information blocks 8B-1 ′ to 8B-
communicate with m '. The control information block 8B-i '(i is 1 to m) includes a code representing the control information byte 8-i' corresponding to the control information byte 8-i. Also, each block is
It includes control information identification bits C1 and C2 consisting of one bit or a plurality of bits for identifying the type of control information byte included therein.

In the transmission of the control information block 8B-i ', the period during which the communication data 2'is not transmitted is used,
The transmission of m pieces of control information blocks 8B-1 ′ to 8B-m ′ is completed during the frame time 4 (125 μs). 125
Frame timings are generated at μs intervals, and transmission is sequentially started from the control information block 8B-1 ′ according to the timings. The transmission of the control information block corresponding to the next frame is not started from the time when the transmission is completed up to 8B-m 'to the next frame timing.

Upon reception of the control information block 8B-i ', the control information block including the control information identification bit indicating the control information byte 8-1' is detected, and the jitter component is removed from this detection timing to determine the frame timing. Reproduce.

When the control information identification bit of the received control information block indicates the control information byte 8-i ', the control information byte 8-i' is obtained from the block. If the control information block 8B-j 'is not received among the control information blocks 8B-2' to 8B-m 'that should be received, a code error has occurred in the control information byte 8-j' during transmission. It is determined that this is the case, and predetermined error processing is performed.

The control information processing system 6 of the synchronous communication system 7 is applied as the control information processing system for the control information byte 8-i 'for operating and maintaining the new communication system 7'.

Therefore, according to the new communication system 7'to which the communication system according to the present embodiment is applied, the control information of the existing synchronous communication system 7 is made common, and the communication speed of the control information is adjusted so that the existing synchronization is achieved. A virtual frame equivalent to the frame of a communication system is realized.

As a result, the control information processing system 6 of the existing synchronous communication system 7 can be adopted as it is in the new communication system 7'to which the communication system of this embodiment is applied. Further, in an integrated network in which the existing synchronous communication system 7 and the new communication system 7'to which the communication method according to the present embodiment is applied are mixed, the control information processing method 6 can be unified, so that the operation of the integrated network can be the same. It can be realized in the same manner as in the case where it is composed of only the synchronous communication system 7. Further, the present embodiment is suitable for use in packet communication such as Ethernet (registered trademark).

The control information 3'of the new communication system 7 '
Of m control information blocks 8B-1 ′ to
Of the 8B-M ', the control information block 8B-i' that matches the default value may not be transmitted. In that case, upon receiving the control information 3 ′, it is detected that the control information block 8B-i ′ has not been received at a predetermined time, and when this is detected, the control information block 8B-1 ′ that matches the default value is detected. Process as if received.

Further, the present invention is applicable not only to SDH as the existing synchronous communication system 7, but also to other communication systems for performing synchronous communication using SONET or other frames.

[0025]

As described above, according to the present invention, the control information required by the control information processing method of the existing synchronous communication system is communicated by the virtual frame equivalent to the frame of the existing synchronous communication system. Therefore, the control information processing method of the existing synchronous communication system can be adopted as it is.

Further, in the integrated network in which the existing synchronous communication system and the communication system to which the communication method of the present invention is applied are mixed, the control information processing methods can be unified, so that the operation of the integrated network is changed to the existing synchronous communication system. It can be realized in the same way as when it is composed of only.

Further, by configuring as described in claims 2 and 3, it is possible to perform packet communication such as Ethernet according to the SDH method.

As described above, the present invention reduces the development cost by directly using the control information processing method adopted in the existing synchronous communication system, and enables seamless network operation in the integrated network with the existing synchronous communication system. It has an excellent effect.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an integrated network according to an embodiment of the present invention.

2 is a block diagram showing a signal structure and a frame structure according to the SDH method in the synchronous communication system 7 of FIG.

FIG. 3 is a timing chart showing an example of signals for communication in the new communication system 7 ′.

FIG. 4 is a block diagram showing a configuration of a conventional integrated network.

[Explanation of symbols]

2, 2'communication data 3, 3'control information 4 frame time 5, 5'communication system 6 Control information processing method 7 Synchronous communication system 7'New communication system 8B control information block 9 frame signal 9'signal 30, 30 'Communication unit 100 Network Operations Department A1 integrated network

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04L 29/06 H04J 3/00

Claims (4)

(57) [Claims] 1. A first communication method which is a synchronous frame communication method for communicating a frame signal including communication data and first control information having an n-bit length and having an SDH frame structure at a frame time interval of 125 μs. , SDH frame
For a communication system using a control information processing method for processing the first control information , which complies with the overhead processing method of the network, the first control information is transmitted to the relay section overhead.
Mode byte and each terminal section overhead bar
And all of each byte of high-order path overhead or
A second communication method, which is a communication method different from the above-mentioned first communication method, is used for the communication data and the first control information.
Second with N (> n) bit length , which can include a large amount of information
A signal including the control information communicated on notated frame time interval, the time, and wherein the communicating on notated frame time interval and the second control information including information corresponding to the control information bytes Communication method to do. 2. In the second communication method, M control information blocks each of which is composed of K codes are used as second control information, and each control information block is included in the block. The control information identification bits of a predetermined number of bits for identifying control information to be transmitted are transmitted, and the M control information blocks are transmitted during a period in which communication data is not transmitted within the frame time. The communication method according to claim 1. 3. A first part having communication data and an n-bit length.
A frame including control information and having an SDH frame structure
Synchronous communication of a frame signal at a frame time interval of 125 μs
The first communication method, which is a frame communication method, and the SDH frame
In accordance with the overhead processing method of the system, the first
A communication system using a control information processing method for processing control information.
System , and the first control information is the repeater section overhead.
Mode byte and each terminal section overhead bar
And all of each byte of high-order path overhead or
The second communication, which is a communication method different from the above-mentioned first communication method, is composed of m bytes of control information bytes.
Than the communication data and the first control information by using the communication method.
Second with N (> n) bit length, which can include a large amount of information
Signals including control information of the above are communicated at the above frame time intervals.
However, at that time, the information corresponding to the control information byte is included.
Communicating the second control information at the frame time interval
A communication system characterized by. 4. The control according to the second communication method, wherein one block is composed of K codes
The information block is used as the second control information, and each control information block includes the control information included in the block.
A predetermined number of control information identification bits for identifying information
, And communication data within the above frame time is not transmitted.
Transmission of the above M control information blocks during a certain period
The communication system according to claim 3, wherein