KR100899168B1 - Variable multiplex frame data forming method for communication - Google Patents

Abstract

In the method of forming a communication variable multiple frame according to the present invention, in the method of forming a communication basic frame composed of an overhead and a payload, the overhead consists of a sink unit and a control data unit, and the seven basic frames are one variable. The control data portion of the first basic frame includes a start signal for indicating the start of a variable multiple frame, and the control data portion of the second basic frame includes caller information for indicating a sender of user data, and the third basic frame. The control data portion of the data frame comprises receiver information for informing the receiver of the user data, the control data portion of the fourth basic frame consists of command type information for informing various control commands, and the control data portion of the fifth basic frame indicates the length of the transmission data. Control data of the sixth basic frame, comprising transmission data length information The unit is configured with transmission data information for notifying transmission data, and the control data unit of the seventh basic frame is configured with error check and termination data for notifying the end of the variable multiple frame.

According to the present invention, by dividing the control data and including the divided control data in the data frame and transmitting the divided control data, it is possible to increase the proportion of user data occupied in the data frame to maximize the transmission efficiency of the user data and to transmit more user data. have.

Description

Variable multiplex frame data forming method for communication}

The present invention relates to a variable multiple frame forming method for communication, and more particularly, to a variable multiple frame forming method for communication in which control data is divided and included in a basic frame and transmitted.

In a conventional mobile communication relay system, a fixed frame structure having a fixed length and a number of basic frames and a variable length frame structure having a variable length of a frame are used for a data frame.

As shown in FIG. 1, the fixed frame structure configures a multi-frame by fixing the number of basic frames. The basic frame uses sync data to find frame synchronization and maintains a communication network using control words.

As shown in FIG. 2, the variable length frame structure includes an overhead indicating a frame alignment sequence (FAS), a source ID, a destination ID, and a length; A payload containing user data; It consists of overhead representing the frame check sequence (FCS). The variable length frame structure is used by varying the length of a frame to include user data in a data field.

In the conventional fixed frame structure, there is a problem in that the bandwidth for transmitting data is small because the fixed frame structure has a fixed number of multi-frames consisting of basic frames and a large portion of the overhead area in the frame. Because of this, there is a problem that a lot of space and cost constraints such as adding or adding a new service.

The present invention has been invented to solve the problem according to the prior art, by dividing the control data and including the divided control data in the data frame and transmitting the same, thereby reducing the overhead of the data frame and transmitting more user data, and managing the communication network. The present invention provides a method of forming a variable multiple frame for communication by variablely transmitting control data.

In the present invention for achieving the above object, in the method for forming a basic frame for communication consisting of overhead and payload, the overhead is composed of a sink unit and a control data unit, the seven basic frame is one variable The control data portion of the first basic frame includes a start signal for indicating the start of a variable multiple frame, and the control data portion of the second basic frame includes caller information for indicating a sender of user data, and the third basic frame. The control data portion of the data frame comprises receiver information for informing the receiver of the user data, the control data portion of the fourth basic frame consists of command type information for informing various control commands, and the control data portion of the fifth basic frame indicates the length of the transmission data. The control data portion of the sixth basic frame Composed of a transmission data information indicating the data, a seventh control data in the base frame part provided for communication variable multi-frame is formed characterized in that configured in the error check and an end data indicating the end of a variable multi-frame.

According to the present invention, by dividing the control data and including the divided control data in the data frame and transmitting the divided control data, it is possible to increase the proportion of user data occupied in the data frame to maximize the transmission efficiency of the user data and to transmit more user data. have.

In addition, when a mobile communication relay system is constructed or added, firmware update, control, and inquiry of a specific device can be processed without affecting the service of other devices in a point-to-multipoint connection.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exemplary view illustrating a configuration of a variable multiple frame according to an embodiment of the present invention.

A variable multiple frame according to an embodiment of the present invention is composed of variable N basic frames.

The length of the basic frame is calculated by Equation 1 below.

X: Y = X ': Y-a

Here, X denotes a clock required for data transmission, Y denotes the number of data words transmitted to the X clock, X 'denotes a clock used to transmit actual user data, and a denotes the number of overhead words. .

For example, a 1.25Gbps link can transmit 10-bit data using a 125Mhz clock, where 125Mhz is X. The user data is 122Mhz when transmitting 10 bits at 122Mhz and Y is 125 words when the overhead a is set to 3. Thus, the total length of the frame is 125 words and the double overhead is 3 words.

A variable multiple frame is constructed using N basic frames constructed by Equation 1.

In the basic frame, the overhead portion is divided into sync data and control data to synchronize frame synchronization, and the state or control of equipment connected to a communication network is executed using control data of a variable multiple frame.

The variable multiple frames consist of N basic frames, and the number of basic frames depends on the length information of the overhead.

The variable multiple frame is composed of sync data indicating the start of a data frame, control data for controlling the variable multiple frame, and user data which is data of a user using a communication network.

When transmission of the variable multiple frame is started, the information carried in the control data is as follows. The control data includes a start signal for notifying the start of a variable multiple frame, a source ID that is a sender information for notifying the sender of the user data, a destination ID that is a receiver information for notifying the receiver of the user data, and command type information for notifying various control commands. And transmission data length information indicating the length of the transmission data, transmission data information for executing the state or control of equipment connected to the communication network, and error check and termination data indicating the end of the variable multiple frame.

The control data consists of a start signal, sender information, receiver information, command type information, transmission data length information, transmission data information, error check, and termination data. Each information constituting the control data is included in the basic frame and transmitted.

When the transmission of the variable multiple frame is started, the first basic frame includes a start signal indicating the start of the variable multiple frame after the sink unit, followed by user data.

Thereafter, the second basic frame constitutes the sender information informing the sender of the user data after the sink, followed by the user data.

The third basic frame then constitutes receiver information informing the receiver of the user data following the sink and then contains the user data.

Thereafter, the fourth basic frame constitutes command type information for informing various control commands after the sink unit and then includes user data.

The fifth basic frame configures transmission data length information indicating the length of transmission data after the sink unit, and then includes user data.

Thereafter, the sixth basic frame configures transmission data information informing transmission data after the sink unit, and then includes user data.

The seventh basic frame then constitutes an error check and termination data notifying the end of the variable multiple frame following the sink, followed by user data.

As described above, the variable multiple frame includes information constituting the control data after the sync data is divided and then includes user data. Therefore, user data occupies a large portion in variable multiple frames.

The transmission data information constituting the control data executes the status or control of the equipment connected to the communication network to update or control and inquire firmware of specific equipment in the point-to-multipoint connection when the mobile communication relay system is built or added. Process without affecting.

As described above, the variable multiple frame divides the control data and includes the divided control data in the base frame to transmit the user data in the base frame, thereby maximizing the transmission efficiency of the user data and transmitting more user data.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical details of the appended claims.

1 is an exemplary view showing a conventional fixed frame structure.

Figure 2 is an exemplary view showing a conventional variable length frame structure.

3 is an exemplary view showing a configuration of a variable multiple frame according to an embodiment of the present invention.

Claims (3)

In the method for forming a basic frame for communication consisting of overhead and payload, The overhead consists of a sink unit and a control data unit, and seven basic frames constitute one variable multiple frame. The control data portion of the first basic frame includes a start signal indicating the start of the variable multiple frame, The control data portion of the second basic frame includes caller information informing the sender of the user data, The control data portion of the third basic frame includes receiver information informing a receiver of user data, The control data portion of the fourth basic frame includes command type information for informing various control commands, The control data portion of the fifth basic frame includes transmission data length information indicating the length of the transmission data, The control data portion of the sixth basic frame includes transmission data information informing transmission data, And a control data unit of the seventh basic frame comprises error check and termination data indicating the end of the variable multiple frame. The method of claim 1, wherein the length of the basic frame is determined as Y = X * a / (X-X '). Here, X denotes a clock required for data transmission, Y denotes the number of data words transmitted to the X clock, X 'denotes a clock used to transmit actual user data, and a denotes the number of overhead words. In the recording medium forming a basic frame for communication consisting of overhead and payload, The overhead consists of a sink unit and a control data unit, and seven basic frames constitute one variable multiple frame. The control data portion of the first basic frame includes a start signal indicating the start of the variable multiple frame, The control data portion of the second basic frame includes caller information informing the sender of the user data, The control data portion of the third basic frame includes receiver information informing a receiver of user data, The control data portion of the fourth basic frame includes command type information for informing various control commands, The control data portion of the fifth basic frame includes transmission data length information indicating the length of the transmission data, The control data portion of the sixth basic frame includes transmission data information informing transmission data, And a control data unit of the seventh basic frame comprises error checking and termination data indicating the end of the variable multiple frame.

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