KR20120023341A - From tactical communication the data reference system which leads a priority readjustment and the use method - Google Patents

Abstract

PURPOSE: A data reference system through priority re-adjustment in tactical communication is provided to transmit data by separating priority according to the importance of data in an upper layer. CONSTITUTION: A data link layer(120) separates priority of data in an upper layer(110). The data link layer transmits data. The data link layer controls flow of data by readjustment of the priority. A physical layer(130) sets up and maintains physical link of the data.

Description

From tactical communication the data reference system which leads a priority readjustment and the use method}

The present invention relates to a data reference system and a method of operating the same by reprioritization in tactical communication, and transmits the data sent from the upper layer by dividing the priority in three stages according to the importance and the transmission is performed even after a certain time. If not, the present invention relates to a data reference system and a method of operating the same by reprioritization in tactical communication including a data link layer that re-priorities to control flow to provide reliable data transmission.

Small and medium-sized wireless mobile communication terminals in military tactical information communication network using MIL-STD-188-220 standard, which is the US military communication protocol, divide the priority of traffic in the order of urgent, priority, and routine to prioritize transmission. To give.

The priority divided in this way has a fixed value until transmission is completed or data is discarded because it is not transmitted for a predetermined time.

And if there is a lot of high-priority traffic in any network capable of wireless communication, relatively low-priority traffics have less transmission opportunities and thus lower data throughput. In other words, if the transmission of high-priority data frequently occurs, the chance of transmitting data of relatively low priority is reduced.

Also, even if there is a transmission opportunity until the packet to be transmitted matches the network priority, the data is discarded as the waiting time in the buffer becomes longer as the waiting time in the buffer becomes longer. Unnecessary delays and losses are caused.

Accordingly, the present invention is to solve the problems raised in the prior art, and transmits the data sent from the upper layer in three stages according to the importance and prioritized if the transmission is not made even after a certain time In order to reduce the number of discarded frames and provide more transmission opportunities to terminals participating in the network communication, the tactical communication has a priority in tactical communication. It is an object of the present invention to provide a data reference system and its operation method through re-ordering.

Accordingly, an object of the present invention is to provide a data reference system and its operation method through reprioritization in tactical communication that can improve the throughput of the corresponding traffic and improve the performance of the overall system.

In the present invention for achieving the above object, in the reference system for transmitting data based on the MIL-STD-188-220 communication protocol, the data sent from the upper layer is classified and transmitted in three stages according to importance And a data link layer that provides reliable data transmission by controlling the flow by re-prioritizing the flow if transmission is not performed after a predetermined time, wherein the data link layer includes a data link layer for data received from the upper layer. A frame unit generating a frame; A storage unit which stores a frame for data generated from the frame unit; A delay time measuring unit measuring a time for which a frame for data stored in the storage unit has stayed in the storage unit; A delay time comparison unit comparing the time measured from the delay time measurement unit with a delay threshold value; And a priority re-adjustment unit for regenerating the frames by re-adjusting the priorities of the generated frames according to the time compared from the delay time comparison unit. to provide.

In addition, the data reference system may be based on the DAP-NAD or DAV-NAD medium access control method of the MIL-STD-188-220 communication protocol.

In addition, the upper layer is a layer that supports an application process interface to terminal users and provides a common presentation method of application processes to establish and synchronize a connection to enable network communication with each other. It may be composed of a layer, a session layer, a transport layer, and a network layer.

The three levels of priority of the data link layer may be classified in order of urgent, priority, and routine.

The priority re-adjustment unit may adjust the priority of the last generated frame by one step when the time measured by the delay time measurement unit is greater than the delay threshold value.

The data reference system may further include a physical layer that establishes, maintains, and cuts a physical link of data sent from the upper layer.

In order to achieve the above object, the present invention provides a reference operation method for transmitting data based on a MIL-STD-188-220 communication protocol, the method comprising: generating a frame for data received from an upper layer by a data link layer; Storing a frame for the generated data; Measuring a time at which the frame for the stored data stayed; Comparing the measured time with a delay threshold; And regenerating the frames by re-prioritizing the priorities of the last generated frames according to the compared time periods.

In the step of re-priming the last generated frame according to the compared time to regenerate the frame, when the measured time is larger than the delay threshold, the priority of the last generated frame may be increased by one step. .

And regenerating the frames by re-prioritizing priorities of the last-generated frames according to the compared time, so that the last-generated frames whose priorities have been increased are resave as regenerated frames whose header portions have been modified. can do.

As described above, the present invention relates to a data reference system and its operation method by reprioritization in tactical communication, and transmits the data sent from the upper layer by dividing the priority in three stages according to importance, If the transmission is still unsuccessful, it includes a data link layer that re-priorities to control the flow to provide reliable data transmission, thereby reducing the number of dropped frames and sending more to terminals participating in network communication. It has the effect of giving opportunities. Therefore, there is an effect that can improve the throughput of the traffic and improve the performance of the overall system.

1 is a diagram illustrating a configuration of a data reference system through reprioritization in tactical communication according to the present invention.
2 is a diagram illustrating a configuration of a data link layer employed in a data reference system through reprioritization in tactical communication according to the present invention.
3 is a diagram illustrating a transmission header and a transmission information field of a frame defined by a data reference system through reprioritization in tactical communication according to the present invention.
4 is a flowchart illustrating a method of operating a data reference through reprioritization in tactical communication.

Matters relating to the operational effects including the technical configuration of the data reference system and its operation method through prioritization in tactical communication according to the present invention will be clearly understood by the following detailed description with reference to the drawings in which preferred embodiments of the present invention are shown. Will be understood.

Data Reference System by Reprioritization in Tactical Communication

1 to 3, in the tactical communication according to the present invention, the data reference system 100 through re-prioritization supports an application process interface to terminal users and provides a common presentation method of the application process. The upper layer 110 and the data sent from the upper layer 110 to separate the priorities in three steps according to the importance and transmit a network after a predetermined time. If the transmission is not made, the data link layer 120 and the physical link of the data sent from the upper layer 110 that provide reliable data transmission by controlling the flow by re-prioritizing the flow are established, maintained, and disconnected. It may include a physical layer 130.

Here, in the tactical communication, the data reference system 100 through prioritization is based on the MIL-STD-188-220 communication protocol, and the MIL-STD-188-220 communication protocol is a future network battlefield central battle (NCW). It is possible to exchange tactical information in real time while increasing the multiplier effect of the weapon system, and plays a key role in achieving information advantage. This protocol is currently being applied to Black Tank tanks, infantry armored vehicles, and PRE.

In addition, the data reference system 100 through prioritization in the tactical communication is based on the DAP-NAD or DAV-NAD medium access control method of the six NAD methods of the MIL-STD-188-220 communication protocol. In this case, in the DAP-NAD or DAV-NAD medium access control method, data transmission is performed in order. When a communication device is transmitted, a device that starts the next transmission sequence has a fixed number (DAP- In the case of NAD, the number is always 1, and in the case of DAV-NAD, the value may vary depending on the total number of participating communication devices), for example, 4 with the number 1 + 3 plus 3 It is a device and the transmission is given in the order of 4 to 5, 6, 7 ... in order. The practice of the present invention corresponds to the case of DAV-NAD.

The upper layer 110 supports an application process interface to terminal users and provides a common representation of the application process to establish and synchronize a connection to enable network communication with each other. In this case, the upper layer 110 may include an application layer, an expression layer, a session layer, a transport layer, and a network layer of an OSI layer. Briefly described, the application layer is a layer that is responsible for information exchange between application processes so that a user can use a network environment through an application program. The presentation layer is associated with an operating system and a file system, and provides a service for converting different data representations and encoding schemes between a server and a client. In addition, encryption is also required to maintain the security of the data. It is not related to the communication function, but it can help the communication of the application layer by defining matters related to the processing of the data involved in the communication. The session layer is responsible for the connection and coordination of sessions for the exchange of information between systems and defines the processing of lines, which are logical communication lines, and sessions with respect to communication data transmission procedures. In addition, it provides a service for communication between the application process by recovering the abnormal state of the session that can occur during the communication to enable the communication in the appropriate state. The transport layer is a layer for reliable data transmission between two connected devices. The transport layer detects an error caused by dividing a long message into small packets. Thus, the lower layer, that is, the data link layer 120 and the physical layer ( 130 may allow for more efficient data transmission. The network layer reads the information of the packets received from the data link ray and performs routing and relay functions between devices connected in a complex network so that they can be correctly delivered to their destinations. can do.

The data link layer 120 may adjust a data transmission method according to a transmission method, an error detection and processing, and a situation for data transmission. In addition, the data link layer 120 transmits the data sent from the upper layer 110 by dividing the priority in three steps according to the importance, and if the transmission is not performed even after a predetermined time passes, the data is re-adjusted and flowed. Can be controlled to provide reliable data transmission.

In this case, the three priority levels of the data link layer 120 may be divided into an order of urgent, priority, and routine.

The data link layer 120 may include a frame unit 121, a storage unit 123, a delay time measuring unit 125, a delay time comparing unit 127, and a priority readjustment unit 129.

The frame unit 121 may generate a frame for data received from the upper layer 110. The storage unit 123 may store a frame for data generated from the frame unit 121. In this case, the storage unit 123 may be configured as a queue or a buffer. The delay time measuring unit 125 measures a time for which a frame for data stored in the storage unit 123 stays in the storage unit 123. The delay time comparator 127 may compare the time measured by the delay time measurer 125 with a delay threshold value. The priority re-adjustment unit 129 may regenerate the frame by re-adjusting the priority of the last generated frame according to the time compared from the delay time comparison unit 127.

The priority readjustment unit 129 readjusts the priority of the last frame and modifies the frame header to be stored in the storage unit 123. That is, the Data Link Precedence value is modified from 10 (priority) to 00 (urgent) in the Transmission Queue subfiled of the Transmission Information field of the Transmission Header shown in FIG. 4. Alternatively, if the priority of the frame in the storage unit 123 is normal and the storage unit 123 is above the delay threshold value, the header is modified from 11 (routine) to 10 (priority) in the Data Link Precedence value. To be stored in the storage unit 123.

That is, the data link layer 120 measures the time at the time of generation of the frame generated by receiving data from the upper layer 110 through the delay time measuring unit 125 and measures the comparison unit 127. If the time measured by the delay time measuring unit 125 is greater than the delay threshold, the priority resizing unit 129 raises the priority of the last generated frame by one step. Adjust it so that you have a chance to send it quickly.

For example, in detail, a general or priority data frame to be transmitted from any terminal is generated and is waiting to be transmitted to the storage unit 123. The emergency and priority steps have a lot of traffic, so the network priority is up to the general level. Suppose there is an arbitrary communicable network in which only the emergency and priority phases are transmitted without descending. The data frame waiting at terminal 1 has a long network waiting time because network priority is not normal or priority, and the waiting time is equal to the delay threshold for adjusting priority. Reschedule to continue the wait. A terminal possessing a data frame whose priority is rescheduled as priority or emergency may transmit a waiting frame when the network priority is a priority or emergency and a transmission opportunity is given to the terminal. However, at this time, the frame whose priority has been raised may be discarded after a predetermined time or more.

The physical layer may process a transmission medium, a transmission method, and the like by processing a physical connection connected to hardware as a lowermost layer. That is, a physical link of data sent from the upper layer 110 may be set, maintained, and cut.

Operation method of data reference system by reprioritization in tactical communication

Referring to FIG. 4, the method of operating the data reference system 100 through prioritization in tactical communication according to an embodiment of the present invention may be prioritized in tactical communication configured as shown in FIGS. 1 to 3. The overlapping description of the data reference system 100 through the following will be omitted.

First, in the upper layer 110 and the upper layer 110 that support the application process interface to the terminal users, and provide a common representation of the application process to establish and synchronize a connection to enable network communication with each other The data link layer 120 transmits the sent data by dividing the priority in three steps according to the importance, and if the transmission is not performed after a certain time, readjusts the priority to control the flow to provide reliable data transmission. In the tactical communication including a physical layer 130 for establishing, maintaining, and cutting the physical link of the data sent from the upper layer 110, the data reference system 100 is configured through re-prioritization.

Next, the data link layer 120 generates a frame for data received from the upper layer 110 (S100). This may be achieved by the frame part 121 of the data link layer 120.

Next, a frame for the generated data may be stored (S110). This may be performed by the storage unit 123 of the data link layer 120. At this time, the storage unit 123 is It can be configured as a queue or buffer.

Next, you can measure the time the frame stayed for the stored data. This may be accomplished by the delay time measuring unit 125 of the data link layer 120. At this time, the delay time measuring unit 125 measures the time the frame for the data stored in the storage unit 123 stayed in the storage unit 123.

Then, the measured time and the delay threshold value may be compared (S120). This may be performed by the delay time comparison unit 127 of the data link layer 120. In this case, the delay time comparison unit 127 may compare the time measured by the delay time measurement unit 125 with a delay threshold value.

Next, the frame may be regenerated by re-prioritizing the priority of the last generated frame according to the compared time (S130). In other words, this step may be compared with the life time of the frame to determine to remove the frame from the buffer. to be. This may be done by the priority realignment unit 129 of the data link layer 120. In this case, the priority re-adjustment unit 129 may regenerate the frame by re-adjusting the priority of the last generated frame according to the time compared from the delay time comparison unit 127. In addition, the priority re-adjustment unit 129 may allow the last generated frame of which the priority is increased to be re-stored as a regenerated frame whose header part is modified. That is, a frame whose priority has been changed and resaved (for example, when changing from Priority to Urgent) is transmitted after transmission of existing Urgent frames. That is, the transmission of the existing high priority frame is prioritized.

As such, the present invention relates to a data reference system 100 and a method of operating the same by reprioritization in tactical communication according to the present invention. The data sent from the upper layer 110 is classified and transmitted in three stages according to importance. And if the transmission is not made after a certain period of time, the data link layer 120 provides a reliable data transmission by re-prioritizing the flow to control the flow, thereby reducing the number of discarded frames and participating in network communication. More transmission opportunities can be given to terminals. Therefore, the throughput of the traffic can be improved and the performance of the system as a whole can be improved.

Although the preferred embodiments of the present invention described above have been described in detail, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

Accordingly, the scope of the present invention should not be limited to the disclosed embodiments but should be regarded as belonging to various modifications and improvements of those skilled in the art using the basic concept of the present invention as defined in the following claims, or the scope of the present invention. .

100: data reference system by reprioritization in tactical communication
110: upper layer
120: Data Link Radar
130: physical layer

Claims (9)

A reference system for transmitting data based on the MIL-STD-188-220 communication protocol,
An upper layer which supports an application process interface to terminal users and provides a common presentation method of the application process to establish and synchronize a connection to enable network communication with each other;
Data link that transmits the data sent from the upper layer in three stages according to the importance and classifies the priority, and if the transmission is not performed after a certain time, adjusts the priority to control the flow to provide reliable data transmission. Layer; And
A physical layer for establishing, maintaining, and cutting a physical link of data sent from the upper layer 110;
Data reference system through the re-prioritization in the tactical communication comprising a.
The method of claim 1,
The data reference system is based on the DAP-NAD or DAV-NAD medium access control method of the MIL-STD-188-220 communication protocol.
The method of claim 1,
The upper layer is a data reference system by reprioritization in tactical communication, characterized in that consisting of the application layer, presentation layer, session layer, transport layer, network layer of the OSI layer.

The method of claim 1,
The three levels of priority of the data link layer are divided into urgent, priority, and routine in order of data prioritization in tactical communication.
The method of claim 1,
The data link layer,
A frame unit generating a frame for data received from the upper layer;
A storage unit which stores a frame for data generated from the frame unit;
A delay time measuring unit measuring a time for which a frame for data stored in the storage unit has stayed in the storage unit;
A delay time comparison unit comparing the time measured from the delay time measurement unit with a delay threshold value; And
A priority re-adjustment unit which regenerates the frames by re-adjusting the priority of the last generated frame according to the time compared from the delay time comparison unit;
Data reference system through the re-prioritization in the tactical communication comprising a.
6. The method of claim 5,
The priority re-adjustment unit adjusts the priority of the last generated frame by one step if the time measured by the delay time measurement unit is greater than the delay threshold value. .
In the reference operation method for transmitting data based on the MIL-STD-188-220 communication protocol,
Generating a frame for data received from the upper layer by the data link layer;
Storing a frame for the generated data;
Measuring a time at which the frame for the stored data stayed;
Comparing the measured time with a delay threshold; And
Re-prioritizing the last generated frame according to the compared time to regenerate the frame;
Method of operating a data reference system through re-prioritization in tactical communication comprising a.
The method of claim 7, wherein
Re-prioritizing the last generated frame according to the compared time to regenerate the frame,
If the measured time is greater than the delay threshold value, the priority of the last generated frame is increased by one step.
The method of claim 7, wherein
Re-prioritizing the last generated frame according to the compared time to regenerate the frame,
The last generated frame of which the priority is increased is re-saved as a regenerated frame whose header portion is modified.

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