KR100428659B1 - Apparatus and method for utilizing data uprate by double buffer in a data communication network - Google Patents

Abstract

The present invention adopts a double buffer when transmitting a packet, in advance to copy the next packet to be transmitted to the same buffer as the transmission buffer in advance, and the next packet is sent immediately upon receiving a response from the receiving side data to improve the data uprate speed In order to provide a data uprate apparatus using a double buffer of a communication network and a method thereof, the apparatus according to the present invention, in a terminal performing packet data exchange with a base station, by alternately copying the multi-packet data stored in the memory Two transmission buffer sections for temporarily storing; The packet copied to the first transmission buffer unit is transmitted to the base station according to a set protocol, and the packet data to be transmitted next is copied to the second transmission buffer unit while waiting for a response to be received at the base station, and the response is received. In this case, the packet data transmitted to the second transmission buffer unit is transmitted, and the processor includes a processor that cyclically operates each transmission buffer unit for copying the packet data, and transmits the packet data for a limited time using the two transmission buffers. By reducing the time required to increase the efficiency of packet transmission.

Description

Apparatus and method for utilizing data uprate by double buffer in a data communication network}

The present invention relates to data uprate in a data communication network, and more particularly, adopts a double buffer during packet transmission, and in advance copies a packet to be transmitted next to the same buffer as the buffer being transmitted. The present invention relates to a data uprate apparatus and a method using a double buffer of a data communication network for improving the data uprate rate by allowing the next packet to be transmitted immediately after receiving a response from the receiver.

In general, a network for exchanging data between a computer and a terminal or between a base station and a terminal is called a data communication network. The data communication network is a communication network built by the telecommunications service provider. The data communication network plays a role of providing a connection path between the computer and the terminals by providing an exchange service centered on a data exchange. The data communication network is classified according to the structure of the network in which the terminals connected in the communication network are used for data transmission and the setting method of the interconnection path.

Among the data communication networks, a switched communication network is divided into a circuit switched network, a message switched network, and a packet switched network. Among switched networks, packet switched networks are widely applied for data communication. A packet is a data block created by dividing information into a certain size and adding a transmission / reception address to each.

A system for transmitting data through a packet communication network includes a wireless subscriber network (WLL).

1 is a block diagram of a packet data uprate apparatus in a wireless subscriber network, and FIG. 2 is a signal timing diagram when data is transmitted in the apparatus according to FIG.

1, a base station 110 and a terminal 120 are provided for transmitting packet data in a wireless subscriber network. The base station 110 transmits data to be transmitted to the terminal in packet units, and receives the transmission packet of the terminal 120.

The terminal 120 includes a processor and a transmission buffer unit 122 for transmitting a packet according to a packet data transmission method, and includes a memory for storing a data frame. The transmission buffer unit 122 is an area in which a packet to be transmitted from the terminal 120 is temporarily stored, and includes a buffer memory. The data transmitted from the terminal 120 is stored in the memory 121 and sequentially transmitted to the base station 110 in packet units. This packet data transmission procedure is managed by a processor.

Packet data transmission procedure is to copy one packet from the multi-packet data of the memory to the transmission buffer unit 122, the processor transmits the packet of the transmission buffer unit 122, the response of the base station 110, the multi-packet data of the memory It is summarized as a series of processes of copying the next transmission packet to the transmission buffer 122.

Accordingly, the processor reads and transmits packet data to be transmitted from the terminal 120 from the memory 121 and waits for a response from the base station 110. The base station 110 sends a response when one packet is normally received. It is common to use a 386 processor.

At this time, the processor makes Point-to-Point Protocol (PPP) frames received from a personal computer (PC) into one multi-packet, transmits them, waits for a response thereto, and checks whether normal reception is performed. . Thus, when it is determined that a normal response is made, the processor operates by copying the PPP frames to be transmitted next to the transmission buffer 122, making them into multiple packets, and transmitting the same.

Thus, when the response of the base station 110 is received, the processor copies the next packet from the memory 121 to the transmission buffer unit 122 and transmits it to the base station 110.

Therefore, after one packet is transmitted from the terminal 120, a certain delay time occurs until the next packet is transmitted. This delay time is on average much longer than the time for copying the packet data to be transmitted to the transmission buffer 122. In other words, since the response is used to confirm the signal from the processor, the response waiting time is longer than the time of copying the packets to be transmitted to the transmission buffer unit 122 although it is variable.

As shown in Fig. 2, the time interval in which each packet is transmitted during packet data transmission is the sum of the response waiting time and the copying time of the transmission buffer. Here, the response waiting time is indicated by ① and the copying time of the transfer buffer is indicated by ②. ① and ② are shown so that the response waiting time is longer than the copying time of the transmission buffer.

As described above, in order to transmit a single high-level data link control packet due to the characteristics of a packet occupying transmission / reception power only when there is data to be transmitted, an overhead is applied before and after data transmission. The number of packets is limited. The delay time due to overhead is usually more than 1 second.

Therefore, in the related art, since a processor receives a response and then copies packets to be transmitted to the transmission buffer and starts transmission again, a buffer copy delay time is added in addition to the time required for the actual transmission. This additional overhead slowed the data uprate.

The present invention was created to solve the above-mentioned conventional problems, and an object of the present invention is to adopt a double buffer in packet transmission, and then copy the next transmission packet to the same buffer as the buffer being transmitted in advance, and then receive a response from the receiver. The present invention provides a data uprate apparatus using a double buffer of a data communication network to improve the data uprate rate by allowing the next packet to be transmitted immediately after receiving the message.

Another object of the present invention is to transmit the copied packet to either one of the two transmission buffer during the packet transmission to copy the next packet to the other transmission buffer while waiting for a response so that the delay time due to the packet copy is not generated The present invention provides a data uprate method using a double buffer of a communication network.

1 is a block diagram of a packet data uprate apparatus in a wireless subscriber network.

2 is a signal timing diagram during data transmission in the apparatus according to FIG. 1;

3 is a block diagram of a data uprate apparatus using a double buffer of a data communication network according to an embodiment of the present invention.

4 is a signal timing during data transmission in the apparatus according to FIG.

5 is a flowchart of a data uprate method using a double buffer of a data communication network according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

310: base station 320: terminal

321: multi-packet data 322, 323: transmission buffer unit

In order to achieve the above object, a data uprate apparatus using a double buffer of a data communication network of the present invention is a terminal for exchanging packet data with a base station. Transmission buffer units; While waiting to receive a response from the base station after transmitting the packet copied to the first transmission buffer to the base station according to the set protocol, the packet data to be transmitted next is copied to the second transmission buffer, and the response is received from the base station. And a processor cyclically operating each transmission buffer unit for copying the packet data by transmitting the packet data copied to the second transmission buffer unit to the base station.

The present invention according to this configuration has two transmission buffer units. Each transmission buffer unit is used cyclically according to the transmission procedure between the terminal and the base station to temporarily store the transmission packet data.

Multiple packet data is stored in the memory of the terminal.

The processor checks the memory to see if there is packet data to send. If there is packet data to be transmitted, the processor copies the packet to be best transmitted to the transmission buffer section. The packet copied to the transmission buffer unit is transmitted to the base station according to a protocol defined for data exchange between the base station and the terminal in the data communication network. The protocol for specifying the transmission procedure between the terminal and the base station is not limited here.

The processor waits for a response to the transmitted packet. The base station receiving the transmitted packet gives a response when the packet is normally received.

The processor copies the next packet to be transmitted to another transmission buffer while waiting for a response to the transmission packet. The next packet to be transmitted next is copied to the transmission buffer before the response is received, so that the next transmission can be made immediately if necessary. Accordingly, the time delay required for copying the next packet after receiving the response does not occur as in the prior art.

Upon receiving a response indicating normal reception of the transmitted packet, the processor of the terminal immediately transmits the packet copied to the other transmission buffer. As such, the transmission of the next packet is not delayed.

In addition, the data uprate method using the double buffer of the data communication network of the present invention for achieving the above object, a) the processor of the terminal to search for multi-packet data to determine whether there is a packet to be transmitted, if there is packet data to be transmitted Copying one packet to a first transmission buffer unit and transmitting the packet to a base station; b) after sending the packet data to the base station, while the processor waits for a response from the base station to the transmitted packet, copying the packet data to be transmitted next to the second transmission buffer section; c) upon receiving a response from the base station to the packet data copied and transmitted to the first transmission buffer unit, the processor transmitting the packet data copied to the second transmission buffer unit to the base station; d) switching the functions of the first transmission buffer unit and the second transmission buffer unit to repeat the steps a) to c) until the transmission of the entire packet is completed.

The data uprate method according to such a configuration can transmit each packet of multi-packet data without delay by using a plurality of transmission buffer units cyclically. Preferably, two transmission buffer units are operated crosswise.

When the packet copied to the first transmission buffer is transmitted, the next packet is copied to the second transmission buffer while the processor of the terminal waits for a response. When a response is received later, the packet copied to the second transmission buffer is immediately transmitted.

The processor sets a counter and a pointer for each transmit buffer in order to efficiently operate the two transmit buffers, and stores a current counter and a pointer in each transmit buffer in a temporary variable. When packet transmission is started and the packet data is copied to the first transmission buffer unit, the processor changes a temporary variable value indicating the counter and the pointer. In this case, the actual counter and pointer values are not changed.

Subsequently, when a response to the transmission of the first transmission buffer unit is received from the base station, the processor accumulates the counter of the first transmission buffer unit and moves the pointer to the second transmission buffer unit so that the counter and pointer values are actually changed.

When the packet copied to the first transmission buffer is successfully transmitted and a response is generated from the base station, the processor operates by switching the roles of the first transmission buffer and the second transmission buffer.

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

3 is a block diagram of a data uprate apparatus using a double buffer of a data communication network according to an embodiment of the present invention, FIG. 4 is a signal timing diagram during data transmission in the apparatus according to FIG. 3, and FIG. 5 is an embodiment of the present invention. A flowchart of a data uprate method using a double buffer of a data communication network according to an example.

According to FIG. 3, the data uprate apparatus of the present embodiment includes a terminal 320 with a base station 310. The terminal 320 includes a processor for controlling a packet data transmission procedure, a packet data frame 321 stored in a memory, and two transmission buffer units 322 and 323. Two transmission buffer units will be referred to as a first transmission buffer unit 322 and a second transmission buffer unit 323, respectively.

In this case, the processor adopts a 386 series processor, and a function of managing multiple packets and copying them to two transmission buffer units 322 and 323 may be implemented by adopting a 186 series processor. The presented processor classification may vary depending on the operating environment, and in the following, the functional features are collectively referred to as a processor.

Packet data is transmitted between the base station 310 and the terminal 320 according to a predetermined protocol. In this case, the transmitted packet data is composed of a plurality of PPP frames, and the plurality of packets to be continuously transmitted are composed of multiple packets and stored in the memory of the terminal.

In the data transmission by the packet-switched system, the transmission speed of data increases as the number of transmission packets increases. Therefore, unlike the conventional method of transmitting one packet and receiving a response to the packet and then copying the next packet to the transmission buffer and starting transmission again, the packet is transmitted by storing the packets to be transmitted in two transmission buffers in advance. Reduce the overhead time to increase the number of transmitted packets.

Then, the time required for copying the packet data to the transmission buffer every one packet transmission can be reduced, thereby improving the overall data transmission speed.

According to FIG. 4, the time required for packet data transmission can be classified into several types. The total time is the time waiting for a response indicating whether the received packet is successfully received (section ⓐ), the time to copy the packet to be transmitted to the transmission buffers 322 and 323 (section ⓑ), and the packet transmission time ( Ⓒ section). Here, section ⓑ is included in section ⓐ, so the time taken to copy the next packet to be transmitted in section ⓑ does not affect the time required to transmit the entire packet data. In general, this determination is possible because the time for waiting for a response is relatively long compared to the time for copying a packet to a transmission buffer.

Next, the transmission procedure between the terminal 320 and the base station 310 provided with the two transmission buffer units 322 and 323 will be described.

According to Fig. 5, a counter and a pointer are set for two transmission buffer units. The counter is for counting packets to be transmitted, and the pointer is for switching between two transmission buffer sections. For example, if the pointer value is '0', the first transmission buffer unit may be indicated, and if the pointer value is '1', the second transmission buffer unit may be indicated. Thus, by switching the current pointer between two transmit buffer sections, the processor copies the packet to the transmit buffer point indicated by the current pointer. The counter and pointer setting step includes an initialization process (S510).

When the pointer and the counter are set, the processor searches the memory to determine whether a transmission packet exists. If there is no transmission packet, the following procedure is not performed (S520).

If there is a transmission packet, the processor copies the most recent packet to the first transmission buffer. The current pointer will point to the first transmit buffer. Subsequently, the processor transmits a packet on the first transmission buffer unit to the base station (S530 to S540).

The processor does not send a packet while waiting for a response to the transmitted packet. The processor waiting for the response copies the next packet data into the second transmission buffer unit. At this time, of course, the process of searching for whether the next packet data exists should be preceded (S550).

When copying the packet to the second transmit buffer section, the processor stores the counter value and the pointer value in any temporary variable and changes the value. The temporary variable then indicates that the counter value is incremented by one, and the pointer value indicates that the first transfer buffer portion is indicative. The actual values of the counter and the pointer do not change (S560).

The time for copying a packet to the second transmission buffer section is short compared to the time taken for receiving a response in a normal operating environment. Therefore, after the copying of the packet is completed, it is determined whether the response is received until some time elapses. If a response is not received within the threshold time defined in the protocol, it may be determined that an error has occurred in the packet transmission. If a response is not received, a return to the main routine is performed and a separate error response procedure defined in the protocol is performed (S570).

When a response is received from the base station, the processor actually changes the counter and the pointer according to the value stored and changed in the temporary variable in step S560. Subsequently, the packet on the second transmission buffer unit is transmitted to the base station, and the next packet to be transmitted is copied to the first transmission buffer unit (S580 to S600).

The counter and the pointer value do not actually change even if the packet is copied to the first transmission buffer until the response according to the packet transmission of the second transmission buffer is received. That is, only the temporary variable value is changed in the same manner as in step S560 (S610).

In this system, the packet transmission procedure is repeatedly performed to efficiently transmit multiple packet data. This eliminates the time it takes to copy a packet to the transmit buffer, allowing more packets to be sent within a limited time and improving the data uprate rate.

The embodiments described above fall within the scope of various changes, modifications, and equivalents of the present invention. Therefore, the present invention is not limited to the description of the present embodiment.

According to the data uprate apparatus and method using the double buffer of the data communication network of the present invention, the effect of increasing the efficiency of packet transmission by reducing the time required to transmit packet data for a limited time by using two transmission buffers There is.

That is, by adopting two transmission buffers and transmitting one packet and then copying the next packet to an extra transmission buffer before a response is received, the transmission delay time due to the conventional packet copy can be overcome.

Claims (3)

A terminal for performing packet data exchange with a base station, Two transmission buffer sections for alternately copying and temporarily storing the multi-packet data stored in the memory; While waiting to receive a response from the base station after transmitting the packet copied to the first transmission buffer to the base station according to the set protocol, the packet data to be transmitted next is copied to the second transmission buffer, and the response is received from the base station. And a processor cyclically operating each transmission buffer unit for copying the packet data by transmitting the packet data copied to the second transmission buffer unit to the base station. When the data uprate device using the double buffer of the data communication network transmits packet data, a) a processor of the terminal searches for multi-packet data to determine whether there is a packet to be transmitted, and if there is packet data to be transmitted, copies one packet to a first transmission buffer unit and transmits it to the base station; b) after sending the packet data to the base station, while the processor waits for a response from the base station to the transmitted packet, copying the packet data to be transmitted next to the second transmission buffer section; c) upon receiving a response from the base station to the packet data copied and transmitted to the first transmission buffer unit, the processor transmitting the packet data copied to the second transmission buffer unit to the base station; d) switching the functions of the first transmission buffer unit and the second transmission buffer unit to repeat the steps a) to c) until the transmission of the entire packet is completed; Data uprate method using double buffer. The method of claim 2, wherein the plurality of transmission buffer units are operated. The processor sets a counter and a pointer for each transmit buffer unit, stores the current counter and pointer in each transmit buffer unit in a temporary variable, and instructs the counter and pointer when copying packet data to the first transmit buffer unit. Change the value of the temporary variable, and if the response to the transmission of the first transmission buffer unit is received from the base station, accumulate the counter of the first transmission buffer unit and move the pointer to the second transmission buffer unit to actually change the counter and pointer values. A data uprate method using a double buffer of a data communication network, characterized in that.