KR101028326B1 - Method for communicating of wireless local area network - Google Patents

Abstract

In the present invention, in the infrastructure mode of the WLAN network mode, data can be directly transmitted between the first station and the second station without passing through an access point (AP), thereby improving the transmission speed. It relates to a wireless network communication method.

In the wireless network communication method according to the present invention, after the access point (AP) confirming the data received from the first station sends the data to the second station and receives an acknowledgment (ACK) signal, the access point assigns an address to a frame. Sending a data exchange start signal (DSTACK) to the first station and the second station; After the second station receives data from the first station, sending a data exchange end signal (DSPACK) in the same format as the frame to an access point; The data exchange between the first station and the second station after the data is characterized in that data exchange is performed without passing through the access point.

Wireless network, client, access point, transmission rate, infrastructure mode

Description

Method for communicating of wireless local area network

1 is a schematic diagram of a wireless network communication method in a conventional infrastructure mode.

2 is a flow chart illustrating a wireless network communication method in a conventional infrastructure mode.

3 is a diagram illustrating allocating an address through programming using an empty ID field in performing a wireless network communication method according to the present invention.

4 is a schematic diagram of a wireless network communication method in accordance with the present invention.

5 is a flowchart showing a wireless network communication method according to the present invention.

<Description of the symbols for the main parts of the drawings>

    100,400: AP 102,402: first station

    104,404: second station

The present invention relates to a wireless network communication method.

In particular, when transmitting data using an access point based on an IEEE 802.11 wireless local area network (WLAN), a threshold value is set in the buffer of the access point, and the data transmission delay is given priority to the access point to minimize data transmission delay. The present invention relates to a data transmission method using an access point.

In general, IEEE 802.11 WLAN uses air as a communication channel by using radio waves or infrared rays without using cables when constructing a network system.

The IEEE 802.11 WLAN converts a frame of an 802.11 network into another frame to be transferred to another network, that is, an interface between an access point (AP) and a wireless network that performs wireless and wired bridging functions. It is configured to include a station such as a laptop or a PDA equipped with a wireless LAN device.

In addition, IEEE 802.11 WLAN has a basic service set (hereinafter referred to as BSS) as a basic configuration, which refers to a group of stations communicating with each other.

BSSs are independent BSSs, where one station communicates directly with another station, and an infrastructure BSS that necessarily communicates with another station via an access point, of which the infrastructure BSS is only between stations and access points (APs). Because communication takes place, there is no communication between stations.

1 is a diagram schematically illustrating a wireless network communication method in a conventional infrastructure mode, and FIG. 2 is a flowchart illustrating a wireless network communication method in a conventional infrastructure mode.

In the following description, a conventional wireless network communication method will be described with reference to FIGS. 1 and 2.

According to FIG. 1, in the infrastructure mode, communication between the first station 102 and the second station 104 takes place only through an access point (AP) 100.

When the access point 100 receives data to be transmitted from the first station 102 (S200), the access point 100 checks the MAC address and the IP (S202).

Then, it is determined whether it matches the address of the second station (S204). As a result of the determination, if it matches with the address of the second station 104, the access point 100 will send data to the second station 104 (S206). ACK) signal is not sent (S208).

After sending the data sent in step 206, the access point 100 determines whether an acknowledgment signal has been received from the second station 104 (S210).

As a result of the determination, if the acknowledgment signal is not received, the access point 100 does not send an acknowledgment signal to the first station (S208), and if the access point 100 receives the acknowledgment signal, the first station ( An acknowledgment signal is sent to 102 (S212).

Then, the access point 100 transmits a data exchange start signal DSTACK to the first station 102 and the second station 104 (S214).

Then, communication between the first station 102 and the second station 104 is started (S216). When the communication ends, the second station 104 sends a data exchange end signal DSPACK to the access point 100 (S218).

After step 218, the second station 104 receives the data exchange end signal DSPACK sent by the access point 100 (S220).

Then, it is determined whether there is other data to be exchanged (S222), and if there is no other data to be exchanged, it is terminated as it is. If there is other data to be exchanged, the process proceeds to step 200 and performs the aforementioned communication process again from the beginning. Done.

That is, in the infrastructure mode, the communication process must be repeated in order for the first station 102 and the second station 104 to exchange data with each other.

In other words, in the infrastructure mode, data exchange between the first station 102 and the second station 104 is possible only through the access point 100, so that the first station 102 and the second station ( There is a problem in that the transmission speed is slower than that of 104) immediately exchanging data.

An object of the present invention, in the infrastructure mode of the wireless LAN network mode, the data transmission is performed directly between the first station and the second station without passing through the access point (AP), it is possible to improve the transmission speed The present invention provides a wireless network communication method.

In the wireless network communication method according to the present invention, after the access point (AP) confirming the data received from the first station sends the data to the second station and receives an acknowledgment (ACK) signal, the access point assigns an address to a frame. Sending a data exchange start signal (DSTACK) to the first station and the second station; After the second station receives data from the first station, sending a data exchange end signal (DSPACK) in the same format as the frame to an access point; The data exchange between the first station and the second station after the data is characterized in that data exchange is performed without passing through the access point.

In addition, the frame is characterized in that the RA (Receive Address) portion of the acknowledgment (ACK) signal frame is changed.

The address may include a basic service set ID (BSSID), an access point MAC, a first station address, and a second station address.

In addition, the method for allocating the address may be assigned through programming using an empty ID field.

The wireless network communication method according to the present invention is similar in that it exchanges data between stations via an access point (AP), but unlike the conventional wireless communication network method, after passing through the access point for the first data exchange, Starting from the next data exchange, the data transfer between stations is possible except for the access point, so the transfer speed is high.

That is, after the first station and the second station exchange a predetermined signal with the access point for the first data exchange, the access point sends a data exchange start signal DSTACK to the first station and the second station. When the empty ID field is used, the frame format of the general acknowledgment (ACK) signal is transmitted.

The method of changing the frame format may be programmed to include a basic service set ID (BSSID, Basic Service ID), an access point MAC (AP MAC), a first station address, and a second station address. Put it.

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

FIG. 3 is a diagram illustrating allocating an address through programming using an empty ID field in performing a wireless network communication method according to the present invention.

3A is a frame format of a general acknowledgment (ACK) signal, a frame control unit 300 containing various data including a control signal of a destination and a duration unit for finding usable data within a limited number of bits. 302), an RA section 304 that manages the address of the destination and an error check section (FCS, Frame Check Sequence) 306 that checks for errors in the data.

FIG. 3B is a diagram illustrating a field encoding table of the duration unit 302, and it can be seen that an area 308 in which data is available is empty from 2008 to 16383.

FIG. 3C illustrates a basic service set ID (BS MAC) access point MAC 310 instead of the RA unit 304 of FIG. 3A through programming of the empty areas from 2008 to 16383. ) Shows a frame of a data exchange start signal DSTACK including a first station address 312 and a second station address 314.

The data exchange start signal is sent from the access point to the first station and the second station.

FIG. 3D is a view illustrating a frame of a data exchange end signal (DSPACK) sent after a station receiving the data exchange start signal sent in FIG. 3A receives all data, and similarly sets the basic service set instead of the RA unit 304 of FIG. 3A. Basic Service ID (BSSID) This structure includes an access point MAC (316), a first station address (318), and a second station address (320).

When the data exchange end signal is transmitted to the access point, data exchange between the first station and the second station can be communicated without passing through the access point, thereby increasing the transmission speed.

4 is a diagram schematically illustrating a wireless network communication method according to the present invention, and FIG. 5 is a flowchart illustrating a wireless network communication method according to the present invention.

Hereinafter, in describing the wireless network communication method according to the present invention, the description will be made with reference to FIGS. 4 and 5.

Referring to FIG. 4, an access point (AP) 400, a first station 402, and a second station 404 are shown as an example for implementing a wireless network communication method according to the present invention. Unlike the conventional method, 400 is not used for each data exchange, and is used only for the first data exchange.

When the access point 400 receives data to be transmitted from the first station 402 (S500), the access point 400 receives a basic service set ID (BSSID) and a destination address (DA). The MAC address including the address, the source address (SA), and the IP are checked (S502).

Then, it is determined whether it matches the address of the second station (S504). As a result of the determination, if the address of the second station 404 matches, the access point 400 sends data to the second station 404 (S506). If the address does not match, the acknowledgment (ACK) It does not send a signal (S508).

After sending the data sent in step 506, the access point 400 determines whether an acknowledgment signal is received from the second station 404 (S510).

As a result of the determination, if the acknowledgment signal is not received, the access point 400 does not send an acknowledgment signal to the first station (S508), and if the access point 400 receives the acknowledgment signal, the first station ( An acknowledgment signal is sent to 402 (S512).

Thereafter, the access point 400 transmits a data exchange start signal DSTACK to the first station 402 and the second station 404 (S514).

When receiving the data exchange start signal, data exchange between the first station 402 and the second station 404 is started (S516).

Then, the data receiving side station sends a data exchange end signal DSPACK to the access point 400 (S518).

Then, it is determined whether there is other data to be exchanged (S520), and if there is no other data to be exchanged, it is terminated as it is. Entering step 516, data exchange between the first station 402 and the second station 404 is performed.

That is, the first data exchange is similar to the conventional method through the access point 400, but since the time required to receive an acknowledgment (ACK) signal from the access point 400 from the next data is reduced, the data transmission speed can be increased. .

As described above, the present invention provides a data transmission between the first station 402 and the second station 404 without passing through an access point (AP) in an infrastructure mode of a wireless LAN network mode. Thus, a wireless network communication method can improve the transmission speed.

Although the present invention has been described with reference to the embodiments illustrated 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 spirit of the appended claims.

According to the present invention, in the infrastructure mode of the WLAN network mode, data can be directly transmitted between the first station and the second station without passing through an access point (AP), thereby improving the transmission speed.

Claims (4)

After the AP confirming the data received from the first station sends the data to the second station and receives the acknowledgment signal, Sending, by the access point, a data exchange start signal (DSTACK) assigned an address to a frame to the first station and the second station; After the second station receives data from the first station, sending a data exchange end signal (DSPACK) in the same format as the frame to an access point; The data exchange between the first station and the second station after the data is a data exchange without passing through the access point. The method of claim 1, The frame is a wireless network communication method, characterized in that for changing the Receive Address (RA) part of the acknowledgment (ACK) signal frame. The method of claim 1, The address is a basic service set ID (BSSID, Basic Service ID) access point MAC (AP MAC), the first station address, the wireless station, characterized in that the second station address. The method of claim 1, The method of allocating an address may include allocating through an empty ID field through programming.

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