KR101991728B1 - Channel accesss method, communication terminal and communication system using the same - Google Patents

Abstract

A channel access method according to an exemplary embodiment of the present invention includes determining whether a packet transmitted from each of a plurality of communication terminals to an access point is successfully transmitted, The method comprising the steps of: determining a number of communication terminals to which the plurality of communication terminals have transmitted; determining, based on the success of transmission of the packets of each of the plurality of communication terminals and the number of communication terminals that simultaneously transmitted the packets, and adjusting the size of the contention window.

Description

Technical Field [0001] The present invention relates to a channel access method, a communication terminal using the channel access method,

The present invention relates to a channel access method, a communication terminal using the same, and a communication system, and more particularly, to a channel access method and a communication system using the channel access method and the communication system based on the success of transmission of a packet of each of a plurality of communication terminals, To a channel access method capable of adjusting a size of a contention window of each of the plurality of communication terminals, a communication terminal using the same, and a communication system.

A multi-antenna based wireless local area network (WLAN) can support simultaneous transmission of multiple users.

However, a communication terminal using a wireless local area network has a different distance from an access point (AP), and a different signal-to-noise ratio (SNR) and a different frame error rate (FER) I have.

Accordingly, there is a high possibility that an unbalance occurs in the channel access opportunities that each communication terminal can have, and in many cases, various QoS (Quality of Service) required for each communication system can not be satisfied.

Technical Solution According to an aspect of the present invention, there is provided a channel access method, a communication terminal using the same, and a communication system. The channel access method is based on whether a packet is successfully transmitted from each of a plurality of communication terminals and the number of communication terminals The present invention provides a channel access method capable of adjusting a size of a contention window of each of a plurality of communication terminals, a communication terminal using the same, and a communication system.

According to an aspect of the present invention, there is provided a channel access method comprising: determining whether a packet transmitted from an access point to each of a plurality of communication terminals is successfully transmitted; The method comprising the steps of: determining a number of communication terminals that simultaneously transmitted a packet to a plurality of communication terminals, and determining, based on the success of transmission of each packet of the plurality of communication terminals and the number of communication terminals that simultaneously transmitted the packet, And adjusting the size of each contention window.

According to an exemplary embodiment of the present invention, the step of determining the number of communication terminals transmitting the packet at the same time includes decoding the PLCP header (PLCP header) of the packet transmitted from each of the plurality of communication terminals the number can be determined by decoding.

According to an exemplary embodiment, the decoding may be blind decoding.

According to an exemplary embodiment of the present invention, the step of adjusting the size of the contention window may include determining whether the number of communication terminals that simultaneously transmit the packet is greater than a contention window control reference number, Adjusting the size of the contention window of each of the plurality of communication terminals according to whether the transmission of the packet is successful or not and whether the number of the communication terminals transmitting the packet at the same time is greater than the contention window control reference number have.

According to an exemplary embodiment, the success of transmission of each packet of the plurality of communication terminals can be determined according to whether or not an address of the communication terminal is included in the response signal transmitted from the access point .

According to an exemplary embodiment, whether or not the number of communication terminals transmitting packets at the same time is greater than the contention window control reference number may be determined according to a bit value of a contention window control bit included in the response signal.

According to an exemplary embodiment of the present invention, the contention window control bit has a value of 0 or 1 when the number of communication terminals transmitting packets at the same time is greater than the contention window control reference number, If the number of communication terminals is less than or equal to the number of the competition window control reference, it may have a value other than 0 or 1.

According to an exemplary embodiment, the response signal may not be transmitted from the access point when a collision occurs between packets transmitted from each of the plurality of communication terminals.

According to an exemplary embodiment, the step of adjusting the size of the contention window may include: increasing the size of the contention window when the contention message is not received; When the number of the communication terminals transmitting the packet is greater than the number of the competition window control reference, the size of the contention window is increased and the transmission of the packet of the corresponding communication terminal fails, The size of the contention window is set to a minimum contention window size if the number of terminals is less than or equal to the number of contention control reference counts and if the transmission of the packet of the corresponding communication terminal is successful, You can set it to the minimum contention window size.

According to an exemplary embodiment, the channel access method includes the step of setting the minimum contention window size based on at least one of the number of communication terminals connected to the access point and the number of antennas of the access point .

According to an exemplary embodiment, the step of setting the minimum contention window size may comprise the step of setting the minimum contention window size to be in proportion to the number of the plurality of communication terminals connected to the access point, Can be set.

According to an exemplary embodiment, the channel access method may further include setting the contention window control reference number according to QoS (Quality of Service) set at the access point.

According to an exemplary embodiment, the step of setting the number of contending window control criteria comprises: determining whether the access fairness parameter of the QoS is relatively higher than the average throughput parameter, May be set to be greater than the number of the contention window control reference when the access fairness parameter of the QoS is set relatively lower than the average throughput parameter.

The communication terminal according to an aspect of the technical idea of the present invention includes a packet transmission / reception unit for receiving a response signal from an access point, and a transmission / reception unit for transmitting a packet transmitted to the access point based on the received response signal, A contention window size adjustment unit for determining whether the number of communication terminals that transmitted the packet is larger than the number of competition window control criteria and adjusting the size of the contention window according to the determination result.

A communication system according to an aspect of the present invention includes information on a success of transmission of a packet of each of a plurality of communication terminals and a communication terminal of each of the plurality of communication terminals, And an access point for transmitting a response signal to the plurality of communication terminals, wherein each of the plurality of communication terminals can adjust a contention window size based on the response signal.

The method and apparatus according to embodiments of the present invention may adjust the contention window of each of the communication terminals in the communication system to an optimal size.

In addition, the method and apparatus according to embodiments of the present invention may set the contention window of each of the communication terminals to the optimal Size can be adjusted.

Also, the method and apparatus according to the embodiment of the present invention can optimally set the size of the minimum contention window, which is a reference for contention window control, according to the number of communication terminals connected to the access point and the number of antennas of the access point.

BRIEF DESCRIPTION OF THE DRAWINGS A brief description of each drawing is provided to more fully understand the drawings recited in the description of the invention.
1 is a conceptual diagram of a communication system according to an embodiment of the present invention.
2 is a diagram illustrating a case where a plurality of communication terminals transmit packets to an access point at the same time in the communication system of FIG.
3 is a block diagram in accordance with an embodiment of the access point shown in FIG.
4 is a block diagram according to one embodiment of the plurality of communication terminals shown in FIG.
5 is a flowchart of a channel access method according to an embodiment of the present invention.
6 is a diagram illustrating an example in which a contention window of each communication terminal is adjusted according to a channel access method to be compared according to the present invention.
7 is a diagram illustrating an example in which a contention window of each communication terminal is adjusted according to a channel access method according to an embodiment of the present invention.
FIG. 8 is a graph illustrating a comparison between a channel access rate according to a channel access method to be compared and a channel access rate according to a contention window control reference number according to an exemplary embodiment of the present invention.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. However, it should be understood that the technical idea of the present invention is not limited to the specific embodiments but includes all changes, equivalents, and alternatives included in the technical idea of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0027] In the following description of the present invention, a detailed description of known technologies will be omitted when it is determined that the technical idea of the present invention may be unnecessarily obscured. In addition, numerals (e.g., first, second, etc.) used in the description of the present invention are merely an identifier for distinguishing one component from another.

Also, in this specification, when an element is referred to as being "connected" or "connected" with another element, the element may be directly connected or directly connected to the other element, It should be understood that, unless an opposite description is present, it may be connected or connected via another element in the middle.

Also, the terms "to", "to", "to", "to" and "module" in the present specification mean a unit for processing at least one function or operation, Software. ≪ / RTI >

It is to be clarified that the division of constituent parts in this specification is merely a division by each main function of each constituent part. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. In addition, each of the constituent units described below may additionally perform some or all of the functions of other constituent units in addition to the main functions of the constituent units themselves, and that some of the main functions, And may be carried out in a dedicated manner.

Hereinafter, exemplary embodiments of the present invention will be described in detail.

1 is a conceptual diagram of a communication system according to an embodiment of the present invention. 2 is a diagram illustrating a case where a plurality of communication terminals transmit packets to an access point at the same time in the communication system of FIG.

1, a communication system 10 includes a plurality of communication terminals 200-1 to 200-M that perform wireless communication with an access point (AP) 100 and an access point 100, M is a natural number).

According to an embodiment, the communication system 10 may perform communication in a multi-user MIMO (MU-MIMO) environment of a wireless local area network (WLAN).

The access point 100 may include a plurality of antennas (ANT1 to ANTN, N is a natural number) for MU-MIMO support. The access point 100 can receive packets simultaneously transmitted from a plurality of communication terminals 200-1 to 200-M through a plurality of antennas ANT1 to ANTN.

2, it is assumed that the access point 100 has two antennas (N = 2), and three communication terminals STA1 to STA3 connect to the access point 100. [ In this case, since the access point 100 has two antennas, it is possible to simultaneously receive two packets.

The first communication terminal STA1, the second communication terminal STA2 and the third communication terminal STA3 simultaneously transmit packets to the access point 100 at the first time point t1. In this case, since the number of packets simultaneously received by the access point 100 exceeds the communication capability of the access point 100, that is, two packets, a collision occurs between the packets.

And the third communication terminal STA3 transmits the packet to the access point 100 at the second time point t2. In this case, the access point 100 can successfully receive the packet transmitted from the third communication terminal STA3.

At the third time point t3, the first communication terminal STA1 and the second communication terminal STA2 transmit packets to the access point 100 at the same time. In this case, since the number of packets simultaneously received by the access point 100 is less than the communication capability of the access point 100, that is, two or less, the access point 100 transmits the packet transmitted from the first communication terminal STA1, 2 communication terminal STA2 can be successfully received.

According to the embodiment, when a collision occurs between packets transmitted from a plurality of communication terminals 200-1 to 200-M in the communication system 10 or when a collision occurs between a plurality of communication terminals 200-1 to 200- If an error occurs in the transmission of the transmitted packet and the packet transmission fails, each of the plurality of communication terminals 200-1 to 200-M may wait for an arbitrary time and attempt to transmit the packet. The arbitrary time may be determined based on a random number within a size of a contention window set for each of the plurality of communication terminals 200-1 to 200-M. The size of the contention window can be adjusted according to the situation, and the process of adjusting the size of the contention window will be described in detail with reference to FIG. 3 to FIG.

According to an embodiment, the communication system 10 can perform communication according to the communication protocol of CSMA / CA (Carrier Sense Multiple Access with Collision Avoidance).

3 is a block diagram in accordance with an embodiment of the access point shown in FIG.

1 and 3, the access point 100 includes a plurality of antennas ANT1 to ANTN, and includes a packet transmission / reception unit 110, a received packet analysis unit 120, a contention window minimum value determination unit 130 ), And a response signal generator 140.

The packet transmission / reception unit 110 may receive a packet transmitted from each of the plurality of communication terminals 200-1 to 200-M through a plurality of antennas ANT1 to ANTN, Lt; RTI ID = 0.0 > ANT1-ANTN. ≪ / RTI >

The received packet analyzing unit 120 can analyze received packets received from the plurality of communication terminals 200-1 to 200-M through the packet transmitting and receiving unit 110. [

According to the embodiment, the received packet analyzing unit 120 can analyze the number of simultaneously received packets in the access point, that is, the number of communication terminals that simultaneously transmitted the packets, by analyzing the received packets. For example, the received packet analyzer 120 may analyze the number of simultaneously received packets by decoding, e.g., blind decoding, the PLCP header of the received packet .

In this case, the received packet analyzing unit 120 compares the number of simultaneously received packets, that is, the number of communication terminals that simultaneously transmitted packets, with the number of competing window control references set by the received packet analyzing unit 120 according to the analysis result . The received packet analysis unit 120 may transmit the comparison result to the response signal generation unit 140.

According to the embodiment, the received packet analyzing unit 120 can set the number of the contention window control reference based on QoS (Quality of Service) set in the access point 100.

For example, the received packet analysis unit 120 may determine that the access fairness parameter of the QoS is set relatively higher than the average throughput parameter so that the QoS access fairness parameter is greater than the average throughput parameter It can be set to be larger than the number of the competition window control reference when it is set relatively low.

According to another embodiment, the received packet analyzing unit 120 may extract the address of the communication terminal that decoded the received packet and transmitted the received packet. When the packet is successfully transmitted from each of the plurality of communication terminals 200-1 to 200-M, the address is extracted, but if the packet transmission fails, the address may not be extracted.

The contention window minimum value determination unit 130 may determine a contention window minimum contention window size that is a reference value of a contention window size and an initial setting value of a contention window size of the plurality of communication terminals 200-1 to 200- .

The minimum contention window determination unit 130 determines the number M of the plurality of communication terminals 200-1 to 200-M connected to the access point 100 and the number M of antennas of the access point 100 (N) of the minimum window size.

The minimum contention window size is proportional to the number M of the plurality of communication terminals 200-1 to 200-M connected to the access point 100, The number N of antennas of the mobile station 100 may be inversely proportional to the number N of antennas.

That is, the contention window minimum value determination unit 130 determines that the minimum contention window size is relatively large as the number M of the plurality of communication terminals 200-1 to 200-M connected to the access point 100 increases , And the larger the number of antennas N of the access point 100, the smaller the minimum contention window size may be determined to have a relatively small value.

The packet including the information on the minimum contention window size determined by the contention window minimum value determination unit 130 is transmitted to the plurality of communication terminals 200-1 to 200-M through the packet transmission / reception unit 110 and the antennas ANT1 to ANTN Lt; / RTI > Each of the plurality of communication terminals 200-1 to 200-M may adjust the contention window size based on the minimum contention window size.

The response signal generation unit 140 can generate a response signal (e.g., an ACK signal) for packet transmission of the plurality of communication terminals 200-1 to 200-M.

The response signal generated by the response signal generation unit 140 may be simultaneously transmitted to the plurality of communication terminals 200-1 to 200-M through the packet transmission / reception unit 110 and the antennas ANT1 to ANTN. According to an embodiment, the access point 100 transmits a response signal (e.g., a signal) to a plurality of communication terminals 200-1 to 200-M using an MU-MIMO technique, e.g., Zero Forcing Can be simultaneously transmitted.

According to the embodiment, the response signal may include the result of the comparison of the address of the communication terminal that transmitted the packet extracted by the received packet analysis unit 120 and the number of the communication terminals that simultaneously transmitted the packet, have.

According to the embodiment, the comparison result of the number of the communication terminals transmitting packets at the same time and the number of the competition window control reference may be included in the response signal separately as the contention window control bits.

For example, the contention window control bit has a value of 0 or 1 when the number of communication terminals transmitting packets at the same time is greater than the number of contending window control reference, and the number of communication terminals And may have a value other than 0 or 1 when it is less than or equal to the number of the competition window control reference.

According to the embodiment, the response signal generation unit 140 may not generate a response signal when collision occurs between packets transmitted from each of the plurality of communication terminals 200-1 to 200-M.

4 is a block diagram according to one embodiment of the plurality of communication terminals shown in FIG.

Referring to FIG. 1 and FIG. 4, only one communication terminal 200-1 among a plurality of communication terminals 200-1 to 200-M is illustrated in FIG. 4 for convenience of explanation, The first communication terminals 200-2 to 200-M may have the same structure as the first communication terminal 200-1.

The first communication terminal 200-1 may include a packet transmission / reception unit 210 and a contention window size adjustment unit 220.

The packet transmission / reception unit 210 may receive a packet transmitted from the access point 100 through an antenna, and may transmit a signal or a packet through an antenna.

The contention window size adjustment unit 220 may adjust the size of the contention window based on the response signal transmitted from the access point 100 and received through the packet transmission / reception unit 210. [

The contention window size adjustment unit 220 determines whether the transmission of the packet transmitted from the first communication terminal 200-1 to the access point 100 is successful or not based on the response signal transmitted through the packet transmission / It is possible to determine whether the number of communication terminals transmitting packets at the same time is greater than the number of competition window control reference, and adjust the size of the contention window according to the determination result.

According to the embodiment, the contention window size adjustment unit 220 can determine whether or not the packet transmission is successful according to whether the response signal includes the address of the first communication terminal 200-1. In this case, if the address of the first communication terminal 200-1 is included in the response signal, the contention window size adjustment unit 220 determines that the packet transmission is successful, and if the address is not included, It can be judged.

According to an embodiment, the contention window size adjustment unit 220 may determine that the number of communication terminals that simultaneously transmitted packets to the access point 100 is less than a contention window control reference number Or more. In this case, the contention window size adjustment unit 220 determines that the number of the communication terminals transmitting the packet at the same time when the value of the contention window control bit is 0 or 1 is larger than the contention window control reference number If the value of the contention window control bit has a value other than 0 or 1, it can be determined that the number of communication terminals transmitting packets at the same time is less than or equal to the number of contention control reference frames.

According to the embodiment, the contention window size adjustment unit 220 can not transmit the packet of the first communication terminal 200-1, and if the number of communication terminals transmitting packets at the same time is larger than the contention window control reference number To increase the size of the competing window. In this case, the contention window size adjustment unit 220 may double the size of the contention window.

According to another embodiment, the contention window sizing unit 220 may increase the size of the contention window in the absence of a response signal transmitted from the access point 100. [ In this case, the contention window size adjustment unit 220 may double the size of the contention window.

According to another embodiment, the contention window size adjustment unit 220 may fail to transmit the packet of the first communication terminal 200-1, and if the number of communication terminals that simultaneously transmitted the packet is less than the contention window control reference number The size of the contention window can be set to the minimum contention window size.

According to another embodiment, the contention window size adjustment unit 220 may set the size of the contention window to the minimum contention window size when the transmission of the packet is successful.

5 is a flowchart of a channel access method according to an embodiment of the present invention.

1 to 5, each of the plurality of communication terminals 200-1 to 200-M receives a packet transmitted from each of the plurality of communication terminals 200-1 to 200-M to the access point 100, (S10). ≪ / RTI >

According to the embodiment, each of the plurality of communication terminals 200-1 to 200-M determines whether or not the packet transmission is successful depending on whether the address of the communication terminal is included in the response signal transmitted from the access point 100 can do.

Each of the plurality of communication terminals 200-1 to 200-M can determine the number of communication terminals that simultaneously transmitted packets to the access point 100 (S12).

According to the embodiment, each of the plurality of communication terminals 200-1 to 200-M accesses the access point 100 according to the bit value of the contention window control bit included in the response signal transmitted from the access point 100 At the same time, it can be determined whether the number of communication terminals transmitting the packet is larger than the number of competition window control reference.

Each of the plurality of communication terminals 200-1 to 200-M is connected to each of the plurality of communication terminals 200-1 to 200-M based on whether the packet is successfully transmitted and the number of communication terminals that simultaneously transmitted the packet The size of the contention window of FIG.

According to the embodiment, each of the plurality of communication terminals 200-1 to 200-M determines whether the transmission of the packet is successful and the number of communication terminals that simultaneously transmitted packets to the access point 100 is greater than the number of competition window control reference The size of the contention window of each of the plurality of communication terminals 200-1 to 200-M can be adjusted.

6 is a diagram illustrating an example in which a contention window of each communication terminal is adjusted according to a channel access method to be compared according to the present invention. 7 is a diagram illustrating an example in which a contention window of each communication terminal is adjusted according to a channel access method according to an embodiment of the present invention.

In FIGS. 6 and 7, it is assumed that the access point has two antennas (N = 2) and three communication terminals STA1 to STA3 connect to the access point as in FIG.

Referring to FIG. 6, in the case of successful transmission of a packet, the communication terminals STA1 to STA3 in the Binary Exponential Backoff (BEB) scheme, which is a channel access method of the present invention, If the packet transmission fails, the size of the contention window can be doubled.

When the first communication terminal STA1, the second communication terminal STA2, and the third communication terminal STA3 transmit packets at the same time, the number of packets simultaneously received by the access point is equal to the communication capability of the access point, Since there are more than two packets, collision between packets occurs. At this time, since the first communication terminal STA1, the second communication terminal STA2, and the third communication terminal STA3 have failed to transmit packets, the size of the contention window is doubled to the minimum contention window size wo, .

Next, when the first communication terminal STA1 and the third communication terminal STA3 simultaneously transmit packets, the number of packets simultaneously received at the access point is within the communication capability of the access point, No collision occurs. However, in the case of the third communication terminal STA3, a frame error occurs due to noise or the like and the packet transmission fails. At this time, since the first communication terminal STA1 has succeeded in packet transmission, the size of the contention window is set to the minimum contention window size wo and the third communication terminal STA3 fails to transmit the packet, You can set it to 4wo by doubling again at 2wo.

In the case of the third communication terminal STA3 having a large SNR or FER, since the size of the contention window is adjusted in this manner in the BEB scheme, which is a channel access method to be compared, And as the size of the competing window increases, the channel access opportunities are further reduced.

On the other hand, referring to FIG. 7, an example of adjusting a contention window size according to a channel access method according to an embodiment of the present invention is shown. In FIG. 7, it is assumed that the number of competition window control reference is two.

When the first communication terminal STA1, the second communication terminal STA2, and the third communication terminal STA3 transmit packets at the same time, the number of packets simultaneously received by the access point is equal to the communication capability of the access point, Since there are more than two packets, collision between packets occurs. At this time, since the first communication terminal STA1, the second communication terminal STA2, and the third communication terminal STA3 have failed to transmit packets, the size of the contention window is doubled to the minimum contention window size wo, .

Next, when the first communication terminal STA1 and the third communication terminal STA3 simultaneously transmit packets, the number of packets simultaneously received at the access point is within the communication capability of the access point, No collision occurs. In the case of the third communication terminal STA3, a frame error occurs due to a noise or the like, and the packet transmission fails. However, since the number of communication terminals simultaneously transmitting packets is less than or equal to the number of competition window control reference frames, You can set the size to the minimum contention window size (wo).

In the channel access method according to the embodiment of the present invention, even in the case of a communication terminal having a high SNR value or a high FER value because of a large distance from the access point, If the number is less than or equal to the reference number, the size of the contention window is not increased. Therefore, in the channel access method according to the embodiment of the present invention, high access fairness among communication terminals can be achieved compared to the BEB scheme.

Also, in the channel access method according to the embodiment of the present invention, it is possible to select which of the access fairness required in the QoS and the average throughput rate is to be weighted by adjusting the number of the contention window control reference.

FIG. 8 is a graph illustrating a comparison between a channel access rate according to a channel access method to be compared and a channel access rate according to a contention window control reference number according to an exemplary embodiment of the present invention.

Referring to Fig. 8, a channel access rate of a communication terminal having an SNR of 10 dB, a communication terminal having an SNR of 15 dB, and a communication terminal having an SNR of 20 dB is shown.

As can be seen from FIG. 8, the access method according to the embodiment of the present invention can confirm that the channel access fairness between communication terminals increases, that is, has an equal channel access ratio, in comparison with the case of the BEB method (Comp.).

Further, in the access method according to the embodiment of the present invention, a communication terminal having an SNR of 10dB, a communication terminal having an SNR of 15dB, and an SNR of 20dB by increasing the contention window control reference number (TB) It can be confirmed that the channel access fairness between the communication terminals is increased, that is, the channel access rate is even.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the technical scope of the present invention is not limited to the above embodiments but may be modified within the scope of the technical idea of the present invention. Various modifications and variations are possible.

10: Communication system
100: Access Point (AP)
110: Packet transmission /
120: received packet analysis unit
130: Competition Window Minimum Value Determination Unit
140: response signal generation unit
200-1 to 200-M: communication terminal
210: a packet transmission /
220: Contention Window Scaling Unit

Claims (15)

Determining whether transmission of a packet transmitted from each of a plurality of communication terminals to an access point is successful;
Determining a number of communication terminals that simultaneously transmitted a packet to the access point among the plurality of communication terminals;
Adjusting a size of a contention window of each of the plurality of communication terminals based on whether a packet of each of the plurality of communication terminals is successfully transmitted and the number of communication terminals that simultaneously transmitted the packet; And
Setting a minimum contention window size that is a criterion for the contention window size adjustment based on at least one of the number of communication terminals connected to the access point and the number of antennas of the access point,
Wherein the setting of the minimum contention window size comprises:
And sets the minimum contention window size to be in proportion to the number of the plurality of communication terminals connected to the access point and inversely proportional to the number of antennas of the access point.
The method according to claim 1,
Wherein the step of determining the number of communication terminals,
Wherein the number is determined by decoding a PLCP header of the packet transmitted from each of the plurality of communication terminals.
3. The method of claim 2,
Wherein the decoding is blind decoding.
The method of claim 3,
Wherein the adjusting the size of the contention window comprises:
Determining whether or not the number of communication terminals transmitting packets at the same time is greater than a number of competition window control reference; And
A size of the contention window of each of the plurality of communication terminals, a size of the contention window of each of the plurality of communication terminals, and a size of the contention window of each of the plurality of communication terminals, The method comprising the steps of:
5. The method of claim 4,
The success or failure of transmission of a packet of each of the plurality of communication terminals,
Wherein the response signal transmitted from the access point is determined based on whether or not an address of the communication terminal is included.
6. The method of claim 5,
Whether or not the number of communication terminals that transmitted the packet at the same time is greater than the number of competition window control reference,
Is determined according to a bit value of a contention window control bit contained in the response signal.
The method according to claim 6,
The contention window control bit may comprise:
And when the number of the communication terminals that transmitted the packet at the same time is greater than the number of the competition window control reference,
And a value other than 0 or 1 when the number of communication terminals transmitting packets at the same time is less than or equal to the number of competition window control reference.
8. The method of claim 7,
The response signal may include:
And is not transmitted from the access point if a collision occurs between packets transmitted from each of the plurality of communication terminals.
9. The method of claim 8,
Wherein the adjusting the size of the contention window comprises:
Increasing the size of the contention window when the response signal is not received,
According to the response signal,
The size of the contention window is increased when the number of communication terminals that have failed to transmit a packet of the corresponding communication terminal and simultaneously transmitted the packet is larger than the number of the competition window control reference,
The size of the contention window is set to the size of the minimum contention window if the number of the communication terminals transmitting the packet at the same time is less than or equal to the contention window control reference number ,
And sets the size of the contention window to the minimum contention window size if the packet transmission of the corresponding communication terminal is successful.
delete delete 10. The method of claim 9,
The channel access method includes:
Further comprising setting the contention window control reference number by quality of service (QoS) set at the access point.
13. The method of claim 12,
Wherein the step of setting the number of contending window control criteria comprises:
Wherein the access fairness parameter of the QoS is set to be relatively higher than the average throughput parameter is set so that the access fairness parameter of the QoS is set relatively lower than the average throughput parameter. And setting the number of times of competition to be greater than the number of competition window control criteria.
A packet transmission / reception unit for receiving a response signal from the access point; And
It is determined whether or not the transmission of the packet transmitted to the access point is successful based on the received response signal and the number of the plurality of communication terminals that simultaneously transmitted the packet to the access point is greater than the number of competition window control reference, And a contention window sizing unit for adjusting the size of the contention window,
The contention window size is adjusted based on a minimum contention window size,
The minimum contention window size is determined by:
The number of communication terminals connected to the access point, and the number of antennas of the access point,
And is set to be in proportion to the number of the plurality of communication terminals connected to the access point and inversely proportional to the number of antennas of the access point.
A plurality of communication terminals; And
And an access point for transmitting a response signal to the plurality of communication terminals, the response signal including information on whether a packet of each of the plurality of communication terminals is successfully transmitted and the number of communication terminals that simultaneously transmitted the packet,
Wherein each of the plurality of communication terminals comprises:
Adjusts a contention window size based on the response signal,
The access point comprising:
Setting a minimum contention window size that is a criterion for the contention window size adjustment based on at least one of the number of communication terminals connected to the access point and the number of antennas of the access point,
Wherein the minimum contention window size is set to be in proportion to the number of the plurality of communication terminals connected to the access point and inversely proportional to the number of antennas of the access point.

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