JP2002064505A - Wireless packet communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless packet communication method that can avoid problems of a hidden terminal. SOLUTION: In the wireless packet communication method where at the transmission of a data packet to other terminal B, a terminal A performs carrier sensing. When the terminal A does not sense a carrier for a prescribed time, the terminal A transmits a transmission request packet to the terminal B. The terminal B transmits a request reply packet to the terminal A after the end of reception of the transmission request packet from the terminal A, the terminal A transmits an acknowledgement packet to the B after the end of reception of the reply packet from the terminal B, the terminal B transmits an acknowledgement packet after the end of reception of a data packet, and other wireless stations suppress transmission of a packet until the terminal A transmits the data packet to the terminal B and receives the acknowledgement packet from the terminal B after the other wireless stations receive the request reply packet from the terminal B not addressed to themselves, when the terminal B does not sense carriers for a time T1 (T1<TD), the terminal B transmits the request reply packet to the terminal A, and when the terminal B senses carriers, the terminal B continues carrier sensing, and when the terminal B does not continuously sense carriers for a time T2 (T2<TD or T1=T2), the terminal B transmits the request replay packet to the terminal A.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless packet communication method, and more particularly to a wireless packet communication method for avoiding a hidden terminal problem (data packet collision caused by a wireless signal not reaching between terminals).

[0002]

2. Description of the Related Art In wireless contention access, a radio signal does not always reach between terminals due to an obstacle or the movement of a person, and a hidden terminal problem occurs. As a conventional technology, there is IEEE802.11 which is working on standardization of a wireless LAN.
CSMA / CA (Carrier Sense Mul)
D using tiple Access with Collision Avoidance
RTS (R of CF (Distributed Coordination Function)
equest to Send) / CTS (Clear to Send) to improve the hidden terminal problem (IEEE P802.11 / D
8.0, Part11: Wireless LAN Medium Access Control (MA
C) and Physical Layer (PHY) specifications.).

FIG. 11 is a diagram illustrating an example of a wireless packet communication method in an environment where a hidden terminal exists. In the figure, numeral 1 indicates a radio base station (AP), 2 indicates a group A, 3 indicates a group B, 4a to 4d indicate terminals, and 5 indicates an obstacle. FIG. 12 is a diagram illustrating an example of a conventional wireless packet communication procedure.

In the configuration shown in FIG. 11, a plurality of wireless terminals 4 a to 4 d exist under the wireless base station (AP) 1, and between the group A and the group B, an obstacle 5 causes a wireless signal to reach. Absent. Also, the received power varies depending on the distance between the terminal and the AP, fading, and the like.

[0005] Since the received power from the terminal A (4a) is sufficiently stronger than the received power from the terminal B (4b), the packet from the terminal A (4a) and the terminal B (4b) are transmitted to the AP1.
Even if the packets collide with each other, the packet from the terminal A (4a) can be normally received due to the capture effect (supplementary effect), and the packet from the terminal B (4b) cannot be normally received.

FIG. 12 shows a procedure of a conventional wireless packet communication in an environment as shown in FIG. First, at terminal A,
When data to be transmitted to the AP is generated, terminal A
Carrier sense [11-1] is performed during a time called IFS (DCF Inter Frame Space).

[0007] When recognizing that the line is not used by the carrier sense, the terminal A checks the RTS [11] for confirming whether or not the transmission describing the information of the transmission completion time of the data packet to be transmitted is possible. -2] (transmission request packet) is transmitted to the AP. When data to be transmitted to the AP occurs at terminal B with a slight delay, terminal B
Then, DIFS time carrier sense [11-3] is performed.

Terminals A and B are hidden terminals.
Cannot detect the carrier transmitted by terminal A, determines that the line is not used, and determines RTS [11-
4] (Transmission request packet) is transmitted to the AP.
In the AP, a packet collision occurs between the RTS [11-1] from the terminal A and the RTS [11-4] from the terminal B, but the RTS from the terminal A is normally received due to a capture effect.

The AP is a SIFS (Short Inter Frame Sp)
ace: SIFS <DIFS: Carrier sense cannot be performed during the transmission / reception switching time of the wireless station).
C for notifying that a data packet can be received
TS (Request Response Packet) [11-5] to terminal A
Describes the information on the transmission completion time of the data packet to be transmitted, and transmits it to the terminal A.

When the CTS is not addressed to the own terminal, transmission is prohibited for the described time (NAV: Network Allocation Vec).
tor) is set. Terminal A receives the CTS [11
-5] and the data packet is transmitted to the AP after SIFS.
Send to After completing the data packet reception, the AP transmits an ACK packet (acknowledgement packet) indicating that the data packet has been normally received.

[0011] In the terminal B, its own RTS [11-4]
Since transmission is in progress, CTS [11-5] from the AP cannot be received, and it is regarded as a collision without setting NAV and retransmitted. For retransmission, after performing the carrier sense between the DIFSs again after the SIFS, a random number is generated, and the process enters the backoff process of performing the carrier sense only during the period specified by the value.

When Backoff is over, retransmission of RTS [11-
6], but since terminal A is transmitting a data packet, A
No CTS is transmitted from P, and retransmission is repeated. When the number of retransmissions increases, the random number of Backoff increases based on the binary exponential Backoff control.

[0013]

In the prior art as described above, when the RTSs collide with each other, the terminal A having a higher received power is preferentially received due to the capture effect, and the terminal B receives a higher throughput than the terminal A. Has been reduced, resulting in unfairness. In addition, terminal B receives C from AP.
Since a TS cannot be received, RT from terminal B
S may repeat retransmission, collide with the data packet from terminal A, and cause interference.

[0014] Further, the backoff time becomes longer each time retransmission is repeated, and terminal B refrain from transmitting, so that the throughput of terminal B is further reduced with respect to terminal A, resulting in unfair competition access. Was. SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and it is possible to prevent interference due to RTS retransmission in an environment where a hidden terminal exists and a capture effect occurs, and a wireless packet capable of fair contention access. It is intended to provide a communication method.

[0015]

According to the present invention, the above-mentioned object is solved by the means described in the claims. That is, the invention according to claim 1 is characterized in that the radio station A performs carrier sense when a data packet to be transmitted to another radio station B occurs and does not detect a carrier for a predetermined time (TD). The wireless station B transmits a transmission request packet for confirming whether transmission is possible to the wireless station B. After the wireless station B completes reception of the transmission request packet from the wireless station A, the wireless station B A request response packet indicating that a packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. Station B
Transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet, and the other wireless station receives a request response packet not addressed to its own wireless station from the wireless station B, and then the wireless station A In the wireless packet communication method for stopping transmission of a packet until the time when the data packet has been transmitted and the acknowledgment packet is received from the wireless station B,

The wireless station B performs carrier sense after receiving the transmission request packet from the wireless station A, and transmits the request response packet if no carrier is detected for a time T1 (T1 <TD). When the carrier is detected, the carrier sense is continued and the time T
2 (T2 <TD, or T1 = T2), a wireless packet communication method for transmitting the request response packet when no carrier is detected continuously.

RTS / CT of DCF using CSMA / CA defined by IEEE 802.11 of the prior art
In S, in the environment where the hidden terminal exists and the capture effect occurs, when the RTSs or the RTS-CTS collide, the RTS from the wireless station A having strong received power is always normally received by the wireless station B. There are cases.

At this time, a radio station which cannot receive the CTS from the radio station B retransmits the RTS.
In the method of the present invention, carrier sense is performed before CTS transmission, and when a carrier is detected, CTS transmission is waited.
The point that the collision of TS-CTS is prevented is different from the related art. Thereby, since the wireless station A can receive the CTS, interference with the data packet due to the RTS retransmission is prevented, and the throughput is improved.

A second aspect of the present invention relates to a case where the radio station A performs carrier sense when a data packet to be transmitted to another radio station B occurs and does not detect a carrier for a predetermined time (TD). Transmitting a transmission request packet for confirming whether transmission is possible to the wireless station B, and after completing the reception of the transmission request packet from the wireless station A, the wireless station B A request response packet indicating that the data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after receiving the request response packet from the wireless station B, The wireless station B transmits an acknowledgment packet indicating that the data packet has been normally received after the reception of the data packet is completed. After receiving a request response packet is not addressed to, the radio station A end sends a data packet in a wireless packet communication method for inhibiting the transmission of packets up to the time of receiving said acknowledgment packet from the wireless station B,

The wireless station B performs carrier sense after receiving the transmission request packet from the wireless station A, and transmits the request response packet if no carrier is detected for a time T1 (T1 <TD). When a carrier is detected, carrier sense is continued and a predetermined time T3 has elapsed after the reception of the transmission request packet has been completed.
Within (T1 + T2 <T3), time T2 (T2 <TD,
Or when the carrier is not continuously detected during T1 = T2), the request response packet is transmitted and the time T
If the CTS cannot be transmitted within three times, the wireless packet communication method does not transmit the CTS.

According to the first aspect of the present invention, the carrier sense is performed after the reception of the RTS and the carrier is continuously detected. On the other hand, the method of the second aspect of the present invention uses the carrier sense before transmitting the CTS at the radio station B. The difference is that CTS is not transmitted when it is recognized that the line is being used for a certain period of time. As a result, the time for waiting for CTS reception can be limited, and even if a CTS reception error occurs, a retransmission operation can be performed after T3.

According to a third aspect of the present invention, in the wireless packet communication method according to the first or second aspect, the wireless station B comprises:
Carrier sensing is performed after completion of reception of the transmission request packet from the wireless station A. If no carrier is detected for a time T1 (T1 <TD), a request response packet is transmitted. If a carrier is detected, carrier sensing is performed. When the carrier is not continuously detected for a time T2 (T2 <TD) after the carrier disappears, the request response packet or the acknowledgment packet is added to the request response packet or the acknowledgment response packet for a certain period after the completion of the reception of the acknowledgment packet. Destination station A
A request response packet including control information for instructing stop of transmission of the packet and transmitting the control information,
Alternatively, the destination wireless station A that has received the acknowledgment packet is configured to stop transmitting the packet for a certain period after the completion of the reception of the acknowledgment packet.

In the IEEE 802.11 of the prior art, in an environment where a hidden terminal exists and a capture effect occurs, the RTS is used.
When a collision between RTSs or RTS-CTSs occurs, the RTS from the wireless station A having weak reception power is not always received by the wireless station B, which is unfair. When the wireless station B recognizes that the line is in use by carrier sense before transmitting the CTS, control information for stopping transmission for a certain period of time after the destination wireless station A transmits a data packet is added to the CTS transmitted after the line is free. The difference is that they are sent. As a result, there is an effect that the problem that the wireless station A having strong reception power continuously performs the communication with priority can be solved.

According to a fourth aspect of the present invention, when a wireless station A performs a carrier sense when a data packet to be transmitted to another wireless station B occurs and does not detect a carrier for a predetermined time (TD), The wireless station B transmits a transmission request packet for confirming whether transmission is possible to the wireless station B, and after completing the reception of the transmission request packet from the wireless station A, the wireless station B A request response packet indicating that a data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. The wireless station B transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet is completed. After receiving the request response packet not, the radio station A end sends a data packet,
A wireless packet communication method for suppressing transmission of a packet until a time when the acknowledgment packet is received from the wireless station B,

The wireless station B carries out carrier sense after receiving the transmission request packet from the wireless station A, and transmits the request response packet if no carrier is detected for a time T1 (T1 <TD). The wireless packet communication method does not transmit the request response packet when a carrier is detected.

In the IEEE 802.11 of the prior art, the RTS is used in an environment where a hidden terminal exists and a capture effect occurs.
When a collision occurs between the RTSs and the RTS-CTS, the RTS from the wireless station A having a low received power is not always received by the wireless station B, so that the RTS becomes unfair. When the radio station B recognizes that the line is in use by carrier sense before transmitting the CTS, the CTS is not transmitted. This has the effect of solving the problem that when there is a hidden terminal and the received power is different, the problem that the wireless station A with the higher received power performs communication preferentially.

According to a fifth aspect of the present invention, when a radio station A performs a carrier sense when a data packet to be transmitted to another radio station B occurs and does not detect a carrier for a predetermined time (TD), The wireless station B transmits a transmission request packet for confirming whether transmission is possible to the wireless station B, and after completing the reception of the transmission request packet from the wireless station A, the wireless station B A request response packet indicating that a data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. The wireless station B transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet is completed. After receiving the request response packet not, the radio station A end sends a data packet,
In the wireless packet communication method for suppressing transmission of a packet until a time when the acknowledgment packet is received from the wireless station B, when the wireless station B receives a transmission request packet from the wireless station A, the wireless station B transmits the request response packet. This is a wireless packet communication method for transmitting a plurality of times.

RTS / CT of DCF using CSMA / CA specified in IEEE 802.11 of the prior art
In S, in the environment where a hidden terminal exists and a capture effect occurs, when a collision between RTSs or RTS-CTS occurs, the RTS from the wireless station A having strong received power is always normally received by the wireless station B. There is.

While a radio station that cannot receive the CTS from the radio station B retransmits the RTS, the method of the present invention according to claim 5 is that the radio station B always transmits the CTS a plurality of (n) times. different. By this means, when a collision of RTS-CTS occurs, the radio station receives at least one of the CTSs transmitted n times, and the radio stations other than the radio stations A and B set the NAV. Interference with the data packet can be prevented, and the throughput can be improved.

[0030]

Embodiments of the present invention will be described below in detail with reference to the drawings.

[Embodiment Corresponding to Claim 1] FIG. 1 is a diagram for explaining a first example of an embodiment of the present invention. This example corresponds to the invention of claim 1, and shows an operation procedure of a method of performing carrier sense before transmitting CTS in the system shown in FIG.

FIG. 6 is a flowchart showing control at the AP when carrier sense is performed before CTS transmission. First, when a data packet to be transmitted to the AP is generated in the terminal A, the terminal A performs carrier sense during DIFS. When recognizing that the line is not used by the carrier sense, the RTS is transmitted to the AP.

The AP performs carrier sense for a time T1 after receiving the RTS, that is, SIFS <T1 <DIFS, and transmits a CTS when idle (line free). Terminal A receives the CTS and transmits a data packet to the AP after SIFS. The AP sends an ACK to terminal A. On the other hand, terminal B receives the CTS and is set to NAV until transmission of the data packet from terminal A to the AP is completed.

FIG. 2 is a diagram for explaining a second example of the embodiment of the present invention. In the case where it is recognized that the line is in use before transmitting the CTS according to the present invention, an operation corresponding to the first embodiment of the present invention will be described. The procedure is shown. RTS [2-1] from terminal A to AP
After transmission, the terminal B sends an RTS [2-
2] is transmitted, the AP normally receives RTS [2-1] from terminal A having a high received power due to the capture effect, and RTS [2-2] from terminal B having a low received power indicates an erroneous reception. Become.

When the AP performs carrier sense for T1 after the reception of RTS [2-1] from terminal A and recognizes busy (line in use) due to RTS [2-2] collision from terminal B The AP transmits the CTS when the line waiting for the transmission of the CTS changes to idle during the busy period and the carrier is not continuously detected during the T2no. Note that T
2 <DIFS. Terminal A receives the CTS and sets SI
The data packet after FS is transmitted to the AP.

[Embodiment Corresponding to Claim 2] FIG. 7 is a flowchart showing a second example of AP control according to the embodiment of the present invention. It is a flowchart in the AP of Claim 2 when performing carrier sense before CTS transmission of this invention. T3 in FIG. 2 is the maximum waiting time for CTS transmission according to the present invention.

The AP performs carrier sense for T1 after the reception of the RTS [2-1] from the terminal A, and recognizes that the RTS [2-2] from the terminal B is busy (in use of the line) in the collision of the RTS [2-2]. At time T3 (T1
+ T2 <T3), if it is continuously recognized as busy, C
Stop transmitting TS. As described above, the CTS reception waiting time of the terminal A can be limited, and even if a CTS from the AP is erroneously received, the operation can be shifted to the retransmission operation after T3.

[Embodiment Corresponding to Claim 3] FIG. 3 is a diagram for explaining a third example of the embodiment of the present invention. 9 shows an operation procedure based on the invention of claim 3 when it is recognized that the line is in use before transmitting the CTS according to the present invention. FIG. 8 is a flowchart showing the control at the AP according to the third aspect of the present invention for transmitting the CTS including the control information of the present invention.

In FIG. 3, RTS [3] is sent from terminal A to the AP.
-1] RTS from terminal B to AP slightly after transmission
When [3-2] is transmitted, the AP sets the RT as in FIG.
S [3-1] Carrier sense is performed for T1 after the reception is completed, and when it is recognized as busy by RTS [3-2] collision from terminal B, if no carrier is detected continuously for T2, B- Send CTS.

The B-CTS includes control information for suppressing [3-3] the next transmission RTS for a certain period after the destination terminal has transmitted the data packet. Terminal B receives the B-CTS, and NAV is set. After receiving the data packet from terminal A,
The terminal B performs retransmission, and the terminal A waits for a next transmission RTS for a certain period of time, thereby preventing the terminal A from continuously performing preferential communication.

As described above, when a hidden terminal is present and the received power is different, by using the capture effect to receive the CTS and setting the NAV, it is possible to prevent collision due to RTS retransmission and improve the throughput. In addition, it solves the problem that a terminal with strong power performs communication preferentially, and enables fair competition access.

[Embodiment Corresponding to Claim 4] FIG.
FIG. 9 is a diagram illustrating a fourth example of an embodiment of the present invention. 9 shows an operation procedure based on claim 4 when it is recognized that the line is in use before transmitting the CTS according to the present invention. FIG.
FIG. 9 is a flowchart showing control by the AP according to the fourth aspect of the present invention, wherein the CTS is not transmitted when it is recognized that the line is in use before transmitting the CTS.

After transmitting RTS [4-1] from terminal A to the AP, RTS [4-2] from terminal B to the AP is slightly delayed.
Is transmitted, the AP performs RTS [4-1] as in FIG.
When the carrier sense is performed for T1 after the reception is completed, and the RTS [4-2] collision from terminal B is recognized as busy, the AP
Stops transmitting the CTS.

Since the terminal A and the terminal B do not receive the CTS from the AP, they are regarded as a collision and SIFS + DIFS + Backoff
Will resend later. As described above, it is possible to solve the problem that a terminal having high power performs communication preferentially when a hidden terminal exists and reception power is different.

[Embodiment Corresponding to Claim 5] FIG. 5 is a diagram for explaining a fifth example of the embodiment of the present invention. This figure solves the problem of NAV setting failure according to the present invention.
This is the operation procedure. FIG. 10 is a flowchart showing control by the AP when transmitting a CTS multiple times according to the present invention.

After transmitting RTS [5-1] from terminal A to the AP, RTS [5-2] from terminal B to the AP is slightly delayed.
Is transmitted, AP captures the terminal A due to the capture effect.
RTS [5-1] from the terminal B
TS [5-2] is erroneously received.

After completing the reception of RTS [5-1] from terminal A, the AP transmits CTS [5-3] after SIFS, and after completion of transmission, transmits CTS [5-4] after an interval of SIFS. . The AP always transmits the CTS transmission n times (two times in the example of the present embodiment), so that the RTS [5]
-2] collide with one of the CTSs, and NAV [5-5] is set by one of the received CTSs.

As described above, when a hidden terminal is present and the received power is different, the terminal receives one of the two CTSs to be transmitted twice and sets the NAV, thereby preventing interference with the data packet due to RTS retransmission and improving throughput. To improve. The above embodiments are not intended to limit the technical idea of the present invention described in the claims, but are merely examples. It goes without saying that other forms can be adopted when carrying out the present invention.

[0049]

As described in detail above, claim 1 is as follows.
According to the invention, carrier sense is performed before CTS transmission, and when busy, the CTS transmission is waited and RTS-CTS
Prevent collisions. This allows the terminal to receive the CTS using the capture effect, thereby preventing interference with the data packet due to RTS retransmission and improving the throughput.

According to the second aspect of the present invention, the carrier sense is performed before the CTS transmission, and the CTS transmission is waited when busy, and the CTS transmission is stopped when the busy is recognized for a certain period of time. As a result, the time for waiting for CTS reception can be limited, and even if a CTS reception error occurs, it is possible to shift to the retransmission operation after time T3.

According to the third aspect of the present invention, the radio station B uses the CT
When it is recognized by the carrier sense before the S transmission that the line is in use, the destination wireless station A adds a control information for suppressing transmission for a certain period of time after transmitting the data packet to the CTS transmitted after the line is free and transmits the data. . As a result, it is possible to solve the problem that the wireless station A having a high reception power continuously performs the communication with priority.

According to the fourth aspect of the present invention, when the radio station B
When it is recognized that the line is being used by carrier sense before the TS transmission, the CTS is not transmitted. This solves the problem that, when a hidden terminal is present and the received power is different, the wireless station A with the higher received power performs communication preferentially.

According to the fifth aspect of the present invention, the radio station B uses the CT
S is always transmitted n times. Thereby, when a collision of RTS-CTS occurs, the wireless station A receives at least one of the CTSs transmitted n times and sets the NAV, thereby preventing interference with data packets due to retransmission RTS, and Can be improved.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a first example of an embodiment of the present invention.

FIG. 2 is a diagram illustrating a second example of the embodiment of the present invention.

FIG. 3 is a diagram illustrating a third example of an embodiment of the present invention.

FIG. 4 is a diagram illustrating a fourth example of an embodiment of the present invention.

FIG. 5 is a diagram illustrating a fifth example of an embodiment of the present invention.

FIG. 6 is a flowchart showing a first example of AP control according to the embodiment of the present invention.

FIG. 7 is a flowchart showing a second example of the control of the AP according to the embodiment of the present invention.

FIG. 8 is a flowchart showing a third example of control of the AP according to the embodiment of the present invention.

FIG. 9 is a flowchart illustrating a fourth example of control of the AP according to the embodiment of this invention.

FIG. 10 is a flowchart showing a fifth example of the control of the AP according to the embodiment of the present invention.

FIG. 11 is a diagram illustrating a wireless packet communication method in an environment where a hidden terminal exists.

FIG. 12 is a diagram illustrating an example of a conventional wireless packet communication procedure.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Radio base station (AP) 2 Group A 3 Group B 4a-4d Terminal 5 Obstacle

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Masataka Iizuka 2-3-1 Otemachi, Chiyoda-ku, Tokyo Inside Nippon Telegraph and Telephone Corporation (72) Inventor Masahiro Morikura 2-3-3, Otemachi, Chiyoda-ku, Tokyo No. 1 Nippon Telegraph and Telephone Corporation F term (reference) 5K030 GA03 HA08 JL01 JT03 LB01 5K033 AA02 CB01 CC01 DA02 DA17 5K067 AA03 BB21 CC08 DD24 EE02 EE10 EE25 GG01 HH21 HH22

Claims (5)

[Claims] When a data packet to be transmitted to another radio station B is generated, the radio station A performs carrier sense and does not detect a carrier for a predetermined time (TD).
After transmitting a transmission request packet for confirming whether transmission is possible to the wireless station B, the wireless station B, after completing reception of the transmission request packet from the wireless station A, A request response packet indicating that a data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. The wireless station B transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet is completed, and the other wireless station receives the request response packet not addressed to its own wireless station from the wireless station B, and then transmits the acknowledgment packet. Station A stops transmitting data packets until the time when the data packet has been transmitted and the acknowledgment packet is received from wireless station B. In the line packet communication method, the wireless station B performs carrier sense after the reception of the transmission request packet from the wireless station A, and performs time T.
If no carrier is detected for 1 (T1 <TD), the request response packet is transmitted. If a carrier is detected, carrier sense is continued and continuous for a time T2 (T2 <TD or T1 = T2). And transmitting the request response packet when no carrier is detected. 2. A radio station A performs carrier sense when a data packet to be transmitted to another radio station B occurs and does not detect a carrier for a predetermined time (TD).
After transmitting a transmission request packet for confirming whether transmission is possible to the wireless station B, the wireless station B, after completing reception of the transmission request packet from the wireless station A, A request response packet indicating that a data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. The wireless station B transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet is completed, and the other wireless station receives the request response packet not addressed to its own wireless station from the wireless station B, Station A stops transmitting data packets until the time when the data packet has been transmitted and the acknowledgment packet is received from wireless station B. In the line packet communication method, the wireless station B performs carrier sense after the reception of the transmission request packet from the wireless station A, and performs time T.
If no carrier is detected for 1 (T1 <TD), the request response packet is transmitted. If a carrier is detected, carrier sense is continued, and a predetermined time T3 (T1 + T2 <T3), the time T2 (T2 <
TD or T1 = T2), when the carrier is not continuously detected, the request response packet is transmitted, and when the CTS cannot be transmitted within the time T3, the CTS is not transmitted. Method. 3. The wireless station B performs carrier sense after completing the reception of the transmission request packet from the wireless station A, and if no carrier is detected for a time T1 (T1 <TD),
A request response packet is transmitted. If a carrier is detected, carrier sensing is continued. If no carrier is detected continuously for a time T2 (T2 <TD) after the carrier is lost, the request response packet or the confirmation After completion of the reception of the acknowledgment packet, a response packet is added with control information for instructing stop of transmission of the packet of the destination wireless station A for a certain period of time, and is transmitted. A request response packet including the control information, or 3. The wireless packet communication method according to claim 1, wherein the destination wireless station A that has received the acknowledgment packet stops transmitting the packet for a predetermined period after the completion of the reception of the acknowledgment packet. 4. A radio station A performs carrier sense when a data packet to be transmitted to another radio station B occurs and does not detect a carrier for a predetermined time (TD).
After transmitting a transmission request packet for confirming whether transmission is possible to the wireless station B, the wireless station B, after completing reception of the transmission request packet from the wireless station A, A request response packet indicating that a data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. The wireless station B transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet is completed. Station A stops transmitting data packets until the time when the data packet has been transmitted and the acknowledgment packet is received from wireless station B. In the line packet communication method, the wireless station B performs carrier sensing after completing the reception of the transmission request packet from the wireless station A. If the carrier is not detected for a time T1 (T1 <TD), the request response A wireless packet communication method, comprising transmitting a packet and not transmitting the request response packet when a carrier is detected. 5. A radio station A performs carrier sense when a data packet to be transmitted to another radio station B occurs and does not detect a carrier for a fixed time (TD).
After transmitting a transmission request packet for confirming whether transmission is possible to the wireless station B, the wireless station B, after completing reception of the transmission request packet from the wireless station A, A request response packet indicating that a data packet can be received is transmitted to the wireless station A, and the wireless station A transmits a data packet after the reception of the request response packet from the wireless station B is completed. The wireless station B transmits an acknowledgment packet notifying that the data packet has been normally received after the reception of the data packet is completed, and the other wireless station receives the request response packet not addressed to its own wireless station from the wireless station B, and then transmits the acknowledgment packet. Station A stops transmitting data packets until the time when the data packet has been transmitted and the acknowledgment packet is received from wireless station B. In the line packet communication method, when the wireless station B receives a transmission request packet from the wireless station A, the wireless station B transmits the request response packet a plurality of times.