JP5780654B2 - Access control method, access control system, and wireless communication apparatus - Google Patents

Description

  The present invention relates to an access control method, an access control system, and a wireless communication apparatus that perform access control in an environment in which a plurality of wireless systems communicate in the same frequency band.

  In recent years, WSN (Wireless sensor network) using the IEEE 802.15.4 standard has attracted attention as a sensor network. The sensor network of the IEEE 802.15.4 standard is also called LR-WPANs (Low rate wireless personal area networks), and is small and power saving. There is a 2.4 GHz band that is an ISM band as a world-wide radio frequency band that can be used by the current WSN.

  However, the 2.4 GHz band is used by various devices such as WLAN (Wireless LAN; IEEE802.11b / g) in communication systems in addition to use in communication systems such as microwave ovens and thermotherapy devices. ing. For this reason, the 2.4 GHz band is a frequency band having a large influence of interference for the WSN. In particular, when used in an office environment or in each home, WLAN is widespread, and the coexistence of WSN and WLAN in the 2.4 GHz band is a major issue.

  The method using H-STA (Hybrid station) proposed in Non-Patent Document 1 integrates WLAN STA (terminal) and WSN PAN-C (Personal area network coordinator), and WSN PAN-C. Transmits an RTS / CTS / CTS-to-self frame in the WLAN before transmitting the beacon frame and sets a NAV (Network Allocation Vector) period (channel reservation signal transmission) to other WLAN terminals. This is a method of segregating communication in terms of time.

Yohei Fujii, Daisuke Umehara, Satoshi Tano, Masahiro Morikura, Goro Otsuki, Takatoshi Sugiyama "Coexistence of Wireless LAN and Wireless Sensor Network" IEICE Technical Report, vol. 111, no. 68, pp. 65-70, May 2011.

  By the way, in IEEE802.11e, the QoS (Quality of Service) order of packets is set according to the access category, and VoIP (Voice over Internet Protocol), which is the highest priority category, has a variation in the backoff period (carrier sense period). The value of CWmax indicating the degree of is set smaller than other categories. In a case where a plurality of terminals perform VoIP communication in such an IEEE 802.11e WLAN, VoIP packets are accumulated in the transmission buffer during a period in which a long-term NAV is applied for the WSN, and at the same time after the NAV period is released, the plurality of terminals Starts a backoff algorithm to send a VoIP packet. When such a situation occurs, the variation in backoff of the VoIP packet is small, so that there is a problem that the probability of packet collision increases and the VoIP quality deteriorates.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide an access control method, an access control system, and a wireless communication apparatus that can reduce packet collisions and improve communication quality. .

  The present invention relates to a first radio apparatus belonging to a first radio system performing access control by carrier sense, and a second radio apparatus belonging to a second radio system using the same frequency band as the first radio system. An access control method for transmitting a radio signal between a radio apparatus and a third radio apparatus belonging to both the first radio scheme and the second radio scheme, wherein the third radio apparatus A channel reservation signal transmission step of transmitting a channel reservation signal to the first wireless device in order to reserve a period during which the second wireless device transmits and receives a wireless signal; and After receiving a channel reservation signal, a carrier sense period control step for stochastically increasing a period for performing carrier sense, and after the period when the channel is reserved for the first wireless device has expired, It performs carrier sense over the serial increased period, if the wireless signal is not detected, and having a signal transmission step of transmitting a signal.

  In the carrier sense period control step, the present invention sets a period for performing the carrier sense when the first wireless device detects that the received channel reservation signal is transmitted by the third wireless device. It is characterized by increasing it stochastically.

  The present invention provides an access point apparatus belonging to the first radio scheme for probabilistically increasing the carrier sense period when the channel reservation signal transmitted by the third radio apparatus is received. The method further includes a control signal transmission step of transmitting a control signal, and in the carrier sense period control step, the first radio apparatus probabilistically increases a period during which the carrier sense is performed when the control signal is received. It is characterized by that.

  The present invention further includes a control signal transmission step in which the third radio apparatus transmits a control signal for probabilistically increasing the carrier sense period, and in the carrier sense period control step, The wireless device probabilistically increases a period during which the carrier sense is performed when the control signal is received.

  In the present invention, the first radio apparatus measures its own packet transmission success probability after the period when the channel is reserved, and the packet transmission success probability is less than a predetermined threshold value. In addition, the probability of increasing the period for performing the carrier sense is restored.

  The present invention relates to a first radio apparatus belonging to a first radio system performing access control by carrier sense, and a second radio apparatus belonging to a second radio system using the same frequency band as the first radio system. An access control system configured by a wireless device and a third wireless device belonging to both the first wireless method and the second wireless method, and performing access control for transmitting a wireless signal, The third radio apparatus includes channel reservation signal transmission means for transmitting a channel reservation signal to the first radio apparatus for reserving a period during which the second radio apparatus transmits and receives radio signals. 1 radio apparatus, after receiving the channel reservation signal, carrier sense period control means for stochastically increasing a period for performing carrier sense, and a period during which the channel is reserved has expired After senses carriers over said increased period, if the wireless signal is not detected, characterized in that it comprises a signal transmitting means for transmitting a signal.

The present invention relates to a first radio apparatus belonging to a first radio system performing access control by carrier sense, and a second radio apparatus belonging to a second radio system using the same frequency band as the first radio system. A channel belonging to both the first wireless method and the first wireless method, and a channel for the first wireless device to reserve a period during which the second wireless device transmits and receives wireless signals. A wireless communication apparatus that operates as the first wireless apparatus in an access control system that includes a third wireless apparatus including channel reservation signal transmitting means for transmitting a reservation signal and performs access control for transmitting a wireless signal A carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal, and a period when the channel is reserved. There after the expiration senses carriers over said increased period, if the wireless signal is not detected, characterized in that it comprises a signal transmitting means for transmitting a signal.

  The present invention measures the packet transmission success probability after the period when the channel is reserved, and performs the carrier sense when the value of the packet transmission success probability is a predetermined threshold value or less. It is characterized in that the probability of increasing is restored.

  According to the present invention, since the carrier sense period of the wireless terminal device is probabilistically increased only after the reservation period elapses in order to alleviate the collision after the elapse of the reservation period, the transmission timing between the wireless terminal devices is increased. As a result, it is possible to avoid the collision of packets. Thereby, communication quality can be improved.

It is a figure which shows the apparatus structure of one Embodiment of this invention. 3 is a flowchart showing processing operations of the WLAN terminals STA1, STA2, and STA3 shown in FIG. 2 is a flowchart showing a processing operation of the WLAN access point AP shown in FIG. It is a flowchart which shows the processing operation of H-STA1 shown in FIG.

<First Embodiment>
Hereinafter, a terminal control method and a terminal device according to a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram showing a device configuration of the embodiment. In this figure, there are an access point AP, a plurality of WLAN terminals (STA1, STA2, STA3), an H-STA1 constituting a WSN, and a plurality of WSN terminals (lighting 2, air conditioner 3, thermometer 4). Assume the situation. H-STA1 transmits an RTS to the access point AP in order to secure a WSN beacon transmission period, and the access point AP performs a wireless LAN function by CTS / CTS-to-self in response to an RTS request from H-STA1. The NAV period is set for the terminal and the access point AP itself, and the time division between the WLAN and the WSN is performed. Here, the contention window (CW) of the WLAN terminal that attempts to transmit a VoIP packet after the end of the NAV period is controlled, and CWmin and CWmax indicating the degree of variation in the back-off period defined in the conventional IEEE802.11e. Increase the value of. Thereby, it is possible to increase the back-off variation and reduce the collision probability.

  Next, with reference to FIG. 2, as a processing operation for controlling the contention window (CW) of a WLAN terminal that transmits a VoIP packet after the NAV period, an operation in which each WLAN terminal autonomously controls CWmin and CWmax will be described. To do. FIG. 2 is a flowchart showing the processing operation of the WLAN terminal in the first embodiment.

  First, when a WLAN terminal (any of STA1 to STA3) receives RTS / CTS / CTS-to-self (step S1), the request source of RTS / CTS / CTS-to-self is H- It is determined whether or not it is STA1 (step S2). If the result of this determination is not RTS / CTS / CTS-to-self from H-STA1, normal operation (CW value control is not performed) is performed (step S3), and the process is terminated.

On the other hand, when the request source address is H-STA1, the NAV period is extended (step S4), and CWmin and CWmax of all QoS classes are controlled (not only VoIP) (step S5). In that case, the CW value is controlled so as not to break the ranking of the original QoS class. The CWmin and CWmax values for each QoS class are determined by equations (1) and (2), respectively.
CWmin = 2 ^k (aCWmin + 1) −1 (1)
CWmax = 2 ^k (aCWmax + 1) −1 (2)

  Here, aCWmin and aCWmax are default values. The priority of QoS is given by the magnitude of the value of k in the above formula. That is, the lower the k, the higher the QoS priority. Therefore, CW control is performed so as not to break the magnitude relationship between k QoS classes. However, the CW may be controlled only in the case of a packet classified into the VoIP QoS class.

  Next, the WLAN terminal (any of STA1 to STA3) observes the retransmission probability of the own transmission packet after the NAV period is released (step S6). Then, it is determined whether or not the collision probability is smaller than a predetermined threshold (step S7). As a result of this determination, if the collision probability is greater than a predetermined threshold, CW control is continued (step S8), and the process returns to step S6. On the other hand, if the collision probability is smaller than the predetermined threshold value, the operation returns to the normal operation (CW control end) (step S9).

  By performing CW control and increasing the backoff variation, the collision probability is reduced, but the throughput and delay characteristics are deteriorated as compared with the case without control. Therefore, if it is determined that the collision probability has become sufficiently low, the control of the CW value is stopped and returned to the original value. When returning to the original value, it may be returned all at once or may be gradually returned. The determination of the collision probability can be made based on the average number of retransmissions.

  With the above operation, the WLAN terminals STA1 to STA3 can control the CW when there is a NAV request from the H-STA1, and reduce the packet collision probability after releasing the NAV period.

Second Embodiment
Next, referring to FIG. 3, as a processing operation for controlling the contention windows (CW) of the WLAN terminals STA1 to STA3 that transmit VoIP packets after the NAV period, the WLAN access point AP performs CWmin and CWmax in a centralized manner. The operation to control the will be described. FIG. 3 is a flowchart showing the processing operation of the access point AP in the second embodiment. Since the apparatus configuration is the same as that of the first embodiment (FIG. 1), detailed description is omitted here.

  First, when the WLAN access point AP receives the RTS (step S11), the WLAN access point AP determines whether or not the received RTS is an RTS from the H-STA 1 (step S12). If the received RTS is not the RTS from the H-STA 1 as a result of this determination, normal operation (CW value control is not performed) is performed (step S13), and the process is terminated.

On the other hand, if the received RTS is an RTS from the H-STA1, a CTS is transmitted (step S14), and a command is transmitted to the subordinate WLAN terminals STA1 to STA1 to control the CW (step S15). . This command may be an independent command packet transmitted continuously with the CTS, or may be embedded in the CTS packet. The WLAN terminals STA1 to STA3 that have received the CW control command control CWmin and CWmax of all QoS classes, not limited to VoIP. In that case, the CW value is controlled so as not to break the ranking of the original QoS class. The CWmin and CWmax values for each QoS class are determined by equations (3) and (4), respectively.
CWmin = 2 ^k (aCWmin + 1) −1 (3)
CWmax = 2 ^k (aCWmax + 1) −1 (4)

  Here, aCWmin and aCWmax are default values. The priority of QoS is given to the magnitude of the value of k in the above formula. That is, the lower the k, the higher the QoS priority. Therefore, it is preferable to perform CW control so as not to break the magnitude relationship between the k QoS classes. The value of k is notified to the WLAN terminals STA1 to STA3 as a part of the command by the WLAN access point AP. This k value may be different for each WLAN terminal. The CW may be controlled only in the case of a packet classified into the VoIP QoS class.

  Next, a CW control timer is set (step S16), and it is determined whether the timer has expired (step S17). As a result of this determination, if the timer has not expired, the CW control is continued (step S18), and the process returns to step S16. On the other hand, if the timer has expired, a CW control end command is transmitted to the WLAN terminals STA1 to STA3 (step S19).

  By performing CW control and increasing the backoff variation, the collision probability is reduced, but the throughput and delay characteristics are deteriorated as compared with the case without control. Therefore, the WLAN-AP transmits a command to stop the control of the CW value to the WLAN-STA after a certain amount of time has elapsed, and returns the CW control of the WLAN-STA to the normal state. When returning to the original value, you may return it all at once or gradually.

  With the above operation, the WLAN terminals STA1 to STA3 can control the CW when there is a NAV request from the H-STA1, and reduce the packet collision probability after releasing the NAV period.

<Third Embodiment>
Next, referring to FIG. 4, as a processing operation for controlling the contention windows (CW) of the WLAN terminals STA1 to STA3 that transmit VoIP packets after the NAV period, when there is no hidden terminal, the H-STA1 An operation for controlling CWmin and CWmax of the WLAN terminals STA1 to STA3 in a centralized manner will be described. FIG. 4 is a flowchart showing the processing operation of the H-STA 1 in the third embodiment. Since the apparatus configuration is the same as that of the first embodiment (FIG. 1), detailed description is omitted here.

The H-STA1 transmits an RTS to the WLAN access point AP (step S21), receives a CTS reply from the WLAN access point AP (step S22), and then issues a command for starting CW control to the WLAN terminal STA1. To 3 (step S23). Then, the WLAN access point AP transmits CTS-to-self, and the WLAN terminal receives this CTS-to-self (step S24). The WLAN terminals STA1 to STA3 that have received the CW control command control CWmin and CWmax of all QoS classes, not limited to VoIP. In that case, the CW value is controlled so as not to break the ranking of the original QoS class. The CWmin and CWmax values for each QoS class are determined by equations (5) and (6), respectively.
CWmin = 2 ^k (aCWmin + 1) −1 (5)
CWmax = 2 ^k (aCWmax + 1) −1 (6)

  Here, aCWmin and aCWmax are default values. The priority of QoS is given to the magnitude of the value of k in the above formula. That is, the lower the k, the higher the QoS priority. Therefore, it is preferable to perform CW control so as not to break the magnitude relationship between the k QoS classes. The value of k is notified by the H-STA to the WLAN terminals STA1 to STA1 as a part of the command. This k value may be different for each WLAN terminal. The CW may be controlled only in the case of a packet classified into the VoIP QoS class.

  Next, the H-STA1 sets a CW control timer (step S25) and determines whether the timer has expired (step S26). If the result of this determination is that the timer has not expired, CW control is continued (step S27), and control returns to step S16. On the other hand, if the timer has expired, a CW control end command is transmitted to the WLAN terminals STA1 to STA3 (step S28).

  By performing CW control and increasing the backoff variation, the collision probability is reduced, but the throughput and delay characteristics are deteriorated as compared with the case without control. For this reason, the H-STA transmits a command for stopping the control of the CW value to the WLAN-STA after a certain amount of time has elapsed, and returns the CW control of the WLAN-STA to the normal state. When returning to the original value, you may return it all at once or gradually.

  With the above operation, the WLAN terminals STA1 to STA3 can control the CW when there is a NAV request from the H-STA1, and reduce the packet collision probability after releasing the NAV period.

  Conventionally, since a wireless LAN and a sensor network coexist, there is a technique in which a terminal (hybrid terminal) having both wireless interfaces reserves a channel on the wireless LAN side over a transmission / reception period of the sensor network. With this technology, when priority control (EDCA control) is applied in a wireless LAN, there is a problem that collisions frequently occur due to signal transmission being started all at once after the reservation period has elapsed. This is because, in EDCA control, when high-priority traffic such as VoIP is transmitted, the carrier sense period is set short.

  In the present embodiment, the carrier sense period of the WLAN terminal is probabilistically increased only after the elapse of the reservation period in order to alleviate the collision after the elapse of the reservation period. By increasing this period, a difference occurs in transmission timing, so that collision can be avoided.

  Specifically, (1) the WLAN terminal detects a reservation signal from the hybrid terminal, and (2) a control signal that probabilistically increases the carrier sense period transmitted by the WLAN access point that has received the reservation signal from the hybrid terminal. The carrier sense period is probabilistically triggered by either the detection by the WLAN terminal or (3) the WLAN terminal has detected a control signal that probabilistically increases the carrier sense period transmitted by the hybrid terminal. Realized by that.

  1 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed to execute terminal control processing. You may go. Here, the “computer system” includes an OS and hardware such as peripheral devices. The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) in a computer system that becomes a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.

  The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.

  As mentioned above, although embodiment of this invention has been described with reference to drawings, the said embodiment is only the illustration of this invention, and it is clear that this invention is not limited to the said embodiment. is there. Accordingly, additions, omissions, substitutions, and other changes of the components may be made without departing from the technical idea and scope of the present invention.

  It can be applied to applications in which it is essential to perform access control in an environment where a plurality of wireless systems communicate in the same frequency band.

  DESCRIPTION OF SYMBOLS 1 ... H-STA, 2 ... Lighting, 3 ... Air conditioner, 4 ... Thermometer, AP ... Access point, STA1-3 ... Terminal

Claims (11)

A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; A third wireless device belonging to both the first wireless method and the second wireless method is an access control method for transmitting a wireless signal,
A channel reservation signal transmission step in which the third wireless device transmits a channel reservation signal to the first wireless device in order to reserve a period during which the second wireless device transmits and receives a wireless signal;
A carrier sense period control step for stochastically increasing a period for performing carrier sense after the first radio apparatus receives the channel reservation signal;
Yes said first wireless device, after the period in which switch Yaneru is reserved has expired, performs carrier sense over said increased period, if the wireless signal is not detected, and a signal transmitting step of transmitting a signal And
In the carrier sense period control step, the first radio apparatus probabilistically increases the period during which the carrier sense is performed when it detects that the received channel reservation signal is transmitted by the third radio apparatus. An access control method characterized by : A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; A third wireless device belonging to both the first wireless method and the second wireless method is an access control method for transmitting a wireless signal,
A channel reservation signal transmission step in which the third wireless device transmits a channel reservation signal to the first wireless device in order to reserve a period during which the second wireless device transmits and receives a wireless signal;
A carrier sense period control step for stochastically increasing a period for performing carrier sense after the first radio apparatus receives the channel reservation signal;
A signal transmission step of transmitting a signal when the first wireless device performs carrier sense for the increased period after a period when a channel is reserved and a wireless signal is not detected;
Have
A control signal for probabilistically increasing the period during which the carrier sense is performed when the access point apparatus belonging to the first radio system receives the channel reservation signal transmitted by the third radio apparatus A control signal transmission step of transmitting
Wherein the carrier sense time control step, the first wireless device, wherein the to luer access control method to increase the period in which the carrier sense when receiving the control signal stochastically. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; A third wireless device belonging to both the first wireless method and the second wireless method is an access control method for transmitting a wireless signal,
A channel reservation signal transmission step in which the third wireless device transmits a channel reservation signal to the first wireless device in order to reserve a period during which the second wireless device transmits and receives a wireless signal;
A carrier sense period control step for stochastically increasing a period for performing carrier sense after the first radio apparatus receives the channel reservation signal;
A signal transmission step of transmitting a signal when the first wireless device performs carrier sense for the increased period after a period when a channel is reserved and a wireless signal is not detected;
Have
The third radio apparatus further includes a control signal transmission step of transmitting a control signal for probabilistically increasing a period for performing the carrier sense,
Wherein the carrier sense time control step, the first wireless device, wherein the to luer access control method to increase the period in which the carrier sense when receiving the control signal stochastically. The first radio apparatus measures the retransmission probability of its own packet after the period when the channel is reserved, and increases the retransmission probability value of the packet when it is less than a predetermined threshold value. access control method according to any one of claims 1 to 3, characterized in that undo the probability of increasing the period for performing the carrier sense was. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; An access control system configured by a third wireless device belonging to both the first wireless method and the second wireless method, and performing access control for transmitting a wireless signal,
The third wireless device is
Channel reservation signal transmitting means for transmitting a channel reservation signal to the first wireless device for reserving a period during which the second wireless device transmits and receives a wireless signal;
The first wireless device is:
Carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal;
After a period the switch Yaneru is reserved has expired, performs carrier sense over said increased period, if the wireless signal is not detected, e Bei and a signal transmitting means for transmitting a signal,
The carrier sense period control means probabilistically increases a period for performing the carrier sense when the first radio apparatus detects that the received channel reservation signal is transmitted by the third radio apparatus. access control system characterized in that it makes. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; An access control system configured by a third wireless device belonging to both the first wireless method and the second wireless method, and performing access control for transmitting a wireless signal,
The third wireless device is
Channel reservation signal transmitting means for transmitting a channel reservation signal to the first wireless device for reserving a period during which the second wireless device transmits and receives a wireless signal;
The first wireless device is:
Carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal;
A signal transmission means for transmitting a signal when a radio signal is not detected by performing carrier sense over the increased period after a period when a channel is reserved;
The access point apparatus belonging to the first wireless system is
When receiving the channel reservation signal transmitted by the third wireless device, comprising a control signal transmitting means for transmitting a control signal for probabilistically increasing a period for performing the carrier sense,
The carrier sense period control means probabilistically increases a period during which the first radio apparatus performs the carrier sense when receiving the control signal. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; An access control system configured by a third wireless device belonging to both the first wireless method and the second wireless method, and performing access control for transmitting a wireless signal,
The third wireless device is
Channel reservation signal transmitting means for transmitting a channel reservation signal to the first wireless device in order to reserve a period during which the second wireless device transmits and receives a wireless signal;
Control signal transmitting means for transmitting a control signal for increasing the carrier sense period stochastically,
The first wireless device is:
Carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal;
A signal transmission means for transmitting a signal when a radio signal is not detected by performing carrier sense over the increased period after a period when a channel is reserved;
The carrier sense period control means probabilistically increases a period during which the first radio apparatus performs the carrier sense when receiving the control signal. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; A channel reservation signal is transmitted to the first radio apparatus to reserve a period during which the second radio apparatus transmits and receives radio signals, belonging to both the first radio system and the second radio system. A wireless communication device that operates as the first wireless device in an access control system configured to perform access control for transmitting a wireless signal.
Carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal;
After a period the switch Yaneru is reserved has expired, performs carrier sense over said increased period, if the wireless signal is not detected, e Bei and a signal transmitting means for transmitting a signal,
The carrier sense period control means probabilistically increases a period for performing the carrier sense when the first radio apparatus detects that the received channel reservation signal is transmitted by the third radio apparatus. radio communication apparatus characterized by causing. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; A channel reservation signal is transmitted to the first radio apparatus to reserve a period during which the second radio apparatus transmits and receives radio signals, belonging to both the first radio system and the second radio system. A wireless communication device that operates as the first wireless device in an access control system configured to perform access control for transmitting a wireless signal.
Carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal;
A signal transmission means for transmitting a signal when a radio signal is not detected by performing carrier sense over the increased period after a period when a channel is reserved;
A control signal for probabilistically increasing the period during which the carrier sense is performed when the access point apparatus belonging to the first radio system receives the channel reservation signal transmitted by the third radio apparatus Control signal transmission means for transmitting
The carrier sense period control means probabilistically increases a period during which the first radio apparatus performs the carrier sense when receiving the control signal. A first radio apparatus belonging to a first radio system that performs access control by carrier sense, and a second radio apparatus belonging to a second radio system that uses the same frequency band as the first radio system; A channel reservation signal is transmitted to the first radio apparatus to reserve a period during which the second radio apparatus transmits and receives radio signals, belonging to both the first radio system and the second radio system. A wireless communication device that operates as the first wireless device in an access control system configured to perform access control for transmitting a wireless signal.
Carrier sense period control means for stochastically increasing a period for performing carrier sense after receiving the channel reservation signal;
A signal transmission means for transmitting a signal when a radio signal is not detected by performing carrier sense over the increased period after a period when a channel is reserved;
The third radio apparatus includes a control signal transmitting means for transmitting a control signal for probabilistically increasing a period during which the carrier sense is performed;
The carrier sense period control means probabilistically increases a period during which the first radio apparatus performs the carrier sense when receiving the control signal. After the period in which the channel is reserved has expired probability measures the retransmission probability of its packet, the value of the retransmission probability of the packet if: the predetermined threshold value, to increase the period for performing the carrier sense The wireless communication apparatus according to claim 8 , wherein the wireless communication device is restored.

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