JP2013207384A - Radio communication system, radio communication device, and radio communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio communication system that can set a communication opportunity in response to a request from a terminal.SOLUTION: In order to divide each of a plurality of terminals into a first virtual group including a terminal to request high-speed communication and a second virtual group including a terminal to request power saving communication, an access point comprises control packet transmission means for broadcasting a control packet including virtual group setting information associating terminal identification information belonging respectively to the first virtual group or the second virtual group with information specifying the communication period of a terminal having the terminal identification information. The terminal comprises control packet receiving means for receiving a control packet, and communication means for performing communication with the access point in a communication period associated with the terminal identification information included in a control packet corresponding with its own terminal identification information, and sets the communication period of a terminal belonging to the first virtual group longer than the communication period of a terminal belonging to the second virtual groups.

Description

  The present invention relates to a wireless communication system, a wireless communication apparatus, and a wireless communication method for avoiding packet collision in a wireless communication system such as a wireless local area network (LAN).

  For access by wireless LAN, one hop (infrastructure mode) in which a wireless LAN terminal directly communicates with an access point (AP) is mainly used. However, there are places where radio waves are reflected by walls and floors and the communication quality is unstable, and there are places where radio waves do not reach due to obstacles. To perform stable communication over a wide range, the signal from the access point is stable. Therefore, it is effective to introduce a relay station (RS) at a place where reception is possible.

  However, since the number of transmissions is increased by introducing a relay station, a decrease in throughput and an increase in delay time become problems. To solve this problem, a network coding (NC) method is implemented in the intermediate layer between the MAC (Media Access Control) layer and the network layer of the wireless LAN terminal and relay station, and the wireless LAN terminal and the relay station Efforts are being made to improve system throughput by configuring a hop network. At this time, it is considered that a wireless LAN terminal near the access point in the wireless LAN system and capable of stably communicating with the access point directly communicates with the access point without using a relay station. There is a wireless LAN system using the NC system in which wireless LAN terminals having different hop numbers are mixed.

  One factor that greatly deteriorates the characteristics of wireless LAN is collision caused by simultaneous transmission of wireless stations. According to the IEEE 802.11 standard, autonomous distributed control is performed by CSMA / CA (Carrier Sense Multiple Access / Collision Avoidance). In CSMA / CA, each wireless LAN terminal grasps the transmission status of other wireless LAN terminals by carrier sense, autonomously controls the transmission timing, and shifts the transmission timing to reduce the collision probability.

  However, in the CSMA / CA protocol used in a wireless LAN, when the number of wireless stations increases due to the introduction of wireless stations, the probability that there are a plurality of stations having the same back-off time by the back-off algorithm increases, The probability of collision due to transmission increases, which causes degradation of system throughput characteristics. In order to reduce this influence, it is effective to reduce the number of competing radio stations by a back-off algorithm. That is, the number of radio stations competing simultaneously can be reduced by virtually grouping radio stations and allocating communication time for each virtual group (see, for example, Non-Patent Document 1).

  In Non-Patent Document 1, a channel is divided into virtual groups consisting of a pair of an idle period and a busy period, and the wireless LAN terminal autonomously determines the number of virtual group cycles and the virtual group that participates in the competition. DCF / VG (Distributed Coordination Function) with Virtual Group) method has been proposed. Here, the collision probability is measured at the terminal, and the number of STAs (number of terminals) in the virtual group is adjusted while comparing with the collision probability that theoretically maximizes the throughput. A pair of an idle interval and a busy interval is defined as one virtual group, and competition is permitted only in one virtual group among several consecutive virtual groups.

S.M.Kim, Y.J.Cho, \ Performance Evaluation of IEEE 802.11 Distributed Coordination Function with Virtual Group, "IEICE Trans.Commun., Vol.E88-B, no.12, pp.4625-4635, Dec. 2005.

  However, the above scheme can be used as long as all radio stations have the same transmission right, but cannot be used when it is necessary to arbitrarily set the transmission right of a specific radio station. For example, in a case where a specific virtual group not only reduces the collision probability but also wants to set the transmission / reception section extremely short in order to reduce power consumption, conversely, in an environment where it is desired to improve only the throughput of a specific virtual group, etc. There is a problem that it cannot be used.

  The present invention has been made in view of such circumstances, and can provide many communication opportunities to a terminal that requests high-speed communication and sleeps to a terminal that requests power-saving communication. An object of the present invention is to provide a wireless communication system, a wireless communication apparatus, and a wireless communication method capable of extending the period.

  The present invention is a wireless communication system including an access point and a plurality of terminals, wherein the access point includes a first virtual group including terminals that request high-speed communication, Terminal identification information belonging to each of the first or second virtual group and a communication period of the terminal having the terminal identification information in order to divide into any of the second virtual groups including terminals requesting power communication Control packet transmitting means for broadcasting a control packet including virtual group setting information associated with information for identifying the control packet, wherein the terminal matches the control packet receiving means for receiving the control packet and its own terminal identification information Communication with the access point during the communication period associated with the terminal identification information included in the control packet. And a communication means for performing the communication period of the terminal belonging to the first virtual group is characterized by longer than setting communication period of the terminal belonging to the second virtual group.

  The present invention is a wireless communication system including an access point and a plurality of terminals, wherein the access point includes a first virtual group including a terminal requesting low-latency communication for each of the plurality of terminals; Terminal identification information belonging to each of the first or second virtual group and communication of the terminal having the terminal identification information in order to divide into any of the second virtual groups including terminals that request power-saving communication Control packet transmission means for broadcasting a control packet including virtual group setting information associated with information for specifying a period, and the terminal includes control packet reception means for receiving the control packet, own terminal identification information, In the communication period associated with the terminal identification information included in the matching control packet, with the access point The communication period of the terminal belonging to the first virtual group is set longer than the communication period of the terminal belonging to the second virtual group, and the first virtual group In the communication period, a plurality of transmission intervals and reception intervals are alternately arranged.

  The present invention is a wireless communication apparatus that operates as an access point in a wireless communication system including an access point and a plurality of terminals, and each of the plurality of terminals includes a first virtual terminal including a terminal that requests high-speed communication. In order to divide the group into any one of the second virtual groups including terminals that request power-saving communication, the terminal identification information belonging to each of the first or second virtual group, and the terminal identification information Control packet transmission means for broadcasting a control packet including virtual group setting information associated with information specifying a communication period of a terminal, wherein the communication period of the terminal belonging to the first virtual group is the second It is set longer than the communication period of the terminal belonging to the virtual group.

  The present invention is a wireless communication apparatus that operates as an access point in a wireless communication system including an access point and a plurality of terminals, and each of the plurality of terminals includes a terminal that requests low-delay communication. In order to divide into a virtual group and a second virtual group including a terminal requesting power-saving communication, terminal identification information belonging to each of the first or second virtual group and the terminal identification information are included. Control packet transmission means for broadcasting a control packet including virtual group setting information associated with information specifying a communication period of the terminal, and the communication period of the terminal belonging to the first virtual group is the first And set longer than the communication period of the terminal belonging to the second virtual group, and within the communication period of the first virtual group Characterized by arranging a plurality of transmission intervals and reception intervals alternately.

  The present invention is a wireless communication method performed by a wireless communication system including an access point and a plurality of terminals, wherein the access point includes a terminal requesting high-speed communication for each of the plurality of terminals. In order to divide into a virtual group and a second virtual group including a terminal requesting power-saving communication, terminal identification information belonging to each of the first or second virtual group and the terminal identification information are included. A control packet transmitting step of broadcasting a control packet including virtual group setting information associated with information specifying a communication period of the terminal; a control packet receiving step of receiving the control packet by the terminal; , During the communication period associated with the terminal identification information included in the control packet that matches the terminal identification information of its own A communication step of performing communication with the access point, and the communication period of the terminal belonging to the first virtual group is set longer than the communication period of the terminal belonging to the second virtual group It is characterized by doing.

  The present invention is a wireless communication method performed by a wireless communication system including an access point and a plurality of terminals, wherein the access point includes a terminal requesting low-latency communication from each of the plurality of terminals. And the terminal identification information belonging to each of the first or second virtual group, and the terminal identification information are divided into any one of the virtual group and the second virtual group including the terminal requesting power-saving communication. A control packet transmitting step for broadcasting a control packet including virtual group setting information associated with information for specifying a communication period of the terminal, a control packet receiving step for receiving the control packet by the terminal, and the terminal During the communication period associated with the terminal identification information included in the control packet that matches the terminal identification information of its own. A communication step of communicating with the access point, wherein the communication period of the terminal belonging to the first virtual group is longer than the communication period of the terminal belonging to the second virtual group A plurality of transmission intervals and reception intervals are alternately arranged within the communication period of the first virtual group.

  The present invention is a wireless communication method performed by a wireless communication apparatus that operates as an access point in a wireless communication system including an access point and a plurality of terminals, and each of the plurality of terminals is a terminal that requests high-speed communication. Terminal identification information belonging to each of the first or second virtual group, in order to divide the terminal into one of the first virtual group and the second virtual group including the terminal requesting power-saving communication, and the terminal A control packet transmission step of broadcasting a control packet including virtual group setting information associated with information specifying a communication period of the terminal having identification information, and the communication of the terminal belonging to the first virtual group The period is set longer than the communication period of the terminals belonging to the second virtual group.

  The present invention is a wireless communication method performed by a wireless communication apparatus that operates as an access point in a wireless communication system including an access point and a plurality of terminals, and each of the plurality of terminals requests a low-delay communication. Terminal identification information belonging to each of the first or second virtual group to divide the first virtual group including the first virtual group including the terminal and the second virtual group including the terminal requesting power-saving communication, A control packet transmission step of broadcasting a control packet including virtual group setting information associated with information specifying a communication period of the terminal having terminal identification information, and the terminal belonging to the first virtual group The communication period is set longer than the communication period of the terminals belonging to the second virtual group, and the first virtual group is set. Within the communication period, characterized by arranging a plurality of transmission intervals and reception intervals alternately.

  According to the present invention, it is possible to provide a large number of communication opportunities to a terminal that requests high-speed communication, and it is possible to provide frequent transmission opportunities to a terminal that requests low delay, and An effect is obtained that it is possible to extend the sleep period for a terminal that requests power-saving communication.

It is a figure which shows the structure of the wireless LAN system by one Embodiment of this invention. It is. It is a figure which shows the frequency channel which the said wireless LAN system uses. It is explanatory drawing which shows the format of the control packet which access point AP transmits to each terminal when carrying out virtual grouping. It is a figure which shows the conditions for preventing each terminal from transmitting beyond the period when transmission was permitted. It is a figure which shows the conditions for preventing each terminal from transmitting beyond the period when transmission was permitted. It is a figure which shows the conditions for preventing each terminal from transmitting beyond the period when transmission was permitted. It is a figure which shows a structure in case a 1st virtual group (virtual group X) is a group which gives priority to low power consumption, and a 2nd virtual group (virtual group Y) is a group which gives priority to high throughput. It is a figure which shows the operation | movement which allocates several transmission / reception area to one virtual group alternately in 1VG period.

  Hereinafter, a wireless LAN system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a configuration of a wireless LAN system according to the embodiment. The wireless LAN system includes an access point AP and 15 wireless LAN terminals (hereinafter simply referred to as terminals) STA1 to STA15 connected to the access point AP. Each terminal constitutes a virtual group. In the example illustrated in FIG. 1, an example in which virtual groups are formed into four virtual groups VG1 to VG4 is illustrated. The terminal STA1 and the terminal STA2 belong to the virtual group VG1. Terminal STA3 and terminal STA4 belong to virtual group VG2. The virtual group VG3 includes a terminal STA5, a terminal STA6, a terminal STA7, a terminal STA8, a terminal STA9, a terminal STA10, and a terminal STA11. A terminal STA12, a terminal STA13, a terminal STA14, and a terminal STA15 belong to the virtual group VG4.

  FIG. 2 is a diagram showing a time allocation configuration in the frequency channel used by the wireless LAN system. As shown in FIG. 2, the time allocation configuration includes a transmission section and a reception section corresponding to each of the access point AP and four virtual groups (two virtual groups are illustrated in FIG. 2). Terminals belonging to the virtual group transmit data in the corresponding transmission interval and receive data in the corresponding reception interval.

  FIG. 3 is a diagram illustrating a format of a control packet that the access point AP transmits to each terminal when virtual grouping is performed. The control packet has fields of “header”, “number of VGs”, “VG cycle”, and a plurality of “VG setting contents”. The VG number is the number of virtual groups set in the LAN, and the example shown in FIG. The VG cycle is the length of the period in which the transmission / reception periods of all virtual groups end. The VG setting content further includes fields of “VG address”, “transmission start time”, “transmission end time”, “reception start time”, and “reception end time”. The VG address is an address for uniquely specifying a virtual group. The transmission start time and the transmission end time are times that define the transmission period of the target virtual group in pairs. The reception start time and the reception end time are times for determining the reception period of the target virtual group in pairs. The VG setting contents have the same number of fields as the number of virtual groups, and in the example shown in FIG. 1, four VG setting contents are connected.

  Next, the operation of the wireless LAN system shown in FIG. 1 will be described. First, the access point AP broadcasts a control packet for virtual grouping. Each terminal that has received this control packet (see FIG. 3) reads the transmission / reception period corresponding to its own VG address in order to determine its own transmission period and reception period according to the contents of the control packet (see FIG. 3). To decide. Thereby, in the transmission period within the virtual group period, packet transmission by CSMA / CA is permitted as usual.

  In the reception period, packet transmission is prohibited, but the terminal enters a reception mode because a packet addressed to itself may be transmitted. Since the other period is a period during which communication unrelated to the own station is performed, the mode shifts to the sleep mode.

  Moreover, in order to prevent each terminal from performing transmission beyond the period during which transmission is permitted, the following conditions (1) to (3) are provided. Thereby, interference with the transmission period of another virtual group can be eliminated.

(1) At the packet transmission start timing, if the packet length + SIFS length + ACK length (transmission time length) is within the transmission period, transmission is started. If not, transmission is stopped and the mode is changed to the sleep mode (FIG. 4). reference).
(2) When the transmission period ends during the back-off, the back-off counter is held, and if the next period is its own reception period, it shifts to the reception mode, otherwise it shifts to the sleep mode (FIG. 5). reference).
(3) If the transmission period has been exceeded at the timing of IFS start, if the next period is its own reception period, it shifts to the reception mode; otherwise, it shifts to the sleep mode (see FIG. 6).

  The wireless LAN system shown in FIG. 1 is characterized in that the grouping method of terminals constituting each group and the transmission interval and reception interval of each group are based on the criteria required for the group (high throughput, low delay, low power consumption). Etc.). Specifically, by grouping according to the throughput and power consumption requirements of each terminal, a relatively long transmission / reception section is allocated to a group of terminals that require higher throughput, and low throughput may be used. By assigning a shorter transmission / reception section to a group of terminals that want to suppress power consumption as much as possible, it is possible to improve the system throughput and satisfy the requirements for low power consumption.

  Next, the access control operation will be described with a specific example. FIG. 7 is a diagram showing a configuration when the first virtual group (virtual group X) is a group that prioritizes low power consumption, and the second virtual group (virtual group Y) is a group that prioritizes high throughput. It is. These groups communicate with each other alternately at a predetermined cycle. By notifying the header information in advance that the first virtual group address is a group that prioritizes low power consumption and the second group prioritizes high throughput, the terminal becomes the standard to be prioritized by itself. It is possible to belong to a group to which the user belongs. The access point (AP) and the relay station (RS) may update various parameters based on the number of terminals belonging to each group and update them at the next VG cycle.

  The first group is a group that prioritizes low power consumption, and terminals belonging to this group perform, for example, transmission / reception in a time of 1/10 or less of the VG cycle and enter a sleep mode for a time of 9/10 or more. Shall be able to. The access point (AP) compares the number of terminals Nx belonging to the first group with the number of terminals Ny belonging to the second group. Assuming that the transmission / reception section allocated to the first group is Tx and the transmission / reception section allocated to the second group is Ty, the transmission / reception section of each group is allocated so that the allocation time satisfies 10 × Ny / Nx ≦ Ty / Tx. Here, when 10 × Tx> Ty is satisfied, time allocation is performed such that Tx = Ty / 10.

  As a result, the terminals belonging to the first group can have a length of a transmission / reception section that is relatively one-tenth or less compared to the terminals belonging to the second group. During this time, the power consumption can be suppressed by entering the sleep mode.

  On the other hand, a terminal belonging to the second group that prioritizes high throughput can obtain an average throughput that is 10 times or more that of a terminal belonging to the first group. When the relay station (RS) is included in the group, the allocation time is calculated including the relay station (RS) in the number of terminals.

  A plurality of groups may be created by dividing the degree of low power consumption. For example, you may divide into the group which enters sleep mode in the time of 9/10 or less, and the group which enters sleep mode in the time of 19/20 or less.

  Next, another example of virtual grouping will be described. When the second group (virtual group Y) shown in FIG. 7 is not a high-throughput priority group but a low-latency (low-round trip time) priority group, the transmission / reception section of the first group (virtual group X) Rather than divide the entire time except for two into two, a transmission interval and a reception interval, the transmission / reception intervals are set in detail. That is, instead of setting only one transmission / reception section for one virtual group in one VG cycle, a plurality of transmission / reception sections are assigned to one virtual group in one VG cycle (see FIG. 8). FIG. 8 is a diagram illustrating an operation of alternately allocating a plurality of transmission / reception sections to one virtual group in one VG cycle. In the VG header, since a plurality of transmission / reception sections are allocated to the same group, it is necessary to enter the corresponding VG setting contents. Accordingly, it is possible to reduce the round trip time by frequently exchanging the transmission and reception sections in the low delay priority group while securing the sleep period necessary for the low power consumption priority group.

  As described above, the conventional wireless LAN has a problem that due to autonomous distributed access control based on CSMA / CA, when a large number of terminals try to access simultaneously, a collision occurs and data cannot be transmitted efficiently. . On the other hand, there is a technique for reducing the probability of collision by competing for transmission rights for each virtual group (for example, Non-Patent Document 1).

  However, this technique has a problem in that it is not possible to provide a sufficient communication capacity according to a request when there is a terminal requesting high-speed communication, for example, because transmission opportunities are given uniformly to each terminal. In addition, when there is a terminal requesting power saving, there is a problem that the power saving terminal is frequently activated.

  On the other hand, in the present embodiment, the transmission section and the reception section of each group are controlled according to the terminals constituting each group. That is, a long transmission period and reception period for a virtual group of terminals that request high-speed communication are grouped into a group that includes terminals that request high-speed communication and a group that includes terminals that request power-saving communication. Set. In addition, a short transmission period and reception period are set for a virtual group of terminals that request power-saving communication. As a result, it is possible to provide many communication opportunities to terminals that request high-speed communication, and it is possible to extend the sleep period for terminals that request power-saving communication. Note that the level for requesting power-saving communication may be divided into a plurality of levels, and a detailed request level can be accommodated by forming a group according to the required level and adjusting the allocation time. In addition, when there is a terminal requesting low-latency communication, a plurality of transmission periods and reception periods are alternately arranged in the transmission period and reception period assigned to the virtual group of the terminal. Thus, the delay time can be shortened.

  Note that a program for realizing the functions of the access point AP and the terminals STA1 to STA15 in FIG. 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 Access control may be performed accordingly. 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.

  The present invention can be applied to uses where it is essential to avoid collision in a wireless LAN.

  AP ... access point, STA1 to STA15 ... wireless LAN terminal, VG1 to VG4 ... virtual group

Claims (8)

A wireless communication system including an access point and a plurality of terminals,
The access point is
In order to divide each of the plurality of terminals into either a first virtual group including terminals that request high-speed communication or a second virtual group including terminals that request power-saving communication, Control packet transmission means for broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each second virtual group is associated with information for specifying a communication period of the terminal having the terminal identification information ,
The terminal
Control packet receiving means for receiving the control packet;
Communication means for performing communication with the access point in the communication period associated with the terminal identification information included in the control packet that matches the terminal identification information of its own,
The wireless communication system, wherein the control packet transmitting means sets the communication period of the terminals belonging to the first virtual group to be longer than the communication period of the terminals belonging to the second virtual group. A wireless communication system including an access point and a plurality of terminals,
The access point is
In order to divide each of the plurality of terminals into one of a first virtual group including terminals that request low-latency communication and a second virtual group including terminals that request power-saving communication, Or control packet transmission means for broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each second virtual group is associated with information for specifying a communication period of the terminal having the terminal identification information Prepared,
The terminal
Control packet receiving means for receiving the control packet;
Communication means for performing communication with the access point in the communication period associated with the terminal identification information included in the control packet that matches the terminal identification information of its own,
The control packet transmission means sets the communication period of the terminal belonging to the first virtual group to be longer than the communication period of the terminal belonging to the second virtual group, and also communicates the first virtual group. A wireless communication system, wherein a plurality of transmission intervals and reception intervals are alternately arranged within a period. A wireless communication device that operates as an access point in a wireless communication system including an access point and a plurality of terminals,
In order to divide each of the plurality of terminals into either a first virtual group including terminals that request high-speed communication or a second virtual group including terminals that request power-saving communication, Control packet transmission means for broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each second virtual group is associated with information for specifying a communication period of the terminal having the terminal identification information ,
The wireless communication apparatus, wherein the control packet transmission unit sets the communication period of the terminal belonging to the first virtual group to be longer than the communication period of the terminal belonging to the second virtual group. A wireless communication device that operates as an access point in a wireless communication system including an access point and a plurality of terminals,
In order to divide each of the plurality of terminals into one of a first virtual group including terminals that request low-latency communication and a second virtual group including terminals that request power-saving communication, Or control packet transmission means for broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each second virtual group is associated with information for specifying a communication period of the terminal having the terminal identification information Prepared,
The control packet transmission means sets the communication period of the terminal belonging to the first virtual group to be longer than the communication period of the terminal belonging to the second virtual group, and also communicates the first virtual group. A wireless communication apparatus, wherein a plurality of transmission intervals and reception intervals are alternately arranged within a period. A wireless communication method performed by a wireless communication system including an access point and a plurality of terminals,
The access point divides each of the plurality of terminals into either a first virtual group including terminals that request high-speed communication or a second virtual group including terminals that request power-saving communication. Control for broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each of the first or second virtual groups is associated with information for specifying a communication period of the terminal having the terminal identification information A packet transmission step;
A control packet receiving step in which the terminal receives the control packet;
A communication step in which the terminal communicates with the access point in the communication period associated with the terminal identification information included in the control packet that matches the terminal identification information of the terminal;
In the control packet transmission step, the communication period of the terminal belonging to the first virtual group is set longer than the communication period of the terminal belonging to the second virtual group. A wireless communication method performed by a wireless communication system including an access point and a plurality of terminals,
The access point divides each of the plurality of terminals into one of a first virtual group including terminals that request low-latency communication and a second virtual group including terminals that request power-saving communication. Broadcast a control packet including virtual group setting information in which terminal identification information belonging to each of the first or second virtual group is associated with information for specifying a communication period of the terminal having the terminal identification information A control packet transmission step;
A control packet receiving step in which the terminal receives the control packet;
A communication step in which the terminal communicates with the access point in the communication period associated with the terminal identification information included in the control packet that matches the terminal identification information of the terminal;
In the control packet transmission step, the communication period of the terminal belonging to the first virtual group is set longer than the communication period of the terminal belonging to the second virtual group, and the communication of the first virtual group A wireless communication method, wherein a plurality of transmission intervals and reception intervals are alternately arranged within a period. A wireless communication method performed by a wireless communication device operating as an access point in a wireless communication system including an access point and a plurality of terminals,
In order to divide each of the plurality of terminals into either a first virtual group including terminals that request high-speed communication or a second virtual group including terminals that request power-saving communication, A control packet transmission step of broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each of the second virtual groups is associated with information for specifying a communication period of the terminal having the terminal identification information; And
In the control packet transmission step, the communication period of the terminal belonging to the first virtual group is set longer than the communication period of the terminal belonging to the second virtual group. A wireless communication method performed by a wireless communication device operating as an access point in a wireless communication system including an access point and a plurality of terminals,
In order to divide each of the plurality of terminals into one of a first virtual group including terminals that request low-latency communication and a second virtual group including terminals that request power-saving communication, Or a control packet transmission step of broadcasting a control packet including virtual group setting information in which terminal identification information belonging to each of the second virtual groups is associated with information for specifying a communication period of the terminal having the terminal identification information Have
In the control packet transmission step, the communication period of the terminal belonging to the first virtual group is set longer than the communication period of the terminal belonging to the second virtual group, and the communication of the first virtual group A wireless communication method, wherein a plurality of transmission intervals and reception intervals are alternately arranged within a period.

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