JP2011217026A - Wireless lan system and power saving control method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless LAN system capable of changing a power saving setting parameter of an access point in accordance with an awake time set in a power saving operation of a wireless LAN terminal, and a power saving control method.SOLUTION: The wireless LAN terminal calculates a DTIM value on the basis of a beacon interval of beacon information transmitted from an access point, and sets the DTIM value in an association request as a Listen Interval value, and the access point changes a DTIM value included in the beacon information according to the Listen Interval value attached to the association request. The access point also matches information of the existence/absence of data of a wireless LAN terminal which is simulatively set in the access point with an awake operation cycle of each wireless LAN terminal to transmit the information in an environment in which a plurality of wireless LAN terminals having different Listen Interval values are connected.

Description

  The present invention relates to a power saving control method for performing power saving control of a wireless LAN system and a wireless LAN terminal.

  In general, a wireless LAN system in the infrastructure mode includes an access point and a wireless LAN terminal connected to the access point. In wireless LAN terminals that supply power using a power cable such as a PC or printer, there is no problem even if the wireless LAN function is always awake, but the portable LAN game machine or portable terminal has a wireless LAN function. Since the installed terminal operates on a battery, a mechanism for power saving operation is required.

  A wireless LAN terminal normally has two types of modes, an active mode and a power save mode. The active mode is a state in which power is always supplied to a circuit that performs transmission / reception of a wireless LAN signal, and is always in an awake state, that is, a mode in which transmission / reception is always possible. On the other hand, the power save mode is a mode in which transmission / reception is possible only during a period of time when the device is in a doze state, that is, in a state where transmission / reception is disabled and operates at the minimum necessary power and is in an awake state at regular time intervals.

  When the wireless LAN terminal enters the power save mode, the access point recognizes that the connected wireless LAN terminal is not always ready to receive data, and if there is data for the wireless LAN terminal, the TIM included in the beacon The wireless LAN terminal is notified that there is data by information indicating presence / absence of transmission data to the power save mode terminal called (Traffic Indication Map).

  The TIM notifying that there is data is called a DTIM (Delivery Traffic Indication Message), and the access point transmits a beacon interval and a period (DTIM value) in which the DTIM is included in the beacon. The access point transmits data after the wireless LAN terminal enters an awake state in a DTIM cycle and is ready to receive data. As a result, even a wireless LAN terminal operating in power saving mode can check whether there is data addressed to the terminal itself, and can receive data.

  Technologies related to such a wireless LAN system are described in Patent Documents 1 to 4 and the like. Patent Document 1 describes that, for example, transmission of Heacon data at every beacon interval to a wireless terminal set in a power saving mode from an access point or transmission including DTIM periodically.

  Patent Document 2 describes the active mode and power save mode of the wireless terminal as described above. Patent Document 3 describes that a wireless LAN terminal has an intermittent reception mode and intermittently receives beacon frames. Furthermore, Patent Document 4 describes that a wireless LAN terminal shifts to a super power saving mode in which a DTIM is not received among beacons from a base station.

JP 2008-263335 A JP 2006-093945 A JP 2008-263520 A JP 2008-092129 A

  Usually, the beacon interval and DTIM value set in the access point are not always determined in consideration of the power saving of the wireless LAN terminal. Therefore, for example, when the DTIM value is 10 at a beacon interval of 100 msec, the awake cycle of the wireless LAN terminal is 100 msec × 10 = 1 sec. However, when the beacon interval is 100 msec and the DTIM value is 1, the awake cycle is 100 msec × 1 = 100 msec. Therefore, since the frequency of awakening is 10 times that of DTIM 10, the current consumption is greatly affected.

  If it is a home access point, the beacon interval and DTIM value may be optimized according to the usable time of the connected wireless LAN terminal, but the setting value of the access point used in the public wireless LAN or corporate LAN Since it cannot be easily changed, the awake cycle of the connected wireless LAN terminal cannot be optimized.

  Also, when the wireless LAN terminal does not perform an awake operation in the DTIM cycle but determines to perform an awake operation in the Listen Interval cycle determined by the terminal itself, the wireless LAN terminal awake cycle expected by the access point based on the beacon interval and the DTIM value The Listen Interval period set in the wireless LAN terminal may be different. If there is a multicast packet or broadcast packet for a wireless LAN terminal, the wireless LAN terminal may be in a doze state even if notified by DTIM information, and there is a problem that data is lost because the DTIM information cannot be confirmed.

  An object of the present invention is to provide a wireless LAN system and a power saving control method capable of changing a power saving setting parameter of an access point according to an awake time set for a power saving operation of a wireless LAN terminal.

  The present invention adds a DTIM value indicating a cycle in which a wireless LAN terminal having a power saving mode that is intermittently in an awake state is connected to the wireless LAN terminal and includes a DTIM (Delivery Traffic Indication Message) in the beacon information. The wireless LAN terminal calculates a DTIM value based on the beacon interval of the beacon information transmitted from the access point, sets it as the Listen Interval value in the association request, and the access point The DTIM value included in the beacon information is changed according to the Listen Interval value added to.

  In addition, the present invention has a power saving mode in which an awake state is intermittently established, a plurality of wireless LAN terminals having different Listen Interval values and a plurality of wireless LAN terminals are connected, and DTIM (Delivery Traffic Indication Message) is included in the beacon information. ) Including an access point that transmits a DTIM value indicating a period including the period, and each of the plurality of wireless LAN terminals is based on its own Listen Interval period and the beacon interval of beacon information from the access point. The access point has means for calculating a DTIM value and setting it as a Listen Interval value in the association request, and the access point has a Listen Interval value set in the association request from a plurality of wireless LAN terminals and a Listen Interval value set in the access point And set a pseudo access point for each wireless LAN terminal based on the comparison result. The information of the data whether the wireless LAN terminal to be transmitted at the timing that matches the awake operation period of each wireless LAN terminal.

  According to the present invention, the wireless LAN terminal can always check the DTIM information by changing the power saving setting parameter of the access point according to the awake time for the power saving operation set in the wireless LAN terminal, and the multicast packet And never miss a broadcast packet.

  In addition, when a plurality of wireless LAN terminals having different power saving settings are connected to the access point, the Listen Interval period and the DTIM value of the access point are compared for each wireless LAN terminal, and each of the pseudo access terminal settings is made. Since the data presence / absence information of the wireless LAN terminal is matched with the awake operation cycle of the wireless LAN terminal, the wireless LAN terminal can receive the multicast or broadcast packet without missing the multicast or broadcast packet.

1 is a block diagram showing a first embodiment of a wireless LAN system according to the present invention. 2 is a timing chart illustrating the operation of FIG. 1. It is a block diagram which shows the 2nd Embodiment of this invention.

  Next, embodiments for carrying out the invention will be described in detail with reference to the drawings.

(First embodiment)
FIG. 1 is a block diagram showing a configuration relating to a beacon function of an access point in a wireless LAN system according to the present invention. Although FIG. 1 shows a partial configuration of an access point of the wireless LAN system, other configurations of the access point, wireless LAN terminals connected to the access point, and the like are omitted.

  First, the beacon information setting unit 12 sets beacon intervals, DTIM timing, and other information that needs to be set in the beacon. The beacon transmission unit 11 transmits a beacon based on the set information. The wireless LAN terminal connected to the access point performs power saving setting based on the beacon information transmitted from the access point, adds a Listen Interval value to the association request, and transmits it to the access point.

  When the terminal itself sets the Listen Interval cycle as the power saving setting of the wireless LAN terminal, the wireless LAN terminal calculates the DTIM value based on the beacon interval of the received beacon and sets it as the Listen Interval value in the association request. . The association request transmitted from the wireless LAN terminal is received by the data receiving unit 13 of the access point, and the setting comparing unit 14 compares the setting information of the beacon information setting unit 12 with the reception information of the data receiving unit 13, and Check whether the setting and the Listen Interval period of the wireless LAN terminal match.

  When the awake cycle for power saving is different, the parameter to be changed is extracted to the setting changing unit 15. By inputting the extracted parameter to the beacon information setting unit 12, information to be set in the beacon is changed, and a beacon carrying the changed parameter is transmitted from the beacon transmission unit 11. By changing the information set in the beacon at the next DTIM timing to which the wireless LAN terminal belongs, it is possible to synchronize with the power saving operation timing of the wireless LAN terminal.

  Next, the access point setting and the awake operation of the wireless LAN terminal will be described with reference to FIG. FIG. 2 (1) shows a beacon period transmitted based on information from the beacon information setting unit 12. FIG. 2A shows an example in which the beacon transmitted from the access point is set to beacon interval BI = 100 msec and the DTIM value is 5.

  When the Listen Interval period of the wireless LAN terminal connected to this access point is set to 1000 msec, since BI = 100 msec, the wireless LAN terminal performs an awake operation with a DTIM value of 10. At this time, the wireless LAN terminal sets the Listen Interval value added to the association request to 10 and transmits it to the access point. FIG. 2 (2) shows the awake operation timing of the wireless LAN terminal.

  As shown in FIG. 2 (2), at the first DTIM timing, the wireless LAN terminal changes from the doze state where the power saving operation is performed to the awake state, and confirms whether there is beacon information and data addressed to the terminal itself. If there is no data addressed to the terminal itself, it enters the doze state again. Since the wireless LAN terminal has a Listen Interval period of 1000 msec, the wireless LAN terminal does not enter the awake state at the next DTIM timing, and transitions to the awake state at the next DTIM timing.

  The access point determines the awake operation timing of the wireless LAN terminal connected to the set DTIM value, resets the DTIM value from 5 to 10, and transmits a beacon. The reset beacon transmission state is shown in FIG. Thereby, since the connected wireless LAN terminal can always confirm DTIM information, the problem of missing a multicast packet or a broadcast packet can be solved.

(Second Embodiment)
The embodiment of FIG. 1 is effective in an environment where there is one wireless LAN terminal connected to an access point or a plurality of wireless LAN terminals having the same setting, but an environment where a plurality of wireless LAN terminals having different Listen Interval periods are connected. Then, since the beacon setting is changed uniformly, depending on the wireless LAN terminal, the awake operation cannot be performed at the timing when the awake operation is desired. Therefore, there is a possibility that data transmission / reception is delayed or missed.

  FIG. 3 shows a second embodiment of the present invention that solves this problem. FIG. 3 shows a configuration example of the operation part of the beacon function of the access point when a plurality of wireless LAN terminals having different Listen Interval periods are connected. Although FIG. 3 shows a partial configuration of the access point, other configurations of the access point and wireless LAN terminals connected to the access point are omitted.

  The beacon information setting unit 22 sets beacon intervals, DTIM timing, and other information that needs to be set in the beacon. The beacon transmission unit 21 transmits a beacon based on the set information.

  The wireless LAN terminal connected to the access point calculates a DTIM value based on the beacon interval of the received beacon based on the Listen Interval period set for the terminal, and sets it as the Listen Interval value in the association request. That is, DTIM value = Listen Interval period / beacon interval. For example, when the Listen Interval period set for itself is 1000 msec and the beacon interval of the received beacon is 100 msec, the Listen Interval value (calculated = DTIM value) set in the association request is 10.

  However, if the calculated DTIM value is not an integer, the value is reset so that the actual Listen Interval is equal to or more than the Listen Interval period set for itself and is a multiple of the beacon interval and closest to the Listen Interval period. For example, if the Listen Interval period set for itself is 1000 msec and the beacon interval of the received beacon is 300 msec, the calculated DTIM value is 3.33. Also, the value closest to the Listen Interval period as a multiple of the beacon interval is 1200 msec, 1200 msec is set again, and the Listen Interval value (calculated DTIM value) set in the association request is 4.

  The association request transmitted from the wireless LAN terminal is received by the data receiving unit 23, the information of the beacon information setting unit 22 is compared with the information of the data receiving unit 23 by the setting comparison unit 24, and the setting of the access point and the wireless LAN terminal Check if the Listen Interval period matches.

  The power saving information of the wireless LAN terminal set and compared is held in the power saving information holding unit 25 and stores the DTIM value of the terminal (terminal 1, 2,..., N). In addition, the beacon information setting unit 22 is notified of pseudo beacon DTIM value change information indicating that the DTIM value of the beacon needs to be changed. Since the DTIM value transmitted from the access point cannot be changed in accordance with a specific power saving setting among a plurality of connected wireless LAN terminals, the beacon information setting unit 22 does not actually change even when the pseudo beacon DTIM value change information is received. The beacon timing and the DTIM value are not changed.

  Therefore, for example, when the DTIM reception period of the wireless LAN terminal is longer than the DTIM period of the access point, the data is discarded because the wireless LAN terminal is not in an awake state at the DTIM timing of the access point. In the present embodiment, the data buffer unit 25 buffers the TIM information of the beacon information setting unit 22 with pseudo beacon DTIM values based on the information (terminals 1, 2,..., N) of the power saving information holding unit 25. The fact that there is data is transmitted via the data transmitter 27.

  That is, normally, the wireless LAN terminal wakes up in the DTIM cycle of the beacon and confirms whether there is data addressed to itself by looking at the DTIM value. In FIG. 3, since it is assumed that a wireless LAN terminal other than its own terminal is also connected, the DTIM period of the beacon that is regularly transmitted by the access point cannot be changed. Therefore, the presence of buffering data is notified by placing information that there is buffering data on the TIM information in accordance with the DTIM period of the wireless LAN terminal.

  Therefore, since it is notified that there is data in the TIM information of the beacon transmitted from the access point at its own DTIM timing, the wireless LAN terminal transmits the PS Poll packet to receive the data and receives the data Is possible.

  Here, the buffering data corresponds to a broadcast packet addressed to the wireless LAN terminal. As a specific example, an ARP search packet transmitted to search for a terminal using an IP address to which another wireless LAN terminal in the same network corresponds corresponds to this.

  In this way, in an environment where a plurality of wireless LAN terminals having different Listen Interval values are connected, the access point compares the Listen Interval period and the access point's DTIM value for each wireless LAN terminal. The data presence / absence information of the wireless LAN terminal set as the access point is transmitted together with the awake operation cycle of each wireless LAN terminal. Therefore, each wireless LAN terminal can receive buffering information at the DTIM reception timing of its own terminal.

  Further, the pseudo DTIM value can be changed at the next DTIM timing to which the wireless LAN terminal belongs, thereby synchronizing with the power saving operation timing of the wireless LAN terminal. Furthermore, generally, an association ID (connection identifier) is added from an access point to a wireless LAN terminal at the time of association.

  Therefore, when data arrives at the wireless LAN terminal that is operating in power saving mode and the data is buffered, the bit corresponding to the association ID of the destination wireless LAN terminal is set to 1. It can be determined whether there is buffering data. That is, when the wireless LAN terminal is set to 1 in the bit corresponding to the association ID of the own terminal, the wireless LAN terminal can recognize that there is buffering data in the own wireless LAN terminal.

  In the present embodiment, even when a plurality of wireless LAN terminals with different Listen Interval periods belong to an access point, multicast or broadcast packets are dropped by changing the DTIM value for each wireless LAN terminal in a pseudo manner at the access point. Therefore, the wireless LAN terminal can receive.

  In addition, although a part or all of the said embodiment can be described also as the following additional remarks, it is not restricted to the following.

(Supplementary note 1) A wireless LAN terminal having a power saving mode that is intermittently in an awake state is connected to the wireless LAN terminal, and a DTIM value indicating a cycle in which DTIM (Delivery Traffic Indication Message) is included in beacon information is added. A wireless LAN system having an access point for transmitting
The wireless LAN terminal has means for calculating a DTIM value based on a beacon interval of beacon information transmitted from the access point and setting the value as a Listen Interval value in an association request;
The access point has a means for changing a DTIM value included in the beacon information in accordance with a Listen Interval value added to the association request.

(Supplementary note 2) A plurality of wireless LAN terminals having power saving modes that are intermittently in an awake state and having different Listen Interval values are connected to the plurality of wireless LAN terminals, and DTIM (Delivery Traffic Indication Message) is included in the beacon information. A wireless LAN system including an access point that transmits a DTIM value indicating a period including
Each of the plurality of wireless LAN terminals has means for calculating a DTIM value based on a Listen Interval period of the own terminal and a beacon interval of beacon information from the access point, and setting as a Listen Interval value in an association request,
The access point is
Comparison means for comparing the Listen Interval value set in the association request from the plurality of wireless LAN terminals with the Listen Interval value set in the access point;
Means for transmitting information on the presence / absence of data of the wireless LAN terminal to be set as an access point in a pseudo manner for each wireless LAN terminal based on the comparison result of the comparing means at a timing combined with the awake operation cycle of each wireless LAN terminal; ,
A wireless LAN system comprising:

  (Supplementary Note 3) The access point sets the bit corresponding to the association ID of the destination wireless LAN terminal to 1, and the wireless LAN terminal confirms the bit corresponding to the association ID, thereby transmitting data to the terminal itself. The wireless LAN system according to appendix 2, wherein presence or absence is determined.

(Supplementary Note 4) A wireless LAN terminal having a power saving mode that is intermittently in an awake state is connected to the wireless LAN terminal, and a DTIM value indicating a cycle in which DTIM (Delivery Traffic Indication Message) is included in beacon information is added. A power saving control method for a wireless LAN system having an access point for transmitting
Calculating the DTIM value based on the beacon interval of the beacon information transmitted from the access point by the wireless LAN terminal, and setting the value as a Listen Interval value in the association request;
Changing the DTIM value included in the beacon information according to the Listen Interval value added to the association request from the wireless LAN terminal by the access point;
A power saving control method for a wireless LAN system, comprising:

(Supplementary Note 5) A plurality of wireless LAN terminals having power saving modes that are intermittently in an awake state and having different Listen Interval values are connected to the plurality of wireless LAN terminals, and DTIM (Delivery Traffic Indication Message) is included in the beacon information. And a power saving control method for a wireless LAN system having an access point that transmits a DTIM value indicating a period including
Calculating a DTIM value based on the Listen Interval period of the own terminal and the beacon interval of the beacon information from the access point, and setting the Listen Interval value in the association request by the plurality of wireless LAN terminals;
By the access point,
Comparing the Listen Interval value set in the association request from the plurality of wireless LAN terminals with the Listen Interval value set in the access point;
Transmitting the data presence / absence information of the wireless LAN terminal to be set as an access point in a pseudo manner for each wireless LAN terminal based on the comparison result at a timing combined with the awake operation cycle of each wireless LAN terminal;
A power saving control method for a wireless LAN system, comprising:

  (Supplementary Note 6) The access point sets the bit corresponding to the association ID of the destination wireless LAN terminal to 1, and the wireless LAN terminal confirms the bit corresponding to the association ID, thereby transmitting data to the terminal itself. The power saving control method for a wireless LAN system according to appendix 5, wherein presence or absence is determined.

  The present invention can be suitably used for a wireless LAN system, particularly a system using a portable wireless LAN terminal having a large influence on power consumption.

DESCRIPTION OF SYMBOLS 11 Beacon transmission part 12 Beacon information setting part 13 Data reception part 14 Setting comparison part 15 Setting change part 21 Beacon transmission part 22 Beacon information setting part 23 Data reception part 24 Setting comparison part 25 Power saving information holding part 26 Data buffer part 27 Data Transmitter

Claims (6)

A wireless LAN terminal having a power saving mode that is intermittently in an awake state, and an access in which the wireless LAN terminal is connected, and a DTIM value indicating a cycle in which DTIM (Delivery Traffic Indication Message) is included in the beacon information is transmitted. A wireless LAN system having points,
The wireless LAN terminal has means for calculating a DTIM value based on a beacon interval of beacon information transmitted from the access point and setting the value as a Listen Interval value in an association request;
The access point has a means for changing a DTIM value included in the beacon information in accordance with a Listen Interval value added to the association request. A period in which a plurality of wireless LAN terminals having power saving modes that are intermittently in an awake state and having different Listen Interval values are connected to each other and the beacon information includes DTIM (Delivery Traffic Indication Message) A wireless LAN system having an access point that adds a DTIM value indicating
Each of the plurality of wireless LAN terminals has means for calculating a DTIM value based on a Listen Interval period of the own terminal and a beacon interval of beacon information from the access point, and setting as a Listen Interval value in an association request,
The access point is
Comparison means for comparing the Listen Interval value set in the association request from the plurality of wireless LAN terminals with the Listen Interval value set in the access point;
Means for transmitting information on the presence / absence of data of the wireless LAN terminal to be set as an access point in a pseudo manner for each wireless LAN terminal based on the comparison result of the comparing means at a timing combined with the awake operation cycle of each wireless LAN terminal; ,
A wireless LAN system comprising:   The access point sets the bit corresponding to the association ID of the destination wireless LAN terminal to 1, and the wireless LAN terminal determines the presence / absence of data to the terminal by checking the bit corresponding to the association ID The wireless LAN system according to claim 2. A wireless LAN terminal having a power saving mode that is intermittently in an awake state, and an access in which the wireless LAN terminal is connected, and a DTIM value indicating a cycle in which DTIM (Delivery Traffic Indication Message) is included in the beacon information is transmitted. A power saving control method for a wireless LAN system having a point,
Calculating the DTIM value based on the beacon interval of the beacon information transmitted from the access point by the wireless LAN terminal, and setting the value as a Listen Interval value in the association request;
Changing the DTIM value included in the beacon information according to the Listen Interval value added to the association request from the wireless LAN terminal by the access point;
A power saving control method for a wireless LAN system, comprising: A period in which a plurality of wireless LAN terminals having power saving modes that are intermittently in an awake state and having different Listen Interval values are connected to each other and the beacon information includes DTIM (Delivery Traffic Indication Message) A power saving control method for a wireless LAN system having an access point that adds a DTIM value indicating
Calculating a DTIM value based on the Listen Interval period of the own terminal and the beacon interval of the beacon information from the access point, and setting the Listen Interval value in the association request by the plurality of wireless LAN terminals;
By the access point,
Comparing the Listen Interval value set in the association request from the plurality of wireless LAN terminals with the Listen Interval value set in the access point;
Transmitting the data presence / absence information of the wireless LAN terminal to be set as an access point in a pseudo manner for each wireless LAN terminal based on the comparison result at a timing combined with the awake operation cycle of each wireless LAN terminal;
A power saving control method for a wireless LAN system, comprising:   The access point sets the bit corresponding to the association ID of the destination wireless LAN terminal to 1, and the wireless LAN terminal determines the presence / absence of data to the terminal by checking the bit corresponding to the association ID The power saving control method for a wireless LAN system according to claim 5.

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