JP5356364B2 - Wireless LAN priority control method, wireless LAN system, and access point device - Google Patents

Description

  The present invention relates to a wireless LAN priority control method, a wireless LAN system, and an access point device, which perform wireless LAN priority control in cooperation between a plurality of access points using the same frequency.

In a single access point, there is EDCA (Enhanced Distributed Channel Access) priority control standardized by IEEE802.11 as a method of performing priority control depending on the application used. In EDCA priority control, data to be transmitted is transmitted for each packet.
BackGround, BestEffort, Video, Voice
EDCA parameters of AIFS (frame transmission interval), CWmim (contention window minimum value), CWmax (contention window maximum value), and TXOP (channel transmission period) determined for each access category. Based on the above, priority control is executed by determining the transmission standby time of each data.

  The value of the EDCA parameter of each access category is held for each access point, and can be set / changed independently for each access point. For efficient communication, it is desirable to change the value of the EDCA parameter of each access category according to the number of terminals using the corresponding application and the communication volume.

IEEE Std 802.11nTM-2009, “9.9.1 HCF contention-based channel access (EDCA)”

  It is possible to perform priority control by a using application at a single access point. However, as shown in FIG. 8, when a plurality of access points use the same frequency and the communication areas overlap, EDCA is independently performed for each terminal connected to each access point. When priority control is executed, an event occurs in which a terminal that should originally communicate with priority is not given priority. That is, the transmission opportunities given to each access point are equal, but when each access point performs priority control independently according to the EDCA parameters held by itself, if the EDCA parameters of both access points are different, communication is primarily given priority. An event occurs in which a terminal that should perform is not prioritized.

  For example, when a terminal STA-A performing communication belonging to the access category: Video is connected to the access point AP-A, and a terminal STA-B performing communication belonging to the access category: BestEffort is connected to the access point AP-B. Assuming that the EDCA parameter of the access category: Video at the access point AP-A is a non-priority value than the EDCA parameter of the access category: BestEffort at the access point AP-B, the EDCA parameter is compared with the terminal STA-B. Thus, an event occurs in which communication of the terminal STA-A that originally wants to perform communication is not prioritized.

  In addition, the most efficient value of the EDCA parameter varies depending on the number of terminals using each application, etc., but the effect is not limited to the terminals connected to one access point, but the same frequency is used. In addition, since it depends on the number of terminals connected to other access points whose communication areas overlap, it is assumed that priority control is executed by the number of terminals connected to one access point. The situation where the priority control that has been performed does not work may occur.

  In the present invention, when a plurality of access points use the same frequency and the communication areas are overlapped, priority control corresponding to the application to be used is performed for each terminal connected to each access point. An object of the present invention is to provide a wireless LAN priority control method, a wireless LAN system, and an access point device that can be reliably performed.

A first aspect of the invention is a wireless LAN priority control method in which a plurality of access points of a wireless LAN system execute EDCA priority control , wherein each access point has its MAC address, frequency used, and recognizable terminal MAC. The database that is shared by each access point is notified of the address, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, and the access category and traffic volume of the main communication of the connected terminal. Register the information notified from the access point, notify the registration information in response to the inquiry from each access point, each access point inquires the registration information to the database, uses the same frequency, and its communication area Are identified, and the access point Obtain and share the access category and traffic volume of the main communication of the terminal connected to the point, calculate the EDCA priority control parameters using the information of the shared terminal, and based on the calculated parameters EDCA priority control is executed.

First and second invention, in the wireless LAN priority control method in which a plurality of access points of a wireless LAN system to perform each EDCA priority control, each access point, its MAC address, of the use frequency, recognizable terminal MAC The database that is shared by each access point is notified of the address, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, and the access category and traffic volume of the main communication of the connected terminal. Register the information notified from the access point, notify the registration information in response to the inquiry from each access point, each access point inquires the registration information to the database, uses the same frequency, and its communication area Are identified, and the access point Acquire the access category and traffic volume of the main communication of the terminal connected to the point, register the relevant information of the shared terminal in the database, and the database stores the relevant information of the shared terminal for each access point. EDCA priority control parameters are used to notify each access point of the calculated parameters, and each access point executes EDCA priority control based on the notified parameters.

  A second invention is a wireless LAN system in which a plurality of access points execute EDCA priority control, respectively, and is connected to a plurality of access points, and a terminal that can recognize the MAC address and the used frequency by notification from each access point Register the MAC address, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, the main communication access category and the traffic volume of the connected terminal, and registration information for inquiries from each access point Each access point inquires of the database for registration information, uses the same frequency, determines an access point with an overlapping communication area, and connects to the access point. The main communication access category and traffic of the terminal Share acquires the Ikku amount, is configured to perform EDCA calculates the parameters of the priority control, EDCA priority control based on the calculated parameters with the information of terminals to share.

  According to a third aspect of the present invention, in a wireless LAN system in which a plurality of access points execute EDCA priority control, a terminal that is connected to the plurality of access points and can recognize the MAC address and the used frequency by notification from each access point. Register the MAC address, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, the main communication access category and the traffic volume of the connected terminal, and registration information for inquiries from each access point Each access point inquires of the database for registration information, uses the same frequency, determines an access point with an overlapping communication area, and connects to the access point. The main communication access category and traffic of the terminal In this configuration, the EDCA priority control is executed based on the parameters notified from the database, and the database is shared for each access point. The configuration is such that a parameter for EDCA priority control is calculated using the information of the terminal, and the calculated parameter is notified to each access point.

  According to a fourth aspect of the present invention, in a wireless LAN system access point device in which a plurality of access points each execute EDCA priority control, the MAC address of the access point, the frequency used, the MAC address of the recognizable terminal, and the recognizable terminal Terminal information processing means for reporting the reception level, presence / absence of recognizable terminal connection, access category and traffic volume of main communication of connected terminal to a database shared by multiple access points, and registration information in the database Inquire, use the same frequency, identify access points with overlapping communication areas, and acquire and share the access category and traffic volume of the main communication of the terminal connected to the access point. ED using the information of the shared terminal Calculating the parameters of the A priority control, and a EDCA priority control means for executing EDCA priority control based on the calculated parameters.

  According to a fifth aspect of the present invention, in a wireless LAN system access point device in which a plurality of access points execute EDCA priority control, the MAC address of the access point, the frequency used, the MAC address of the recognizable terminal, and the recognizable terminal Terminal information processing means for notifying the database shared by each access point of the reception level, the presence / absence of a recognizable terminal connection, the main communication access category and traffic volume of the connected terminal, and the registration information inquired from the database Terminals that use the same frequency and that have overlapping communication areas, determine the access category and traffic volume of the main communication of the terminal connected to the access point, and share Is registered in the database and the data Base receives the parameters of EDCA priority control calculated using the information of the terminal that shares for each access point, and a EDCA priority control means for executing EDCA priority control.

  In the present invention, when a plurality of access points use the same frequency and their communication areas are overlapped, information of terminals connected to different access points (MAC address, access category and traffic volume) And EDCA priority control can be performed for each application used between the terminals. As a result, it is possible to solve the problem that a terminal that should communicate with priority should not be given priority.

It is a figure which shows the structural example of the wireless LAN system in Example 1 of this invention. It is a figure which shows the structural example of the access point apparatus in Example 1. FIG. It is a figure which shows an example of Table1, Table2, Table3. 3 is a flowchart illustrating a processing procedure of an EDCA priority control unit 24 according to the first embodiment. It is a figure which shows the structural example of the wireless LAN system in Example 2 of this invention. It is a figure which shows the structural example of the access point apparatus in Example 2. FIG. 10 is a flowchart illustrating a processing procedure of an EDCA priority control unit 25 according to the second embodiment. It is a figure which shows the structural example of the conventional wireless LAN system.

FIG. 1 shows a configuration example of a wireless LAN system in Embodiment 1 of the present invention.
In FIG. 1, access points AP-A, AP-B, and AP-C are connected to each other via a wired network. A database 11 accessible from all access points exists on the network. Terminal STA-A is connected to access point AP-A, terminal STA-B is connected to access point AP-B, and terminals STA-C and STA-D are connected to access point AP-C. The access points AP-A, AP-B, and AP-C use the same frequency, and their communication areas partially overlap.

  The database 11 manages two types of tables 1 and 2, and each of the access points AP-A, AP-B, and AP-C manages one type of table 3. An example of Table 1, Table 2, and Table 3 is shown in FIG.

  In Table 1, the MAC address for each access point and the frequency used by the access point are registered. Table 2 shows the MAC address for each access point, the MAC address of the terminal STA that can recognize radio waves at the access point, the reception level of radio waves from the terminal STA, whether or not the terminal STA is connected, and being connected The access category and traffic volume of main communication of the terminal STA are registered.

  The database 11 returns information held in response to an inquiry from each access point, and holds information for registration from each access point. The access points AP-A, AP-B, and AP-C recognize the terminal STA that can recognize radio waves at regular intervals, and register information on the terminal STA in the table 2. Further, the access category and traffic volume of the main communication of the connected terminal STA are measured at regular intervals, and the information is registered in the table 2.

  In the table 3 of the access points AP-A, AP-B, and AP-C, the MAC address of the terminal STA that uses the same frequency as that of the access point and the access point and is connected to an access point having overlapping communication areas The access category and traffic volume of the main communication within a certain time of the terminal STA are registered. Here, an access point that uses the same frequency as that of the access point and has overlapping communication areas is determined by the following determination process.

FIG. 2 illustrates a configuration example of the access point device according to the first embodiment.
In FIG. 2, the wireless LAN communication processing unit 22 of the access point AP monitors signals transmitted by the terminal STA and the adjacent access point AP, and performs communication processing with the subordinate terminal STA. The database communication processing unit 23 performs registration and inquiry communication processing with the database 11. The terminal information processing unit 21 includes the MAC address of the access point, the frequency used, the MAC address of the recognizable terminal, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, and the main communication of the connected terminal The access category and the traffic volume are registered in the table 1 and the table 2 of the database 11 through the database communication processing unit 23.

  The EDCA priority control unit 24 inquires of the database 11 for registration information via the database communication processing unit 23, determines an access point that uses the same frequency and has an overlapping communication area, and determines the access point. The access category and traffic volume of the main communication of the connected terminal are acquired and registered in the table 3, and the parameter of the EDCA priority control is calculated using the information of the registered terminal in the table 3, and the calculated parameter is Based on the EDCA priority control.

  FIG. 4 illustrates a processing procedure of the EDCA priority control unit 24 according to the first embodiment. Here, a case is shown where the number of access points is expanded to M access points and N terminals.

  In FIG. 4, the access point AP-X performs the following processing for every M adjacent access points AP-Y at regular intervals (S0). Note that a terminal connected to the access point AP-X is STA-x, and a terminal connected to the access point AP-Y is STA-y. In relation to the configuration of FIG. 1, when X is A (x is A), Y is B (y is B) and C (y is C, D). Further, when X is B (x is B), Y is A (y is A), and when X is C (x is C, D), Y is A (y is A).

  The access point AP-X inquires of the table 1 whether the access point AP-Y uses the same frequency (S1). When the access point AP-Y does not use the same frequency as the access point AP-X, the MAC address of the terminal STA-x connected to the access point AP-X and the terminal STA-x are referred to by referring to Table 2. Are registered in the table 3 (S7).

  When the access point AP-Y uses the same frequency as the access point AP-X, the access point AP-X has a table indicating whether a terminal STA-y connected to the access point AP-Y exists. 2 is queried (S2). When there is no terminal STA-y connected to the access point AP-Y, the process of step S7 is performed with reference to the table 2.

  When there are N terminals STA-y connected to the access point AP-Y, each of the N terminals STA-y performs processing (S3).

  The access point AP-X inquires of the table 2 whether the access point AP-Y can recognize the signal of the terminal STA-x (S4). When the access point AP-Y can recognize the signal of the terminal STA-x, referring to Table 2, the MAC address of the terminal STA-x and the terminal STA-y and the access category of the main communication within a certain time of each terminal The traffic volume is registered in the table 3 (S8).

  When the access point AP-Y cannot recognize the signal of the terminal STA-x, the access point AP-X determines whether the signal of the access point AP-Y can be recognized (S5). When the access point AP-X can recognize the signal of the access point AP-Y, the process of step S8 is performed with reference to the table 2. Since the access points AP-X and AP-Y have the same device configuration, when the access point AP-X can recognize the signal of the access point AP-Y, the opposite access point AP-Y -X signal can be recognized.

  When the access point AP-X cannot recognize the signal of the access point AP-Y, the access point AP-X determines whether the signal of the terminal STA-y can be recognized (S6). When the access point AP-X can recognize the signal of the terminal STA-y, the process of step S8 is performed with reference to the table 2. When the access point AP-X cannot recognize the signal of the terminal STA-y, the process of step S7 is performed with reference to the table 2.

  In the access point AP-X, the MAC address of the terminal STA involved in the EDCA priority control, the access category and the traffic amount of the main communication within a certain time of the terminal are shown in the table 3 by the processing of the above step S7 or step S8. Registered in Then, the product D of the number of registered terminals for each access category registered in the table 3 and the traffic volume is calculated, and the parameters AIFS, CWmax, CWmin of the EDCA are determined based on the number of each priority, and each parameter is determined. Is used to perform priority control according to the normal EDCA procedure (S9).

The AIFS at the access point AP-X is determined as follows.
AIFS = a × default AIFS / D (1)
Here, the adjustment coefficient a becomes a small value as the priority of the access category increases. The default AIFS is defined for each access category.

Similarly, CWmax at the access point AP-X is determined as follows.
CWmax = 2 ^ (log ₂ (default CWmax + 1) × b × D) −1 (2)
Here, ^ represents a power. The adjustment coefficient b becomes a small value as the priority of the access category increases. The default CWmax is defined for each access category.

Similarly, CWmin at the access point AP-X is determined as follows.
CWmin = 2 ^ (log ₂ (default CWmin + 1) × c × D) −1 (3)
Here, ^ represents a power. The adjustment coefficient c becomes a smaller value as the priority of the access category becomes higher. The default CWmin is defined for each access category.

  The access point AP-X performs priority control according to the normal EDCA procedure using the EDCA parameters AIFS, CWmax, and CWmin calculated as described above, and repeats the processing of steps S1 to S9 every elapse of a predetermined time. . Similar processing is performed for the access point AP-Y.

FIG. 5 shows a configuration example of a wireless LAN system according to the second embodiment of the present invention.
The wireless LAN system according to the present embodiment is configured to manage the table 3 managed by each access point in the first embodiment on the database 11. Thereby, the calculation of EDCA parameters can be executed collectively on the database 11.

FIG. 6 illustrates a configuration example of the access point device according to the second embodiment.
In FIG. 6, the wireless LAN communication processing unit 22 of the access point AP monitors signals transmitted by the terminal STA and the adjacent access point AP, and performs communication processing with the subordinate terminal STA. The database communication processing unit 23 performs registration and inquiry communication processing with the database 11. The terminal information processing unit 21 includes the MAC address of the access point, the frequency used, the MAC address of the recognizable terminal, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, and the main communication of the connected terminal The access category and the traffic volume are registered in the table 1 and the table 2 of the database 11 through the database communication processing unit 23.

  The EDCA priority control unit 25 queries the database 11 for registration information via the database communication processing unit 23, determines an access point that uses the same frequency and has an overlapping communication area, and determines the access point. The access category and traffic volume of the main communication of the connected terminal are acquired and registered in the table 3 of the database. The database 11 calculates EDCA priority control parameters using the information of the terminals shared for each access point, and notifies the calculated parameters to each access point. The EDCA priority control unit 25 receives EDCA priority control parameters calculated by the database 11 and executes EDCA priority control.

FIG. 7 illustrates a processing procedure of the EDCA priority control unit 25 according to the second embodiment.
In the first embodiment, in step S9, each access point AP-X calculates EDCA parameters based on information of the terminals STA-x and STA-y registered in the table 3. In the second embodiment, the access point AP-X registers information on the terminals STA-x and STA-y in the table 3 of the database 11 in step S7 or step S8. The database 11 calculates the product D of the number of registered terminals and the traffic volume for each access category registered in the table 3, calculates each parameter of EDCA based on the number of each priority, and sets the access point AP-X. Notify The access point AP-X receives the notified EDCA parameters and performs priority control according to the normal EDCA procedure using each parameter (S10).

1, 2, 3 Table 11 Database 21 Terminal information processing unit 22 Wireless LAN communication processing unit 23 Database communication processing unit 24, 25 EDCA priority control unit AP Access point STA terminal

Claims (6)

In a wireless LAN priority control method in which a plurality of access points of a wireless LAN system execute EDCA priority control,
Each access point has its MAC address, frequency used, recognizable terminal MAC address, recognizable terminal reception level, recognizable terminal connection presence, and main communication access category of the connected terminal. And the traffic volume to the database shared by each access point,
The database registers information notified from each access point, notifies registration information in response to an inquiry from each access point,
Each access point inquires of the database for registration information, uses the same frequency, determines an access point whose communication area overlaps, and performs main communication of a terminal connected to the access point The access category and traffic volume are acquired and shared, the EDCA priority control parameter is calculated using the information of the shared terminal, and the EDCA priority control is executed based on the calculated parameter. A wireless LAN priority control method. In a wireless LAN priority control method in which a plurality of access points of a wireless LAN system execute EDCA priority control,
Each access point has its MAC address, frequency used, recognizable terminal MAC address, recognizable terminal reception level, recognizable terminal connection presence, and main communication access category of the connected terminal. And the traffic volume to the database shared by each access point,
The database registers information notified from each access point, notifies registration information in response to an inquiry from each access point,
Each access point inquires of the database for registration information, uses the same frequency, determines an access point whose communication area overlaps, and performs main communication of a terminal connected to the access point The access category and traffic volume, and register the information of the terminal to share in the database,
The database calculates the EDCA priority control parameters using the information of the terminal shared for each access point, and notifies the calculated parameters to the access points,
Each of the access points executes the EDCA priority control based on the notified parameter. A wireless LAN priority control method, wherein: In a wireless LAN system in which a plurality of access points execute EDCA priority control,
It is connected to the plurality of access points, and the MAC address, frequency used, recognizable terminal MAC address, recognizable terminal reception level, recognizable terminal presence / absence, and connection by notification from each access point It is equipped with a database that registers the access category and traffic volume of the main communication of the terminal inside, and notifies registration information in response to inquiries from each access point.
Each access point inquires of the database for registration information, uses the same frequency, determines an access point whose communication area overlaps, and performs main communication of a terminal connected to the access point The access category and traffic volume are acquired and shared, the EDCA priority control parameter is calculated using the information of the shared terminal, and the EDCA priority control is executed based on the calculated parameter. A wireless LAN system characterized by the above. In a wireless LAN system in which a plurality of access points execute EDCA priority control,
It is connected to the plurality of access points, and the MAC address, frequency used, recognizable terminal MAC address, recognizable terminal reception level, recognizable terminal presence / absence, and connection by notification from each access point It is equipped with a database that registers the access category and traffic volume of the main communication of the terminal inside, and notifies registration information in response to inquiries from each access point.
Each access point inquires of the database for registration information, uses the same frequency, determines an access point whose communication area overlaps, and performs main communication of a terminal connected to the access point The access category and the traffic volume, register the information of the terminal to be shared in the database, and further execute the EDCA priority control based on the parameter notified from the database,
The database is configured to calculate parameters of the EDCA priority control using the information of a terminal shared for each access point and notify the calculated parameters to the access points. LAN system. In an access point device of a wireless LAN system in which a plurality of access points execute EDCA priority control,
The MAC address of the access point, the frequency used, the MAC address of the recognizable terminal, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, the main communication access category and the traffic volume of the connected terminal Terminal information processing means for notifying a database shared by the plurality of access points;
Queries the registration information from the database, uses the same frequency, determines the access point where the communication area overlaps, determines the access category and traffic volume of the main communication of the terminal connected to the access point And EDCA priority control means for calculating the EDCA priority control parameter using the information of the shared terminal and executing the EDCA priority control based on the calculated parameter. An access point device. In an access point device of a wireless LAN system in which a plurality of access points execute EDCA priority control,
The MAC address of the access point, the frequency used, the MAC address of the recognizable terminal, the reception level of the recognizable terminal, the presence / absence of connection of the recognizable terminal, the main communication access category and the traffic volume of the connected terminal Terminal information processing means for notifying a database shared by each access point;
Queries the registration information from the database, uses the same frequency, determines the access point where the communication area overlaps, determines the access category and traffic volume of the main communication of the terminal connected to the access point Receiving the EDCA priority control parameters calculated using the information of the terminals shared by the database for each of the access points. An access point apparatus comprising: EDCA priority control means for executing EDCA priority control.

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