JP4040444B2 - Wireless access point device, power supply method, and program therefor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention, DoubleNumberlessLine modelJulesHaveWireless access point equipmentIn placeIn particular, the present invention relates to technology for realizing battery saving, effective use of wireless channels, and the like.
[0002]
[Prior art]
A conventional wireless LAN (Local Area Network) system includes a wireless mobile terminal that performs data communication with each other via a wireless transmission path and a wired LAN, and a plurality of wireless mobile terminals (hereinafter abbreviated as wireless terminals) in a service area. The access point performs communication and further functions as a bridge that connects a wireless section and a wired LAN.
[0003]
FIG. 26 is a diagram showing a configuration example of a format of a wireless LAN transmission frame according to a conventional example. Here, for convenience, the frame is defined and shown, but such a frame structure is not necessarily required. In the figure, a transmission frame that arrives at a certain transmission frame period 205 is defined, and the management information transmission area 206 and the information transmission area 204 are provided in the transmission frame.
[0004]
A beacon information section 201 for informing a frame period and network common information is arranged at the head of this transmission frame. The beacon information section 201 is a management area (frame synchronization area) that includes frame synchronization information, and is assigned to each communication station that configures the network, and prevents transmissions at a plurality of communication stations from colliding with each other. Is considered. This beacon information includes information on a region where a bandwidth is reserved in the information transmission region 204, information on an asynchronous transmission region, and the like. That is, the information transmission area 204 is composed of a band reservation transmission area 202 set as necessary and an asynchronous transmission area 203 in other parts.
[0005]
A plurality of wireless terminals connected and accommodated at the access point use the band reserved transmission area 202. Accordingly, in the wireless terminals connected and accommodated in the service area, the number of wireless terminals connected to one access point increases, and the number of times per unit time that a wireless medium message channel is assigned to one wireless terminal becomes smaller. The transmission / reception throughput decreases.
[0006]
Therefore, in the wireless LAN system of the conventional example, the connection of the mobile station under the specific condition is controlled by controlling the connection of the mobile station (wireless terminal) in the service area according to the permission condition set for each access point in advance. And a decrease in transmission / reception throughput is avoided (see, for example, Patent Document 1).
[0007]
In addition, when a wireless terminal moves in a service providing area such as roaming (communication in a service providing area of another communication carrier to which a user of mobile communication is not subscribed), an access point and a wireless By controlling the connection with the terminal, the transmission quality in the communication state is monitored, and if there is an inconvenience, there is one that performs an operation of switching the access point led by the wireless terminal (for example, see Patent Document 2).
[0008]
In another conventional wireless LAN system, the wireless LAN terminal stores a plurality of base station identifiers A, B, and C assigned to the wireless LAN base stations 1, 2, and 3, respectively. If the connection order is set in advance in the connection order to the wireless LAN base station, or if the connection is instructed via the wireless LAN base station, the connection order is not followed, and any of the designated base stations A, B and C Some wireless LAN base stations are connected to a wireless LAN base station having an identifier to switch access points (see, for example, Patent Document 3).
[0009]
Recently, various changes have occurred in the usage form of access point functions (access point modules) constituting a conventional wireless LAN system. For example, when a wireless LAN system is used in a meeting of about 20 people, a plurality of changes are made. A wireless access point device in which the wireless access point module is mounted in one housing has been developed. Among various wireless access point devices, a wireless access point device having a plurality of power supply functions such as a power supply function driven by a battery and a power supply function from a commercial power supply has been devised with emphasis on portability. .
[0010]
[Patent Document 1]
JP-A-11-55286
[Patent Document 2]
Japanese Patent Laid-Open No. 7-22878
[Patent Document 3]
Japanese Patent Laid-Open No. 10-178429
[0011]
[Problems to be solved by the invention]
However, the above prior art has various problems as follows. That is, in the wireless access point device used in the conference as described above, since it is left to the user to select the wireless access point module that accommodates and accommodates the wireless terminals used by the participants, it is possible to avoid a decrease in throughput. When wireless terminals are connected and accommodated in the wireless access point module exceeding the capacity, the wireless terminals are concentrated on one wireless access point module and throughput is reduced.
[0012]
Conversely, if wireless terminals are connected and accommodated in a plurality of wireless access point modules so that the number of wireless terminals connected and accommodated in one wireless access point module in the wireless access point device is less than the maximum accommodated number, the throughput can be increased. Although this problem is solved, effective utilization of the radio channel is hindered. Furthermore, since the power consumption increases as the number of wireless terminals connected to and accommodated in the wireless access point device increases, the system startup time is shortened when the power supply mode in the wireless access point device is battery-driven.
[0013]
Also, when connecting and accommodating a plurality of wireless terminals in a wireless access point device, in order to manage the connection accommodation of wireless terminals using different access point identifiers, it is necessary to register a plurality of access point identifiers in the wireless terminal, The operation of manually switching the wireless access point module by the user becomes complicated. Further, since the access point identifier is repeatedly used, the security is lowered.
[0014]
  The present invention has been made in view of the above points.,NothingLine terminalEfficientIt is intended to allow connection and accommodation, and to enable battery saving and effective use of wireless channels.
[0015]
[Means for Solving the Problems]
  To achieve the above object, the present invention provides a wireless access point device having a plurality of wireless modules having a wireless access point function and a control unit.BecauseThe wireless module includes a notification unit that notifies the control unit of the number of connections of the wireless terminals, and the control unit includes the number of connections of the wireless terminals in the plurality of wireless modules notified by the notification unit. Detecting means for detecting the power supply, and supplying means for controlling the power supply to the wireless module according to the detection result of the detecting meansFirst determining means for determining whether or not the wireless module that has notified the decrease in the number of accommodated terminals by the notifying means accommodates the wireless terminal, and the wireless access point apparatus supplies power from a battery Second determining means for determining whether or not the battery is being driven by, and third determining means for determining whether or not a wireless module other than the wireless module not accommodating the wireless terminal is being activated. The supply means determines that the wireless module that the first determination means has notified of a decrease in the number of accommodated terminals by the notification means does not accommodate the wireless terminal, and the second determination Means for determining that the wireless access point device is not driven by a battery, and the third determining means is a wireless module other than the wireless module that does not accommodate the wireless terminal. When it is determined that the module is being activated, power supply to the wireless module that does not accommodate the wireless terminal is stopped, and the first determining means notifies the decrease in the number of accommodated terminals by the notification means. Even when it is determined that the wireless module does not contain the wireless terminal, the second determining means determines that the wireless access point device is being driven by a battery, or the second determining means. If the wireless terminal is not driven by a battery and the third determining unit determines that a wireless module other than the wireless module that does not accommodate the wireless terminal is not activated, the wireless terminal The power supply to the wireless module that does not contain the battery is continued.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
First, an outline of an embodiment of the present invention will be described. In an embodiment of the present invention, in a wireless communication system in which wireless terminals are managed by a plurality of wireless access point modules of a wireless access point device, the wireless terminals are collected in one wireless access point module of the plurality of wireless access point modules. The other wireless access point modules achieve effective use of the wireless channel, improvement of security, and the like by performing control such as turning off the power. Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
[First Embodiment]
First, a first embodiment of the present invention will be described. FIG. 1 is a conceptual diagram showing a basic configuration example of a radio communication system according to the first embodiment. The wireless communication system includes a network 100, an authentication server terminal 101, a wireless access point device 102, a wireless peripheral device 103, a wireless terminal 1 (desktop type) 104, a wireless terminal 2 (desktop type) 105, and a wireless terminal 3 (notebook PC type). 106 and a wireless terminal 4 (notebook PC type) 107. The form of the wireless terminal (desktop type, notebook PC type) and the number of installed wireless terminals are not limited to the configuration shown in the figure, and can be arbitrary.
[0018]
FIG. 21 is a block diagram showing a configuration of the wireless access point device 102. The wireless access point device 102 includes a central control unit 301, a wired interface unit 302, a storage area unit 303, wireless access point modules 1 and 304,..., Wireless access point modules n and 305.
[0019]
FIG. 22 is a diagram showing details of the accommodated terminal management information stored in the storage area unit 303 of the wireless access point device 102. The storage area unit 303 stores, as accommodation terminal management information, an accommodation terminal management information table 401 for each wireless access point module and a management information table 402 for each terminal.
[0020]
1, 21, and 22, the authentication server terminal 101 performs control related to authentication sequence processing with an arbitrary client (wireless terminal) in the network 100 configured as a wireless LAN, for example. The wireless access point device 102 includes a plurality of wireless access point modules (hereinafter abbreviated as wireless APMs) 304,... 305, and supplies power from a battery (not shown) such as a secondary battery or commercial power supply. It can be driven by power supply from. The wireless APMs 304,... 305 have a wireless access point function, are operated using different access point identifiers by the central control unit 301 and are centrally managed, the wireless peripheral device 103, the desktop wireless terminal 104, 105, a wireless communication link is established with the notebook PC type wireless terminals 106, 107 and the like.
[0021]
Each of the wireless APMs 304,... 305 executes processing related to the wireless APM in each sequence diagram and each flowchart described later by each central control unit 301 based on a built-in control program. The wireless peripheral device 103 is configured as a printing device such as a printer, a copier, or a multifunction device, and provides a printing service for forming an image on a sheet. Each of the wireless terminals 104 to 107 includes a control unit, a storage unit, a display unit, and an operation unit, and each control unit performs processing related to the wireless terminal in each sequence diagram and each flowchart described later in a built-in control program. Run based on.
[0022]
Further, the wireless access point device 102 stores management data and the like regarding the wireless peripheral device 103 and the wireless terminals 104 to 107 connected and accommodated in the wireless APM 304,. The management data stored in the storage area unit 303 is the APM-specific accommodation terminal management information table 401 and the terminal-specific management information table 402. Among the plurality of wireless APMs, the wireless APM 305 is a final module mounted on the wireless access point device 102. The wireless access point device 102 is connected to the authentication server terminal 101 and the network 100 via a wired interface unit 302 in a wired manner, and provides a data transport control function / path selection function in the network 100.
[0023]
FIG. 2 is a conceptual diagram showing a configuration when a user using a wireless terminal leaves the conference room in the wireless communication system. In the illustrated example, the wireless peripheral device 103, the wireless terminal 104, and the wireless terminal 105 use the access point identifier (ESS-ID1) to select the wireless APM1 of the accommodating wireless access point device 102 (the wireless terminal 106 leaves the room). This shows a case where the wireless terminal 107 selects the wireless APM 2 of the accommodating wireless access point device 102 using the access point identifier (ESS-ID 2).
[0024]
FIG. 3 is a conceptual diagram illustrating a configuration when a user who is using a wireless terminal in the wireless communication system leaves the conference room and another user who has another wireless terminal enters the conference room. In the illustrated example, the wireless peripheral device 103, the wireless terminal 104, the wireless terminal 105, and the wireless terminal 107 use the access point identifier (ESS-ID1) to select the wireless APM1 of the accommodating wireless access point device 102 (wireless terminal). 106 indicates that the wireless APM 2 of the wireless access point device 102 is turned off.
[0025]
FIG. 4 shows a format of a data frame composed of an IEEE (Institute of Electrical and Electronics Engineers) 802.3 frame, a TCP / IP (Transmission Control Protocol / Internet Protocol) frame, and an application data frame used in the wireless communication system. FIG. In the figure, a destination MAC (Media Access Control) address 501 in the IEEE 802.3 frame is data for specifying a partner of transmission data, and a source MAC address 502 is data for specifying a sender of data. A control command (hereinafter abbreviated as a command) 503 in the application data frame is set to specify various transmission data, and a parameter 504 is detailed data accompanying the command 503.
[0026]
5A, 5B, and 5C show detailed data setting examples of the destination MAC address 501 and the transmission source MAC address 502 in the IEEE 802.3 frame, and the command 503 and the parameter 504 in the application data frame. FIG. FIG. 5A shows a detailed setting example in the first embodiment. FIGS. 5B and 5C show detailed setting examples in the second embodiment. The command 503 includes an APM change request message and an identifier notification message, and the parameter 504 includes ESS-ID1, ESS-ID2, and ESS-ID3.
[0027]
Next, the operation of the wireless communication system according to the first embodiment having the above-described configuration will be described with reference to FIGS. 1 to 5A, FIGS. 9 to 12, FIGS. 15 to 16, and FIGS. This will be described in detail. 9 is a sequence diagram showing processing in the wireless communication system, FIG. 10 is a flowchart showing common processing 0 of wireless terminals, FIG. 11 is a flowchart showing processing of APM2, and FIGS. 12 and 13 show processing of the central control unit 301. FIG. 15 is a flowchart showing APM common processing 1, FIG. 16 is a flowchart showing APM common processing 2, and FIG. 23 is a diagram showing detailed configuration 1 of accommodation terminal management information. Note that the messages in the sequence diagram of FIG. 9 specify only the main messages relating to the present embodiment, and some other basic messages are omitted.
[0028]
In FIG. 2, when a user using the wireless terminal 3 (106) leaves the conference room, for example, the movement of the wireless terminal 3 (106) is managed by the wireless APM 1 (304) accommodated in the wireless access point device 102. Wireless terminal 3 between the wireless APM 1 (304) and the wireless terminal 3 (106) when the user moves outside the service area of the service area or when the user performs a start / stop operation of the wireless terminal 3 (106). Association release processing (M1001 in FIG. 9) is performed to release the connection accommodation state of (106).
[0029]
The wireless APM1 (304) that starts the association disconnection process (M1001) (YES in step S1501 in FIG. 15) and performs the association disconnection process with the wireless terminal 3 (106) (step S1502) When it is confirmed that the disconnection process has been completed (YES in step S1503), a change notification (decrease: -1) (M1002) of the number of accommodated wireless terminals in the wireless APM1 (304) is transmitted to the central control unit 301 ( Step S1504). Note that the change notification function of the number of accommodated wireless terminals in the wireless APM 1 (304) is activated by a change in the number of connected wireless terminals.
[0030]
The central control unit 301 that has received the change notification of the number of accommodated terminals (decrease: −1) (M1002) (the determination in step S1301 in FIG. 12 is YES) is when the number of accommodated wireless terminals in the wireless APM1 (304) has decreased. (Yes in Step S1302), the terminal-specific management information table 402 of the corresponding wireless terminal in the storage area unit 303 is deleted, and the “current number of accommodations” in the APM-specific accommodation terminal management information table 401 is decreased by −1 (FIG. 22). Next, the central control unit 301 confirms the “current number of accommodated” in the APM-specific accommodated terminal management information table 401. If the number of accommodated wireless terminals is not 0 (NO in step S1303), The “current number of accommodations” in the APM accommodation terminal management information table 401 for the wireless APMs 2 to n (305) other than APM1 (304) is confirmed (step S1304).
[0031]
At this time (when the number of accommodated wireless terminals in the wireless APM1 (304) is equal to or less than the maximum accommodated number), the “reduced number” of the wireless APM1 (304) and the second wireless APMs 2 to n (305) confirmed above are confirmed. When the relationship with any “current number of accommodated vehicles” is “the number of radio APM1 decreased” ≧ “the current number of second radio APMs 2 to n” (determination in step S1305 in FIG. 13 is YES) (The wireless APM 2 will be described as an example here for convenience), and the central control unit 301 transmits the access point identifier (1) of the wireless APM 1 to the wireless terminal 4 (107) accommodated in the second wireless APM 2 (305). In order to transmit an APM change request message (M1003) including ESS-ID1) information (601) (see FIG. 5), an APM change request message (M1003) is sent. Send the line APM2 (305) (step S1306).
[0032]
The central control unit 301 determines whether or not the APM change request message (M1003) has been transmitted to all the wireless terminals accommodated in the wireless APM2 (305). If the transmission has not been completed (determination in step S1307). Is NO), the APM change request message (M1003) transmission process (step S1306) is repeated. If transmission is complete (YES in step S1307), the transmission process ends.
[0033]
In addition, the relationship between the “decreased number” in the wireless APM1 (304) and the “current number of accommodated” of any of the confirmed second wireless APMs 2 to n (305) is “the number of reduced wireless APM1”. <If the current number of second wireless APMs 2 to n is reached (NO in step S1305 of FIG. 13), the process ends.
[0034]
The wireless APM 2 (305) that has received the APM change request message (M1003) from the central control unit 301 (YES in step S1201 in FIG. 11) transmits an access point identifier of the wireless APM 1 to the wireless terminal 4 (107) ( The APM change request message (M1004) including the ESS-ID1) information (601) is transmitted (step S1202).
[0035]
The wireless terminal 4 (107) that has received the APM change request message (M1004) from the wireless APM2 (305) (the determination in step S1101 in FIG. 10 is YES) is the access point identifier (ESS-ID1) information (601) of the wireless APM1. ) To execute an authentication sequence process (M1005) with the wireless APM1 (304) (step S1102 in FIG. 10). When the authentication sequence process (M1005) is completed between the wireless APM1 (304) and the wireless terminal 4 (107) (YES in step S1103), the wireless terminal 4 (107) continues to communicate with the wireless APM1 (304). An association process (M1006) is performed between them (step S1104).
[0036]
When the completion of the association process (M1006) is confirmed (YES in step S1105), the wireless terminal 4 (107) performs the association disconnection process (M1008) with the wireless APM2 (305) (step S1106). ).
[0037]
On the other hand, the above-described authentication sequence process (M1005) is started (YES in step S1601 in FIG. 16), and the wireless APM1 (304) that has performed the authentication sequence process with the wireless terminal 4 (107) (step S1602) is If the completion of the authentication sequence process is confirmed (YES in step S1603), an association process (M1006) is performed with the wireless terminal 4 (107) (step S1604). When the wireless APM1 (304) confirms the completion of the association process (YES in step S1605), the central control unit 301 is notified of the change in the number of accommodated wireless terminals in the wireless APM1 (304) (increase: +1) ( M1007) is transmitted (step S1606). Thereafter, the wireless APM1 (304) transitions to the communication state (M1011) with the wireless terminal 4 (107).
[0038]
The wireless APM 2 (305) that has started the association disconnection process (M1008) (YES in step S1501) and has performed the association disconnection process with the wireless terminal 3 (106) (step S1502) has completed the association disconnection process. (Yes in step S1503), a change notification (decrease: -1) (M1009) of the number of accommodated wireless terminals in the wireless APM2 (305) is transmitted to the central control unit 301 (step S1504). Note that the change notification function of the number of accommodated wireless terminals in the wireless APM2 (305) is activated by a change in the number of accommodated wireless terminals.
[0039]
The central control unit 301 that has received the change notification (decrease: -1) (M1009) of the number of accommodated wireless terminals (the determination in step S1301 is YES) when the number of accommodated wireless terminals in the wireless APM2 (305) has decreased (step S1301). If the determination in S1302 is YES), the terminal-by-terminal management information table 402 of the corresponding wireless terminal in the storage area unit 303 is deleted, and the “current number of accommodations” in the APM-by-APM accommodation terminal management information table 401 is decreased by −1.
[0040]
Next, the central control unit 301 confirms the “current number of accommodated” in the APM-specific accommodated terminal management information table 401. If the number of accommodated wireless terminals is 0 (YES in step S1303), wireless access It is confirmed whether the point device 102 is being driven by a battery by supplying power from the battery. If the battery is being driven (YES in step S1308), the presence of a wireless APM being activated is confirmed. If the wireless APM is activated (YES at step S1309), the power supply to the wireless APM2 (305) is stopped (M1010) (step S1310) (see FIG. 3). The management table corresponding to the wireless APM 2 (305) in the APM-specific accommodation terminal management information table 401 is deleted (see FIG. 23).
[0041]
If the wireless access point device 102 is not being driven by a battery (NO in step S1308), the central control unit 301 continues power control. If there is no other wireless APM being activated (NO in step S1309), power control is continued. When the wireless access point device 102 is activated by a power supply method other than the battery power supply method, the power supply control process is not performed.
[0042]
As described above, according to the first embodiment, the central control unit 301 of the wireless access point device 102 operated by battery operation is connected to a plurality of wireless APMs 304,. A plurality of wireless terminals in the wireless communication system are notified by including a control command and an access point identifier indicating a change-destination wireless APM for a plurality of wireless terminals in the wireless communication system in accordance with the accommodation status accompanying the increase or decrease of the wireless terminals 104 to 107 Thus, by managing the wireless terminals in an integrated manner, any wireless terminal can be centrally connected and accommodated in one wireless APM. Accordingly, by stopping the power supply to the other wireless APMs, it is possible to save the battery of the wireless access point device 102 and to further effectively use the wireless channel.
[0043]
[Second Embodiment]
A second embodiment of the present invention will be described. As in the first embodiment, the basic configuration of the wireless communication system in the second embodiment is the network 100, the authentication server terminal 101, the wireless access point device 102, the wireless peripheral device 103, the wireless terminal 1 ( A desktop type 104, a wireless terminal 2 (desktop type) 105, a wireless terminal 3 (notebook PC type) 106, and a wireless terminal 4 (notebook PC type) 107 (see FIG. 1). Since the configuration of each part of the wireless communication system, the format structure of the data frame (FIG. 4), and the details of the main information element setting example (FIG. 5) have been described in detail in the first embodiment, description thereof will be omitted.
[0044]
Next, operations in the wireless communication system according to the second embodiment having the above-described configuration will be described with reference to FIGS. 1 to 5B, FIG. 5C, FIGS. 6 to 8, FIGS. This will be described in detail with reference to FIGS. 6 is a conceptual diagram illustrating a configuration when a user having a wireless terminal enters a conference room, and FIG. 7 is a conceptual diagram illustrating a configuration when a user having a wireless terminal enters the conference room and powers on the wireless APM 2. FIG. 8 is a conceptual diagram showing a configuration when wireless terminals are classified by access point identifiers, FIG. 14 is a sequence diagram showing processing in the wireless communication system, FIG. 15 is a flowchart showing APM common processing 1, and FIG. FIG. 17 is a flowchart showing the processing of the APM 2, FIG. 18 is a flowchart showing the processing of the wireless terminal 3, and FIGS. 19 and 20 are flowcharts showing the processing of the central control unit 301.
[0045]
In FIG. 6, when a user using the wireless terminal 3 (106) enters the conference room, for example, the movement of the wireless terminal 3 (106) is managed by the wireless APM 1 (304) accommodated in the wireless access point device 102. Wireless terminal 3 (106), the wireless terminal 3 (106) determines whether the wireless terminal 3 (106) is within the service area or if the wireless terminal 3 (106) is activated (YES in step S1801 in FIG. 18). 304) in order to make a connection accommodation request to the wireless APM1 (304) based on the access point identifier (ESS-ID1) information of the wireless APM1 (304) that is the connection accommodation destination (FIG. 14 M1401) is executed (step S1802).
[0046]
When the authentication sequence processing (M1401) is completed between the wireless APM1 (304) and the wireless terminal 3 (106) (YES in step S1803), the wireless terminal 3 (106) continues to communicate with the wireless APM1 (304). An association process (M1402) is performed between them (step S1804). When the completion of the association process (M1402) is confirmed (YES in step S1805), the wireless terminal 3 (106) transitions to a communication state (M1406) with the wireless APM1 (304) (step S1806). .
[0047]
On the other hand, the authentication sequence process (M1401) is started (YES in step S1601 in FIG. 16), and the authentication sequence process is executed with the wireless terminal 3 (106) (step S1602). If the completion of the authentication sequence process is confirmed (YES in step S1603), an association process (M1402) is performed with the wireless terminal 3 (106) (step S1604). When the wireless APM1 (304) confirms the completion of the association process (YES in step S1605), the central control unit 301 is notified of the change in the number of accommodated wireless terminals in the wireless APM1 (304) (increase: +1) ( M1403) is transmitted (step S1606). Thereafter, the wireless APM1 (304) transitions to a communication state (M1406) with the wireless terminal 3 (106).
[0048]
The central control unit 301 that has received the change notification of the number of accommodated wireless terminals (increase: +1) (M1403) (the determination in step S1901 in FIG. 19 is YES), the number of accommodated wireless terminals in the wireless APM1 (304) has increased. (Yes in step S1902), the management information table 402 for each corresponding wireless terminal in the storage area unit 303 is added, and the “current accommodation number” in the accommodation management information table 401 for each APM is increased by +1 (FIG. 24). Next, the central control unit 301 confirms the “current number of accommodated” in the accommodation terminal management information table 401 classified by APM, and if the accommodated number of wireless terminals in the wireless APM1 (304) does not exceed the maximum accommodated number (step If the determination in S1903 is NO, this process ends.
[0049]
Further, if the number of wireless terminals accommodated in the wireless APM1 (304) exceeds the maximum accommodated number (YES in step S1903), the central control unit 301 determines that the wireless APMs 2 to n (305) other than the wireless APM1 (304). ) Is confirmed in the APM-specific accommodation terminal management information table 401 (step S1904). If, as a result of the confirmation, there is a currently active wireless APM other than the wireless APM1 (304) as a result of the confirmation (NO in step S1905), the central controller 301 other than the wireless APM1 (304) is active. (305) The connection accommodation status of the wireless terminal with respect to (305 APM2 will be described as an example for convenience) is checked.
[0050]
The relationship between the “increased number” in the wireless APM1 (304) and the “accommodable number” of the activated second wireless APM2 (305), which accompanies the connection accommodation of the wireless terminal 3 (106),
When “the number of wireless APM2 (305) that can be accommodated” ≧ “the increased number of wireless APM1” (step S1906: YES), the wireless terminal 3 (106) accommodated in the wireless APM1 (304) Then, an APM change request message (M1407) including the access point identifier (ESS-ID3) information (603) (see FIG. 5C) of the wireless APM2 is transmitted by the wireless APM1 (304) (step S1907).
[0051]
The central control unit 301 determines whether or not the APM change request message (M1407) has been transmitted to all the wireless terminals that have been accommodated in the wireless APM1 (304). If the determination in step S1908 is NO), the APM change request message (M1407) transmission process (step S1907) is repeated. If transmission is complete (YES in step S1908), the transmission process ends.
[0052]
Further, the relationship between the “increased number” in the wireless APM1 (304) and the “accommodable number” of the second wireless APM2 (305) that has been newly activated is the “accommodated number of wireless APM2 (305)” <“ If the number of wireless APMs 1 is increased (NO in step S1906), the process ends.
[0053]
On the other hand, as a result of the confirmation, if there is no active wireless APM other than the wireless APM1 (304) as a result of the confirmation (the determination in step S1905 is YES), the central control unit 301 determines that the wireless APM2 other than the wireless APM1 (304) It is determined whether there is a wireless APM that can be activated at n (305), and if there is no wireless APM that can be activated as a result (determination in step S2001 in FIG. 20 is NO), wireless APM1 (304). This processing is terminated while exceeding the maximum number of accommodations. A management table corresponding to the wireless APM 1 (304) in the APM-specific accommodation terminal management information table 401 is added (see FIG. 24).
[0054]
In addition, if there is a wireless APM that can be activated (YES in step S2001), the central control unit 301 turns on power supply to the corresponding wireless APM2 (305) (M1404) (step S2002) (FIG. 7). reference).
[0055]
Subsequently, the central control unit 301 confirms the activation of the wireless APM2 (305), and if the activation of the wireless APM2 (305) is completed (the determination in step S2003 is YES), a new one is added to the wireless APM2 (305). An access point identifier (ESS-ID3) is generated, and an identifier notification message (M1405) including the access point identifier (ESS-ID3) information (602) (see FIG. 5B) is transmitted to the wireless APM 2 (305). To do. (Step S2004).
[0056]
The wireless APM 2 (305) that has received the identifier notification message (M 1405) (YES in step S 1701 in FIG. 17) executes initialization processing using the received new access point identifier (ESS-ID 3). (Step S1702).
[0057]
Subsequently, the central control unit 301 increases the number of wireless terminals accommodated in the wireless APM1 (304) accompanying the connection accommodation of the wireless terminal 3 (106), and the newly activated second wireless APM2 ( 305), when the relationship with the “accommodable number” is “accommodable number of wireless APM2 (305)” ≧ “increased number of wireless APM1” (determination in step S2005 is YES), wireless APM1 (304) In order to transmit the APM change request message including the access point identifier (ESS-ID3) information (603) of the wireless APM2 to the wireless terminal 3 (106) accommodated in the APM, an APM change request message (M1407) is sent. It transmits to wireless APM1 (304) (step S2006).
[0058]
The central control unit 301 determines whether or not the APM change request message (M1407) has been transmitted to all the wireless terminals that have been accommodated in the wireless APM1 (304). If the determination in step S2007 is NO, the APM change request message (M1407) transmission process (step S2006) is repeated. If the transmission is completed (YES in step S2007), the transmission process ends (see FIG. 8). A management table corresponding to the wireless APM 2 (305) in the APM-specific accommodation terminal management information table 401 is added (see FIG. 25).
[0059]
Further, the relationship between the “increased number” in the wireless APM1 (304) and the “accommodable number” of the second wireless APM2 (305) that has been newly activated is the “accommodated number of wireless APM2 (305)” <“ If the number of wireless APMs 1 is increased (NO in step S2005), the processes in steps S2001 to S2005 are repeated.
[0060]
The wireless APM1 (304) that has received the APM change request message (M1407) from the central control unit 301 (YES in step S1201 in FIG. 11) transmits to the wireless terminal 3 (106) the access point identifier ( The APM change request message (M1408) including the ESS-ID3) information (603) is transmitted (step S1202).
[0061]
The wireless terminal 3 (106) that has received the APM change request message (M1408) from the wireless APM1 (304) (the determination in step S1101 in FIG. 10 is YES) is the access point identifier (ESS-ID3) information (603) of the wireless APM2. ) To execute the authentication sequence process (M1409) with the wireless APM2 (305) (step S1102). When the authentication sequence process (M11409) is completed between the wireless APM2 (305) and the wireless terminal 3 (106) (the determination in step S1103 is YES), the wireless terminal 3 (106) continues to communicate with the wireless APM2 (305). An association process (M1410) is performed between them (step S1104).
[0062]
If the completion of the association process (M1410) is confirmed (YES in step S1105), the wireless terminal 3 (106) performs the association disconnection process (M11412) with the wireless APM1 (304) (step S1106). ).
[0063]
On the other hand, the wireless APM2 (305) that starts the authentication sequence process (M1409) (YES in step S1601 in FIG. 16) and executes the authentication sequence process with the wireless terminal 3 (106) (step S1602) is as follows. If the completion of the authentication sequence process is confirmed (YES in step S1603), an association process (M1410) is performed with the wireless terminal 3 (106) (step S1604). When the wireless APM 2 (305) confirms the completion of the association process (M1410) (YES in step S1605), the central control unit 301 is notified of the change in the number of accommodated wireless terminals (increase: +1) (M1411). Transmit (step S1606). Thereafter, the wireless APM 2 (305) transitions to a communication state (M1414) with the wireless terminal 3 (106).
[0064]
As described above, according to the second embodiment, even when the number of connected wireless terminals in the wireless APM increases, the other wireless APMs that are stopped are restarted and a new access point identifier is added. Since the access point identifiers are different every time the wireless APM is activated, security is improved. Further, there is no restriction that an access point identifier statically associated with each wireless APM in the wireless communication system is registered in advance in the wireless terminal as in the prior art, and flexible wireless APM designation control is also possible in the wireless terminal. Is possible.
[0065]
[Other embodiments]
In the first and second embodiments, the power control process in the central control unit 301 that controls the power ON / OFF of the wireless APM of the wireless access point device 102 is performed when the number of wireless terminals accommodated in the wireless APM decreases. In addition, at the time of the increase, the wireless APM is activated by the wireless terminal accommodation number notification message notified from the wireless APM to the central control unit 301 each time, but the present invention is not the timing at which the above message is notified from the wireless APM. The control unit 301 can make an inquiry to the wireless APM, and can be implemented in the same manner by starting the wireless terminal according to the wireless terminal accommodation status to which the wireless APM responds.
[0066]
In the first embodiment, the authentication sequence process (M1005) is performed when the wireless APM to be used is changed from the wireless APM2 (305) to the wireless APM1 (304). In the second embodiment, The authentication sequence processing (M1409) is performed when the wireless APM to be used is changed from the wireless APM1 (304) to the wireless APM2 (305). However, in the present invention, the same applies when the authentication sequence processing is omitted. Is feasible.
[0067]
In the first and second embodiments described above, a wireless LAN network is taken as an example, and a battery saving method for a wireless access point device configured by a plurality of wireless APMs having a wireless access point function and resource availability Although flexible wireless APM designation control for utilization and security improvement has been described, the present invention is not limited to this, and a configuration in which a client terminal is connected to a network using a wireless transmission path is configured. Any system can be applied regardless of analog / digital of signals to be handled. In addition, the present invention can be variously modified and implemented without departing from the scope of the invention.
[0068]
Another object of the present invention is to supply a storage medium storing software program codes for realizing the functions of the embodiments to a system or apparatus, and a computer (or CPU, MPU, etc.) of the system or apparatus stores the storage medium. It is also achieved by reading out and executing the program code stored in.
[0069]
In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiment, and the storage medium storing the program code constitutes the present invention.
[0070]
Examples of the storage medium for supplying the program code include a floppy (registered trademark) disk, a hard disk, a magneto-optical disk, a CD-ROM, a CD-R, a CD-RW, a DVD-ROM, a DVD-RAM, and a DVD. -RW, DVD + RW, magnetic tape, nonvolatile memory card, ROM, etc. can be used.
[0071]
Further, by executing the program code read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (operating system) running on the computer based on the instruction of the program code. A case where part or all of the actual processing is performed and the functions of the above-described embodiments are realized by the processing is also included.
[0072]
Further, after the program code read from the storage medium is written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. This includes a case where the CPU or the like provided in the board or the function expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.
[0073]
[Example of embodiment]
Examples of embodiments of the present invention are listed below.
[0074]
[Embodiment 1] A wireless access point device having a plurality of wireless modules having a wireless access point function and a control unit, and a plurality of wireless terminals connected and accommodated in the wireless modules respectively selected using unique access point identifiers In a wireless communication system comprising:
The wireless module has an accommodation number notifying means for notifying the control unit of the connection accommodation number of the wireless terminals,
The control unit is configured to detect the number of connected terminals of the wireless terminals in the plurality of wireless modules notified by the number-of-accommodated number notification unit, and the wireless unit according to a detection result of the number-of-accommodated number detection unit. Power supply control means for controlling power supply to the module,
Further, the accommodation number notification means is activated by a change in the connection accommodation number of the wireless terminals.
[0075]
“Embodiment 2” The wireless communication system according to embodiment 1, wherein the accommodation number notifying unit is activated by an inquiry from the control unit.
[0076]
“Embodiment 3” When the detection result of the accommodation number detection means is that the number of connection terminals of the wireless terminals in the first wireless modules constituting the plurality of wireless modules is 0, the control unit Activation determination means for determining whether or not a second wireless module other than the wireless module is activated, and the power supply control means determines that the second wireless module is The wireless communication system according to embodiment 1, wherein the power supply to the first wireless module is stopped when at least one is activated.
[0077]
[Embodiment 4] The wireless communication according to embodiment 3, wherein the power supply control means is not activated when none of the second wireless modules is activated as a result of the determination by the activation determining means. system.
[0078]
“Embodiment 5” The control unit is connected and accommodated in the activated second wireless module in addition to the first wireless modules constituting the plurality of wireless modules according to the detection result of the accommodation number detecting means. Identifier notifying means for notifying at least one or more of the wireless terminals, a first access point identifier for identifying the first wireless module;
The wireless communication system according to embodiment 1, wherein the wireless terminal has connection accommodation destination changing means for changing a wireless module of a connection accommodation destination using the first access point identifier.
[0079]
“Embodiment 6” In the control unit, the detection result of the accommodation number detection unit is the maximum accommodation result due to the decrease in the number of connection accommodations due to the start and stop of the wireless terminal being accommodated in the first wireless module or the movement outside the service area. When the number is less than or equal to the number, the total number of the wireless terminals that are connected and accommodated in the second wireless module that is being activated in addition to the first wireless module, and the decrease in the number of wireless terminals in the first wireless module It has a means for comparing the number of units to be compared with the number of units,
The wireless communication system according to embodiment 5, wherein the identifier notifying means is activated when the comparison result of the accommodation number comparison means is the decrease number ≧ the total accommodation number.
[0080]
“Embodiment 7” The wireless communication system according to embodiment 6, wherein the identifier notifying means is not activated when the comparison result of the accommodated number comparison means is the reduced number <the total accommodated number.
[0081]
"Embodiment 8" The control unit specifies a second wireless module that is activated in addition to the first wireless modules that constitute the plurality of wireless modules, in accordance with a detection result of the accommodation number detection unit. Identifier notification means for notifying at least one or more of the wireless terminals connected and accommodated in the first wireless module,
The wireless communication system according to embodiment 1, wherein the wireless terminal has connection accommodation destination changing means for changing a wireless module of a connection accommodation destination using the second access point identifier.
[0082]
“Embodiment 9” When the detection result of the accommodation number detection means is that the connection accommodation number of the wireless terminals in the first wireless module is equal to or greater than the maximum accommodation number, the control unit In addition to the activation determination means for determining whether or not the second wireless module is activated, and the result of the determination by the activation determination means is that there is the activated second wireless module, the second wireless module An accommodation status judging means for examining the connection accommodation status of the wireless terminal in the module and judging whether the connection accommodation of the wireless terminal is possible;
9. The wireless communication system according to claim 8, wherein the identifier notifying unit is activated when the connection of the wireless terminal is possible in the second wireless module as a result of the determination by the accommodation state determining unit.
[0083]
“Embodiment 10” When the second wireless module being activated does not exist as a result of the determination by the activation determining unit, the control unit re-executes an arbitrary wireless module whose operation is stopped as the second wireless module. Having restarting means to start,
The wireless communication according to embodiment 8 or 9, wherein the identifier notifying unit performs the notification using an access point identifier registered in advance corresponding to the plurality of wireless modules as the second access point identifier. system.
[0084]
“Embodiment 11” The control unit includes an identifier generation unit that generates a new access point identifier when the restart is performed by the restart unit.
The wireless communication system according to embodiment 10, wherein the identifier notifying unit performs the notification using the new access point identifier generated by the identifier generating unit as the second access point identifier.
[0085]
[Embodiment 12] Embodiment 9 is characterized in that the identifier notifying means is not activated when the wireless terminal cannot be accommodated in the second wireless module as a result of the determination by the accommodation status determining means. Wireless communication system.
[0086]
“Embodiment 13” The wireless communication system according to embodiment 1, wherein the power supply control means is not started when the wireless access point device is started by a power supply method other than a battery power supply method.
[0087]
[Embodiment 14] A plurality of wireless modules having a wireless access point function and a control unit are provided, each of the plurality of wireless modules is operated using a unique access point identifier, and a plurality of wireless terminals are used using the access point identifier In a wireless access point device that is connected and accommodated in a wireless module selected in
The wireless module has an accommodation number notifying means for notifying the control unit of the connection accommodation number of the wireless terminals,
The control unit is configured to detect the number of connected terminals of the wireless terminals in the plurality of wireless modules notified by the number-of-accommodated number notification unit, and the wireless unit according to a detection result of the number-of-accommodated number detection unit. A wireless access point device comprising power supply control means for controlling power supply to the module.
[0088]
[Embodiment 15] A wireless access point device having a plurality of wireless modules having a wireless access point function and a control unit, and a plurality of wireless terminals connected and accommodated in the wireless modules respectively selected using unique access point identifiers In a power supply control method in a wireless communication system comprising:
The wireless module has an accommodation number notifying step of notifying the control unit of the connection accommodation number of the wireless terminals,
The controller is configured to detect the number of connected terminals of the wireless terminals in the plurality of wireless modules notified in the number-of-accommodated number notification step, and the wireless unit according to a detection result of the number-of-accommodated number detection step. And a power supply control process for controlling power supply to the module.
[0089]
[Embodiment 16] A wireless access point device having a plurality of wireless modules having a wireless access point function and a control unit, and a plurality of wireless terminals connected and accommodated in the wireless modules respectively selected using unique access point identifiers In a program applied to a wireless communication system comprising:
A function of notifying the control unit of the number of connections of the wireless terminals from the wireless module, a function of detecting the number of connections of the wireless terminals in the plurality of wireless modules notified by the control unit, and the connection A program for causing a computer to realize a function of controlling power supply to the wireless module according to a detection result of the number of accommodated units.
[0090]
[Embodiment 17] A wireless access point device having a plurality of wireless modules having a wireless access point function and a control unit, and a plurality of wireless terminals connected and accommodated in the wireless modules selected using unique access point identifiers, In a computer-readable storage medium storing a program for executing a power supply control method in a wireless communication system comprising:
The power supply control method includes a step of notifying the control unit of the number of connected wireless terminals from the wireless module, and the number of connected wireless terminals in the plurality of wireless modules notified by the control unit. A storage medium comprising: a step of detecting; and a step of controlling power supply to the wireless module according to a detection result of the number of accommodated connections.
[0091]
【The invention's effect】
  As described above, according to the present invention, fluctuations in wireless terminals connected and accommodated in a plurality of wireless modulesThe wireless module activation status and the power type of the wireless access point device.Battery saving is possible, and more effective use of wireless channels can be realized.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a basic configuration of a radio communication system according to a first embodiment of the present invention.
2 is a conceptual diagram showing a configuration when a user using a wireless terminal leaves the conference room in the wireless communication system of FIG. 1;
3 is a conceptual diagram showing a configuration when a user using a wireless terminal in the wireless communication system of FIG. 1 leaves the conference room and another user having another wireless terminal enters the conference room.
FIG. 4 is a diagram showing a configuration of a data frame format.
FIG. 5A is a diagram showing a setting example (first embodiment) of main information elements of transmission data; FIG. 5B is a setting example 1 (second embodiment) of main information elements of transmission data; (C) is a diagram showing a setting example 2 (second embodiment) of main information elements of transmission data.
FIG. 6 is a conceptual diagram showing a configuration when a user having a wireless terminal enters a conference room in the wireless communication system according to the second embodiment of the present invention.
7 is a conceptual diagram showing a configuration when a user having a wireless terminal enters the conference room and powers on the wireless APM 2 in the wireless communication system of FIG. 6;
8 is a conceptual diagram showing a configuration when a wireless terminal is classified by an access point identifier in the wireless communication system of FIG. 6;
9 is a sequence diagram showing processing in the wireless communication system of FIG. 1. FIG.
10 is a flowchart showing common processing 0 of wireless terminals in the wireless communication system of FIGS. 1 and 6. FIG.
11 is a flowchart showing processing of the wireless APM 2 in the wireless communication system of FIG.
12 is a flowchart showing processing of a central control unit in the wireless communication system of FIG.
FIG. 13 is a continuation of the flowchart of FIG.
14 is a sequence diagram showing processing in the wireless communication system of FIG. 6. FIG.
15 is a flowchart showing common processing 1 of wireless APM in the wireless communication system of FIGS. 1 and 6. FIG.
16 is a flowchart showing common processing 2 of wireless APM in the wireless communication system of FIGS. 1 and 6. FIG.
17 is a flowchart showing processing of the wireless APM 2 in the wireless communication system of FIG.
18 is a flowchart showing processing of the wireless terminal 3 in the wireless communication system of FIG.
19 is a flowchart showing processing of a central control unit in the wireless communication system of FIG.
FIG. 20 is a continuation of the flowchart of FIG.
21 is a block diagram showing a configuration of a wireless access point device in the wireless communication system of FIGS. 1 and 6. FIG.
FIG. 22 is a diagram showing a detailed configuration 1 of accommodation terminal management information.
FIG. 23 is a diagram showing a detailed configuration 2 of accommodation terminal management information.
FIG. 24 is a diagram showing a detailed configuration 3 of accommodation terminal management information.
FIG. 25 is a diagram showing a detailed configuration 4 of accommodation terminal management information.
FIG. 26 is a diagram showing a format configuration of a wireless LAN transmission frame according to a conventional example.
[Explanation of symbols]
100 network
101 Authentication server terminal
102 Wireless access point device
103 Wireless peripheral devices
104 to 107 wireless terminals 1 to4
301 Central control unit (control unit, InspectionExit means,Supplymeans)
302 Wired interface unit
303 Storage area
304 wireless access point module 1 (wireless module, ThroughKnowledge)
305 Wireless access point module n (wireless module, ThroughKnowledge)
401 APM-specific accommodation terminal management information table
402 Terminal-specific management information table

Claims (6)

A wireless access point device having a plurality of wireless modules having a wireless access point function and a control unit ,
The wireless module has a notification means for notifying the controller of the number of connected terminals of the wireless terminal,
The controller is
Detecting means for detecting a connection accommodation number of the wireless terminals in the plurality of wireless modules notified by the notification means;
Supply means for controlling power supply to the wireless module according to a detection result of the detection means ;
First determining means for determining whether or not the wireless module that has notified the decrease in the number of accommodated terminals by the notifying means accommodates the wireless terminal;
Second determination means for determining whether or not the wireless access point device is driven by a battery by power supply from a battery;
Third determining means for determining whether or not a wireless module other than the wireless module that does not accommodate the wireless terminal is being activated;
Have
The supplying means determines that the wireless module that the first determining means has notified of a decrease in the number of accommodated terminals by the notifying means does not accommodate the wireless terminal, and the second distinguishing means includes When it is determined that the wireless access point device is not battery-operated, and the third determination unit determines that a wireless module other than the wireless module that does not accommodate the wireless terminal is being activated, When power supply to the wireless module that does not accommodate a wireless terminal is stopped, and the wireless module that the first determining means notifies the decrease in the number of accommodated terminals by the notifying means does not accommodate the wireless terminal Even if it is determined, if the second determining means determines that the wireless access point device is being driven by a battery, When the means determines that the wireless module other than the wireless module that does not accommodate the wireless terminal is not activated even if the wireless access point device is not battery-operated, A wireless access point device that continues to supply power to the wireless module that does not accommodate a terminal. 2. The wireless access point device according to claim 1, wherein the notification unit is activated by an inquiry from the control unit. Transmitting means for transmitting a first access point identifier for identifying the wireless module to the wireless terminal;
The wireless access point device according to claim 1, wherein the wireless terminal is caused to change a wireless module of a connection accommodation destination based on the first access point identifier. Wherein, the first and the number of number changes the wireless terminal currently connected accommodated in the radio module of the plurality of radio modules, in the accommodation number of said wireless terminal being connected accommodated in the second wireless module The apparatus according to claim 1, further comprising: a changing unit configured to perform processing for changing a connection destination of a wireless terminal connected to and accommodated in the second wireless module to the first wireless module. Wireless access point device . A plurality of wireless modules having a wireless access point function, and a method of supplying power to the wireless module by a wireless access point device having a control unit ,
The controller is
A detection step of detecting the number of connected terminals of the wireless terminals in the plurality of wireless modules notified from the wireless module;
A supply step of controlling power supply to the wireless module according to a detection result in the detection step;
A first determination step of determining whether or not the wireless module that has notified the decrease in the number of accommodation terminals of the wireless terminal accommodates the wireless terminal ;
A second determination step of determining whether or not the wireless access point device is driven by a battery by power supply from a battery;
A third determination step of determining whether a wireless module other than the wireless module that does not accommodate the wireless terminal is being activated;
Have
In the supplying step, it is determined that the wireless module that has notified the decrease in the number of accommodated terminals of the wireless terminal in the first determining step does not accommodate the wireless terminal, and in the second determining step, the If it is determined that the wireless access point device is not battery-operated, and it is determined in the third determination step that a wireless module other than the wireless module that does not accommodate the wireless terminal is active, the wireless The power supply to the wireless module that does not accommodate the terminal is stopped, and it is determined that the wireless module that has notified the decrease in the number of accommodated terminals of the wireless terminal in the first determination step does not accommodate the wireless terminal. Even in the case where it is determined in the second determination step that the wireless access point device is being driven by a battery, In the second determining step, it is determined that a wireless module other than the wireless module that does not accommodate the wireless terminal is not activated in the third determining step even if the wireless access point device is not driven by a battery. In the case, the power supply method is characterized in that the power supply to the wireless module not accommodating the wireless terminal is continued. A non-transitory computer- readable storage medium storing a program for causing a computer to realize the method of supplying power to the wireless module by the wireless access point device according to claim 5 .

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