JP2015019141A - Wireless lan management device, wireless lan base station, and wireless lan system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless LAN management device easily switching a wireless LAN base station between an in-operation state and a sleep state, regardless of the type of the wireless LAN base station.SOLUTION: The wireless LAN management device includes: a transmission/reception part for transmitting/receiving a transmission signal through a wired line; and a control part which, on the basis of the load of a first wireless LAN base station received by the transmission/reception part, selects a wireless LAN base station to be shifted from a sleep state to an in-operation state from among second wireless LAN base stations having wireless areas overlapping with the wireless area of the first wireless LAN base station, or selects a wireless LAN base station to be shifted from the in-operation state to the sleep state from among the first wireless LAN base station and the second wireless LAN base stations, and then causes the transmission/reception part to transmit, to the selected wireless LAN base station, an instruction for shifting the selected wireless LAN base station to the in-operation state or the sleep state.

Description

  The present invention relates to a wireless LAN management apparatus, a wireless LAN base station, and a wireless LAN system that control switching between activation and sleep of a wireless LAN base station.

In a conventional wireless LAN (Local Area Network) system, in order to reduce power consumption of the system, wireless terminals are not connected or the number of wireless terminals connected wirelessly is small at an access point that is a wireless LAN base station. The access point has been switched to a sleep state. The sleep state is a state in which the wireless function is stopped and communication with the wireless terminal is not performed, and is also referred to as a power saving state.
In addition, when there are a mixture of active access points and dormant access points in the wireless LAN system, if the active access point cannot accommodate any more wireless terminals, the wireless terminal The active access point that has become unable to accommodate the network activates the sleeping access point, thereby realizing a wireless LAN system that can accommodate a new wireless terminal.

JP 2003-174456 A

  As described above, in the method of starting a dormant access point by a running access point that can no longer accommodate a wireless terminal, the access points need to communicate directly using a unique method, and each access point Must determine whether it can accommodate the wireless terminal. Although there are various types of access points regarding the communication method and the capacity of wireless terminals, a wireless LAN system is constructed in which the active access point activates the sleeping access point as described above. However, each of the access points constituting the wireless LAN system must have a protocol for directly communicating with each other and a control for determining whether or not the wireless terminal can be accommodated.

  An object of the present invention is to solve the above-described problem, and to provide a wireless LAN management device that easily realizes switching between an activation state and a sleep state of an access point regardless of the type of the access point. To do.

  A wireless LAN management device according to the present invention is connected to a plurality of wireless LAN base stations that perform wireless communication with a wireless terminal via a wired line, communicates with the wireless LAN base station, and transmits via the wired line. Among the second wireless LAN base station having a wireless area that overlaps with the wireless area of the first wireless LAN base station based on the load of the first wireless LAN base station received by the transmitting / receiving unit and the transmission / reception unit that transmits and receives signals The wireless LAN base station to be shifted from the sleep state to the active state is selected, or the wireless LAN base station to be shifted from the active state to the sleep state is selected from the first wireless LAN base station or the second wireless LAN base station. And a control unit that causes the transmission / reception unit to transmit to the selected wireless LAN base station an instruction for shifting to an activated state or a sleep state.

  A plurality of wireless LAN base stations according to the present invention are provided so that wireless areas overlap with each other, perform wireless communication with a wireless terminal, and connect to a wireless LAN management device via a wired line. A transmission / reception unit that transmits and receives transmission signals via a line, and causes the transmission / reception unit to transmit information about the load to the wireless LAN management device, and activates itself based on an instruction from the wireless LAN management device received by the transmission / reception unit Or a control unit for shifting to a sleep state.

  In addition, a wireless LAN system according to the present invention includes a plurality of wireless LAN base stations that are provided so that wireless areas overlap each other and perform wireless communication with a wireless terminal, and a wireless LAN that communicates with the wireless LAN base station via a wired line. A wireless LAN base station is connected to the wireless LAN management device via a wired line, and the wireless LAN base station is connected to the transmission / reception unit of the wireless LAN base station. A control unit that transmits information to the wireless LAN management device, and that causes the wireless LAN base station to transmit / receive itself to an active state or a sleep state based on an instruction from the wireless LAN management device received by the transmission / reception unit of the wireless LAN base station. The LAN management device is received by a transmission / reception unit that transmits / receives transmission signals to / from a wireless LAN base station via a wired line, and a transmission / reception unit of the wireless LAN management device. Radio that shifts from the sleep state to the active state from the second wireless LAN base stations having a wireless area that overlaps the wireless area of the first wireless LAN base station based on the information on the load of the first wireless LAN base station Select the LAN base station, or select the wireless LAN base station to be shifted from the active state to the sleep state from the first wireless LAN base station or the second wireless LAN base station, and transmit / receive the wireless LAN management device And a control unit that transmits an instruction for shifting to the activated state or the sleep state to the selected wireless LAN base station.

  According to the present invention, the wireless LAN management device selects a wireless LAN base station to be shifted to the activated state or the sleep state based on the load of the wireless LAN base station, and activates the selected wireless LAN base station in the activated state or the sleep state. Therefore, regardless of the type of the wireless LAN base station, it is possible to easily realize switching between the activation state and the power saving state of the wireless LAN base station.

1 is an overall view of a wireless LAN system during normal operation in Embodiment 1. FIG. 1 is an overall view of a wireless LAN system during power saving operation in Embodiment 1. FIG. 2 is a configuration diagram of a management device according to Embodiment 1. FIG. 4 is a table showing an access point management table in the first embodiment. FIG. 3 is a configuration diagram of an access point in the first embodiment. 3 is a sequence diagram illustrating power saving control of the wireless LAN system according to Embodiment 1. FIG. 4 is a table showing an access point management table after starting a dormant access point in the first embodiment. 3 is an overall view of a wireless LAN system in a second embodiment. FIG. FIG. 10 is a sequence diagram showing communication control of a wireless LAN system in the second embodiment.

Embodiment 1 FIG.
Hereinafter, preferred embodiments of a wireless LAN management device, a wireless LAN base station, and a wireless LAN system according to the present invention will be described.
Note that names of devices corresponding to the wireless LAN base station according to the present invention include an access point, a base unit, a base station, a station, and the like. In the first embodiment, they are referred to as “access points” for convenience.
Also, a device that operates as a so-called slave unit that is wirelessly connected to an access point is referred to as a “wireless terminal” for convenience. Wireless terminals include PCs, game machines, home appliances, and the like with a built-in wireless LAN function, as well as devices that can communicate with an access point by attaching a wireless LAN adapter. In addition, the wireless terminal may be a movable mobile terminal or a device that operates while being fixed at the same position, such as a wireless printer.
Similarly, the wireless LAN management device according to the present invention is referred to as “management device” for convenience.

[Configuration of Wireless LAN System 1]
FIG. 1 is an overall view of a wireless LAN system 1 during normal operation according to Embodiment 1 of the present invention, and FIG. 2 is an overall view of the wireless LAN system 1 during power saving operation.
The wireless LAN system 1 includes a management device 100 that manages access points, an access point 300 that connects to the management device 100 via a wired line such as a wired LAN 200, a wireless terminal 400 that performs wireless communication with the access point 300, and a wired LAN 200. A server 500 to be connected is provided.
1 and 2, the access point 300 is described as “AP” and the wireless terminal 400 is described as “terminal”.

The server 500 is a server that communicates with the wireless terminal 400 to provide various services. For example, the server 500 operates as a mail server or a file server.
Note that, instead of the wireless LAN system 1 including the server 500, the management apparatus 100 may not only manage the access point 300 but also provide various services to the wireless terminal 400 and other controls.
The wired LAN 200 may be connected to a WAN (Wide Area Network) 600, and the wireless terminal 400 may be connected to the WAN 600 from the wired LAN 200 via a router.

In the first embodiment, a plurality of access points 300 are installed in a cover area, that is, an area where the wireless terminal 400 can communicate. In FIG. 1, three access points 300-are provided on the floor 1 indicated by F1. 1, 300-2 and 300-3 are installed, and wireless areas 1, 2, and 3 (A1, A2, A3) covered by these access points 300-1, 300-2 and 300-3 are located on floor 1. overlapping.
Similarly, two access points 300-4 and 300-5 are installed on the floor 2 indicated by F2, and the wireless areas 4 and 5 (A4, A5) covered by the access points 300-4 and 300-5 are the floors. 2 is overlapping.
The floors 1 and 2 are one area where the wireless terminal 400 can be used, such as one room or one floor in a building.
Further, the wireless areas covered by the access point 300 do not need to overlap completely, and the floors 1 and 2 may be covered by a plurality of wireless areas.

A plurality of wireless terminals 400 are freely arranged on each of the floors 1 and 2 and perform wireless communication with any of the access points 300-1 to 300-5.
The number of access points 300 installed on each floor is not limited to two or three, and may be changed according to the number of wireless terminals 400 that may exist on the floor.

[Status of access point 300 and wireless LAN system 1]
Based on the instruction from the management apparatus 100, the access point 300 shifts from the activated state to the sleeping state or from the sleeping state to the activated state.
The “activated state” is a state in which the access point 300 is activated and can perform wireless communication with the wireless terminal 400, and the “sleep state” is the state in which the wireless unit 400 is turned off by turning off the power of the wireless unit or the like. The communication function is stopped.

The “wireless LAN system 1 during normal operation” shown in FIG. 1 means that all the access points 300 constituting the wireless LAN system 1 are in an activated state, and the “wireless LAN system 1 during power saving operation” shown in FIG. The wireless LAN system 1 ”means that the wireless LAN system 1 includes a dormant access point 300. Since the access point 300 in the dormant state has stopped the wireless function, power consumption of the access point 300 is suppressed. Furthermore, the wireless LAN system 1 in which the dormant access point 300 exists is also in a power saving state with reduced power consumption. In the wireless LAN system 1, when the number of dormant access points 300 increases, the power consumption of the entire wireless LAN system 1 is further suppressed.
In FIG. 1 showing the wireless LAN system 1 in normal operation, the access points 300-1 to 300-5 are all in the activated state, whereas in FIG. 2 showing the wireless LAN system 1 in power saving operation, the access point 300 is shown. -1, 300-3 and 300-4 are in the activated state, and access points 300-2 and 300-5 are in the dormant state. 1 and 2, the access point 300 in the activated state is indicated by a solid line, and the access point 300 in the dormant state is indicated by a dotted line.

[Configuration of Management Device 100]
FIG. 3 is a configuration diagram of the management apparatus 100 according to Embodiment 1 of the present invention. The management apparatus 100 includes a transmission / reception unit 110 that transmits and receives transmission signals to and from the access point 300 by connecting to a wired line, and a control unit 120 that controls the access point 300.
The control unit 120 includes a connection state management unit 121 that manages the connection state of the access point 300, for example, the accommodation status of the wireless terminal 400 in the access point 300, and an activation control unit that controls switching between the activation state and the sleep state of the access point 300. 122 and a storage unit 123 that stores information on the access point 300.

The connection state management unit 121 in the control unit 120 acquires information regarding the number of wireless terminals 400 connected to the access point 300 via the transmission / reception unit 110 and records the information in the storage unit 123.
In addition, the activation control unit 122 selects the access point 300 to be shifted to the activated state or the access point 300 to be shifted to the dormant state based on the number of wireless terminals 400 connected to the access point 300, and activates or sleeps. An instruction for shifting to the state is transmitted to the selected access point 300 via the transmission / reception unit 110.

[Configuration of Access Point Management Table 124 in Management Device 100]
FIG. 4 is a table showing the access point management table 124 recorded in the storage unit 123 of the management apparatus 100. The access point management table 124 stores IP address, type, cover area, priority, operating state, and number of terminals, which are information related to the access point 300 constituting the wireless LAN system 1.

In the access point management table 124 of FIG. 4, “IP address” is a reference for the management apparatus 100 to communicate with the access point 300, and “type” is a communication protocol or sleep state supported by the access point 300. The type of the access point 300 classified according to whether or not it has a function of shifting to is shown.
The “cover area” indicates a place covered by the wireless area of the access point 300 or a place where the access point 300 is installed, and “priority” indicates that the wireless areas of the plurality of access points 300 overlap on the same floor. In this case, the order in which the access point 300 is shifted to the activation state or the sleep state is shown. Here, the smaller the number is, the higher the priority is, indicating that the access point 300 should be activated. On the other hand, as the number increases, the priority becomes lower, which means that it becomes easier to become a candidate for shifting to the sleep state.
“Operating state” indicates the current state of the access point 300, that is, either “activated state” or “sleeping state”, and “number of terminals” indicates the number of wireless terminals 400 currently connected to the access point 300. Indicates.

[Configuration of Access Point 300]
FIG. 5 is a configuration diagram of the access point 300 according to Embodiment 1 of the present invention. The access point 300 is connected to a wired line and transmits / receives a transmission signal to / from the management apparatus 100, a wireless transmission / reception unit 320 that transmits / receives a transmission signal to / from the wireless terminal 400 by wireless communication, and A control unit 330 is provided.
The control unit 330 includes a connection state monitoring unit 331 that monitors its own state, for example, the accommodation status of the wireless terminal 400, an activation control unit 332 that switches between an activation state and a sleep state, and a storage unit 333.

The storage unit 333 stores the number of wireless terminals 400 connected to the access point 300, the ID of the wireless terminal 400, and the like. The connection state monitoring unit 331 stores the wireless terminal 400 connected to the access point 300. The information in the storage unit 333 is updated according to the increase / decrease.
In addition, when the number of wireless terminals 400 connected to the access point 300 has changed, the connection state monitoring unit 331 manages the number of connected wireless terminals 400 via the wired transmission / reception unit 310. Notify the device 100.
In addition, when the activation control unit 332 receives an instruction from the management apparatus 100 via the wired transmission / reception unit 310, the activation control unit 332 shifts the access point 300 to an activation state or a sleep state based on the received instruction.

[Power-saving control of wireless LAN system 1]
Hereinafter, the power saving control of the wireless LAN system 1 will be described by taking the access points 300-1 and 300-2 covering the floor 1 in FIG. 1 or FIG. 2 and the plurality of wireless terminals 400 as examples.
FIG. 6 is a sequence diagram for explaining the power saving control of the wireless LAN system 1 according to the first embodiment of the present invention.

  In FIG. 6, one described wireless terminal 400 means a plurality of wireless terminals 400, and access points 300-1 and 300-2 are described as “AP1” and “AP2”. Further, for convenience of explanation, the access point 300-1 starts and the access point 300-2 starts from a sleep state.

  Further, here, regardless of the connection procedure and communication contents between the wireless terminal 400 and the access point 300-1 or 300-2, in FIG. 6, the wireless terminal 400 extends to the access point 300-1 or 300-2. It is assumed that one arrow “connection a” indicates a series of sequences relating to establishment of communication between one wireless terminal 400 and the access point 300-1 or 300-2. Similarly, it is assumed that one arrow “disconnect b” indicates a series of sequences relating to the end of communication between one wireless terminal 400 and the access point 300-1 or 300-2.

In addition, SNMP (Simple Network Management Protocol) may be used for transmission / reception of information between the management apparatus 100 and the access point 300, or one may periodically connect to the other via TELNET to acquire information. Good or other protocols may be used.
Furthermore, it is not necessary for all the access points 300 constituting the wireless LAN system 1 to have the same communication protocol for communication with the management apparatus 100, so that the management apparatus 100 has a plurality of communication protocols. The access points 300 having different values may be connected to the same management apparatus 100.

The power saving control shown in FIG. 6 is roughly divided into two power saving controls.
In the first power saving control, in a predetermined cover area, that is, in the floor 1, when the wireless terminal 400 cannot be accommodated only by the access point 300 that is currently activated, the first power saving control is in a sleep state that can cover the cover area. The access point 300 is activated.

When the wireless terminal 400 connects to the activated access point 300-1 as indicated by “connection a” (S101), the connection state monitoring unit 331 of the access point 300-1 connects to the access point 300-1. Assuming that the number of wireless terminals 400 has increased by one, that is, the number of connections of the wireless terminals 400 has changed, the terminal number notification message c including information regarding the number of connections of the wireless terminals 400 is managed via the wired transmission / reception unit 310 It transmits to the apparatus 100 (S102).
Even when one or more other wireless terminals 400 are connected to the access point 300-1 (S103), the access point 300-1 transmits a terminal number notification message c to the management apparatus 100 (S104).

  In the management apparatus 100, when receiving the terminal number notification message c from the access point 300 (S102, S104), the connection state management unit 121 accesses the access point management table 124 stored in the storage unit 123, and The number of terminals of 300-1 is updated.

Further, when the connection state management unit 121 detects that the number of terminals of the access point 300-1 in the access point management table 124 exceeds a prescribed threshold value (S107), the connection state management unit 121 notifies the activation control unit 122.
The threshold referred to here is a threshold for starting control for shifting the dormant access point 300 to the activated state, and may be determined for each access point 300 or all accesses constituting the wireless LAN system 1. The same value may be used at the point 300. Alternatively, it may be determined for each cover area where the access point 300 is installed.

The activation control unit 122 that has been notified that the number of wireless terminals 400 connected to the access point 300-1 has exceeded the threshold value refers to the access point management table 124, and determines the cover area that the access point 300-1 covers. Obtain an access point 300 that covers the cover area.
Taking FIG. 4 as an example, the cover area covered by access point 300-1 is "floor 1", and access point 300 covering floor 1 includes access point 300-2 and access point 300-2. 300-3.

Next, the activation control unit 122 selects, from the acquired access points 300, the access point 300 to be shifted from the sleep state to the activated state.
When there are a plurality of dormant access points 300 that are candidates for activation, the activation control unit 122 selects the access point 300 to be activated based on the priority stored in the access point management table 124.
In FIG. 4 as an example, among the access points 300-1, 300-2, and 300-3, since the operation state of the access point 300-2 is “sleeping”, the access point 300-2 is activated. Selected as.

The activation control unit 122 transmits an activation request message d for prompting the transition to the activation state to the selected access point 300-2 using the transmission / reception unit 110 (S108).
When the access point 300-2 receives the activation request message d, the activation control unit 332 of the access point 300-2 shifts itself from the sleep state to the activated state, and also sends an activation response message e to the management apparatus 100. It transmits using the transmission / reception part 310 (S109).

The access point 300-2 that has shifted from the sleep state to the activated state in response to an instruction from the management apparatus 100 is in a state in which the connection service of the wireless terminal 400 can be provided, and the wireless LAN system 1 that has been performing power saving operation is in a normal operation. It becomes a state.
Thereafter, when the access point 300-2 receives the connection of the wireless terminal 400 (S110), the access point 300-2 transmits a terminal number notification message c to the management apparatus 100 (S111).
In addition, the connection state management unit 121 of the management apparatus 100 updates the operation state of the access point 300-2 from “sleeping” to “activated” in the access point management table 124. FIG. 7 shows an example of the access point management table 124 after the access point 300-2 has shifted to the activated state.

  In the second power saving control, when the number of wireless terminals 400 in communication is smaller than the number of active access points 300 in a predetermined cover area, the active access point 300 is put to sleep. It is.

When the wireless terminal 400 connected to the access point 300-2 ends the connection with the access point 300-2 as shown in “disconnection b” (S112), the connection state monitoring unit 331 of the access point 300-2. Is assumed that the number of wireless terminals 400 connected to the access point 300-2 has decreased by one, that is, the number of connected wireless terminals 400 has changed, and a terminal number notification message including information regarding the number of connected wireless terminals 400 c is transmitted to the management apparatus 100 via the wired transmission / reception unit 310 (S113).
Even when one or more other wireless terminals 400 terminate the connection with the access point 300-1 or 300-2 (S114), the access point 300-1 or 300-2 sends the terminal number notification message c to the management apparatus 100. (S115).

  In the management apparatus 100, when receiving the terminal number notification message c from the access point 300 (S113, S115), the connection state management unit 121 accesses the access point management table 124 stored in the storage unit 123 to access the access point 300. Update the number of devices.

Further, when the connection state management unit 121 detects that the number of terminals of the access point 300-2 in the access point management table 124 has fallen below a prescribed threshold (S116), the connection state management unit 121 notifies the activation control unit 122.
The threshold value here is a threshold value for starting the control to shift the access point 300 in the activated state to the sleep state, and the method of determination is arbitrary like the threshold value used in the first power saving control described above. .
Instead of detecting that the number of terminals has fallen below the threshold, the connection state management unit 121 detects that there is no wireless terminal 400 connected to the access point 300, that is, the number of connected terminals has become zero. Anyway.

The activation control unit 122 that has been notified that the number of wireless terminals 400 connected to the access point 300-2 has fallen below the threshold value refers to the access point management table 124, and determines the cover area that the access point 300-2 covers. Acquire and acquire an access point that covers the cover area.
Taking FIG. 7 as an example, the cover area covered by access point 300-2 is “floor 1”, and access point 300 covering floor 1 includes access point 300-2 and access point 300-2. 300-3.

Next, the activation control unit 122 selects, from the acquired access point 300, the access point 300 that is shifted from the activated state to the sleep state.
When there are a plurality of active access points 300 that are candidates for sleep, the activation control unit 122 selects the access point 300 to be sleep based on the priority stored in the access point management table 124.
In FIG. 7 as an example, since all the operation states of the access points 300-1, 300-2, and 300-3 are “activated”, it is necessary to select the access point 300 to be put to sleep from a plurality of candidates. Use "priority" for. In the access point management table 124 of FIG. 7, the priority of the access points 300-1 and 300-3 is 1, and the priority of the access point 300-2 is 2. Accordingly, the activation control unit 122 selects the access point 300-2 having a low priority as a target to be put to sleep.

The activation control unit 122 transmits to the selected access point 300-2 a sleep request message f for prompting the transition to the sleep state using the transmission / reception unit 110 (S117).
When the access point 300-2 receives the sleep request message f, the activation control unit 332 of the access point 300-2 shifts itself from the activated state to the sleeping state, and transmits a sleep response message g to the management apparatus 100. It transmits using the transmission / reception part 310 (S118).

The access point 300-2 that has shifted from the activated state to the dormant state according to an instruction from the management apparatus 100 stops the connection service of the wireless terminal 400, and the wireless LAN system 1 that has been operating normally enters a state of power saving operation. .
In addition, the connection state management unit 121 of the management apparatus 100 updates the operation state of the access point 300-2 from “activated” to “sleeping” in the access point management table 124.

In the above-described second power saving control, the management apparatus 100 sleeps the selected access point 300-2 in the cover area covered by the access point 300-2 in which the number of terminals of the wireless terminal 400 falls below the threshold value. . When the wireless terminal 400 is connected to the selected access point 300-2, the access point 300-2 that has received the sleep request message f performs processing for the wireless terminal 400 to connect to another access point 300. Do.
For example, the access point 300-2 transmits an instruction to reconnect to another access point 300 to the wireless terminal 400, a notification that the access point 300-2 goes to sleep, or the like. Do. The wireless terminal 400 connects to another access point 300 in response to an instruction or notification from the access point 300-2.
Alternatively, before the activation control unit 122 of the management device 100 transmits the sleep request message f to the sleep target access point 300-2, the wireless terminal 400 connected to the sleep target access point 300-2 is not connected to the sleep target access point 300-2. The sleep request message f may be transmitted to the access point 300-2 after confirming that there is no wireless terminal 400 connected to the access point 300-2 by performing processing such as reconnecting to the access point 300.

  In addition, when the connection state management unit 121 detects that there is no wireless terminal 400 connected to the access point 300, that is, the number of connected terminals becomes zero, the activation control unit 122 sets the number of connected terminals to zero. The access point 300 that has become may be selected as an access point to be shifted to the sleep state.

As described above, in the first embodiment, the management apparatus 100 manages the number of the wireless terminals 400 for each access point 300 and switches the access point 300 from activation or sleep, that is, “activation state” and “sleep”. Control transitions between "states". As a result, the access point 300 has a function of notifying the management apparatus 100 of the number of wireless terminals 400 connected to the access point 300 and a function of switching between an active state and a sleep state in response to an instruction from the management apparatus 100. As long as the wireless LAN system 1 is configured with different types of access points 300, power saving control of the wireless LAN system 1 can be realized.
In addition, since the management apparatus 100 controls the activation and sleep of the access point 300, the control load on the access point 300 can be reduced.

  In addition, the access point management table 124 stores information related to the priority of activation, and the management device 100 selects the access point 300 to sleep or activate based on the priority. Therefore, the access point 300 that covers the cover area. Even when there are a plurality of access points 300, the access point 300 can be activated or put to sleep in order, and the power saving control of the wireless LAN system 1 can be executed in stages.

  In the description of the first embodiment, it is assumed that there are three access points 300 arranged on the floor 1 (see FIGS. 1 and 2), and FIG. 6 illustrates the operation of the access points 300-1 and 300-2. The number of access points 300 covering the same cover area is not limited to three, and may be two, for example, four or more as long as it is a plurality. If there are a large number of access points 300 that cover the same cover area, the access point management table 124 can perform a process of activating or sleeping the access point 300 if a plurality of priority levels are provided to the access point 300. Since it can be performed step by step according to the priority, fine power saving control can be realized.

  Further, the management apparatus 100 selects the access point 300 to be activated or put to sleep depending on whether the number of terminals connected to one access point 300 exceeds or falls below a threshold value. However, control for starting or sleeping the access point 300 may be performed based on the total number of wireless terminals 400 communicating in one cover area. For example, when a threshold value is provided for each cover area and it is detected whether the total number of wireless terminals 400 connected to the access point 300 covering the cover area exceeds or falls below the threshold value provided for each cover area, For example, the access point 300 in the area is activated or put to sleep. Thereby, even when the access points 300 having different accommodation capacities cover one cover area, it is possible to efficiently provide the wireless LAN service and the power saving control of the wireless LAN system 1.

In addition, the management apparatus 100 detects whether the number of wireless terminals 400 exceeds or falls below a threshold value, but the communication amount may be used instead of the number of terminals. That is, the communication amount of the wireless terminal 400 varies. Even if the number of wireless terminals 400 connected to the access point 300 is small, the load on the access point 300 increases if these wireless terminals 400 have only a large amount of communication. On the other hand, even if the number of wireless terminals 400 connected to the access point 300 is large, the load on the access point 300 is low if these wireless terminals 400 have only a small amount of communication. Can be accommodated.
For this reason, a threshold is set for the traffic volume, and when the traffic volume of the access point 300 or the cover area exceeds the threshold value, a process for starting one of the access points 300 in the cover area covered by the access point 300 is performed. When the communication amount of the access point 300 or the cover area falls below the threshold value, the amount of communication can be varied by performing a process of sleeping one of the access points 300 in the cover area covered by the access point. Even when the wireless terminal 400 is connected, efficient power saving control can be performed.

Embodiment 2. FIG.
In the first embodiment, the management device 100 controls the activation and sleep switching of the access point 300 according to the connection status of the wireless terminal 400. However, in this second embodiment, the management device 100 further performs a request from the outside. Control for starting and sleeping the access point 300 will be described.
FIG. 8 is an overall view of the wireless LAN system 1 according to Embodiment 2 of the present invention. The same components as those of the wireless LAN system 1 according to the first embodiment are denoted by the same reference numerals, and the description of the same components and processes as those of the first embodiment will be omitted and mainly different from the first embodiment. The process will be described.

The wireless LAN system 1 according to the second embodiment shown in FIG. 8 is obtained by adding a conference room reservation server 700 for managing conference room reservation to the wireless LAN system 1 according to the first embodiment shown in FIG. 1 or FIG. .
Further, the floor 2 indicated by “F2” in FIG. 1 or 2 is referred to as “conference room” here, and is indicated by “F3”.

The conference room reservation server 700 receives a reservation related to the use of the conference room from the wireless terminal 400 and stores the date and time zone to be used for each conference room scheduled to be used.
As will be described later, the conference room reservation server 700 communicates with the management apparatus 100. Similar to the communication between the management apparatus 100 and the access point 300, the communication method between the conference room reservation server 700 and the management apparatus 100 does not matter.

  FIG. 9 is a sequence diagram showing communication control of the wireless LAN system 1 according to Embodiment 2 of the present invention. In FIG. 9, the same components or messages as those in FIG. 6 showing the sequence of the first embodiment shown in FIG.

  In FIG. 9, a conference room user accesses the conference room reservation server 700 from the wireless terminal 400 and performs a procedure for using the conference room. At this time, the wireless terminal 400 transmits a reservation request message h to the conference room reservation server 700 (S201). The reservation request message h includes information such as a conference room to be used, a use start time, a use end time, the number of users, or the number of wireless terminals to be used.

  The conference room reservation server 700 is installed in the conference room by transmitting an activation request message i to the management apparatus 100 at a predetermined time related to the start of conference room use, for example, 5 minutes before the conference room use start time (S202). A request is made to activate the access point 300 (S203).

The management apparatus 100 that has received the activation request message i extracts the access points 300-4 and 300-5 that cover the conference room as a cover area with reference to the access point management table 124 shown in FIG. An activation request message d is transmitted to these access points 300 (S204).
The access points 300-4 and 300-5 that have received the activation request message d shift from the sleep state to the activation state, and transmit an activation response message e to the management apparatus 100 (S205).

Thereafter, when the user arrives at the conference room and connects the wireless terminal 400 to the access point 300-4 or 300-5 (S206), the access point 300-4 or 300-5 transmits a terminal number notification message c ( S207).
When the conference ends, the user ends communication with the wireless terminal 400 or moves from the conference room to another area, so the wireless terminal 400 ends communication with the access point 300-4 or 300-5. (S208). Each of the access points 300-4 and 300-5 transmits a terminal number notification message c when communication with the wireless terminal 400 ends (S209).

  The conference room reservation server 700 transmits a sleep request message j to the management apparatus 100 when a predetermined time for the conference room use end, for example, 5 minutes has elapsed from the conference room use end time (S210), and is installed in the conference room. The requested access point 300 is requested to sleep (S211).

The management device 100 that has received the sleep request message j sends the access points 300-4 and 300-5 to the access points 300-4 and 300-5 regardless of the connection status of the wireless terminals 400 of the access points 300-4 and 300-5 that cover the conference room as a cover area. In response to this, the sleep request message f is transmitted (S212).
The access points 300-4 and 300-5 that have received the sleep request message f transmit a sleep response message g to the management apparatus 100 (S213), and shift from the activated state to the sleep state.

  As described above, in the second embodiment, the management apparatus 100 controls the activation or sleep of the access point 300 in accordance with a request from the conference room reservation server 700, so that the access point is activated only during the conference room usage time. The power consumption of the wireless LAN system 1 can be suppressed.

  In the description of the second embodiment, the case where the newly provided conference room reservation server 700 is connected to the wired LAN 200 has been described. However, the function of the conference room reservation server 700 is provided in the server 500 and the management apparatus 100. Thus, the control by the conference room reservation server 700 may be realized.

  FIG. 8 illustrates the case where two access points 300 are provided in the conference room. However, the number of access points 300 is not limited to two and the number of access points 300 is changed according to the size of the conference room and the number of users. You may do it.

  In FIG. 9, the case where the conference room is reserved using the wireless terminal 400 scheduled to be used in the conference room has been described. However, the reservation to the conference room reservation server 700 is performed using another wireless terminal 400. Alternatively, a communication terminal other than the wireless terminal 400 may be used.

  The management apparatus 100 activates the access points 300-4 and 300-5 that cover the conference room in accordance with a request from the conference room reservation server 700. However, the number of wireless terminals 400 scheduled to be connected to the management apparatus 100 from the conference room reservation server 700 may be notified, and the number of access points 300 activated by the management apparatus 100 according to the planned number may be limited. This eliminates the need to activate all the access points installed in the conference room, thereby reducing the power consumption of the wireless LAN system 1.

  In addition, during the conference, the sleep and activation switching control of the access point 300 according to the number of the wireless terminals 400 described in Embodiment 1 may be performed. Thereby, even if the wireless terminal 400 increases or decreases during the conference, more flexible power saving control can be realized by performing the activation / sleep processing of the access point 300 according to the increase / decrease.

  Furthermore, when the management apparatus 100 receives the activation request message i from the conference room reservation server 700 in S203, the access point 300 having a higher priority among the access points 300 covering the conference room, for example, the priority is 1 The activation request message d may be transmitted only to the access point 300. When the number of connections of the wireless terminal 400 increases after the start of the conference, a new wireless terminal 400 can be accommodated by activating the dormant access point 300 as in the first embodiment. The wireless LAN system 1 having an energy saving effect can be obtained.

  In addition, when receiving the sleep request message j received from the conference room reservation server 700 (S211), the management apparatus 100 transmits a sleep request message f to the access points 300-4 and 300-5 (S212). . However, when the management apparatus 100 detects that the number of wireless terminals connected to the access point 300-4 or 300-5 installed in the conference room becomes zero before receiving the sleep request message j, the management apparatus 100 The sleep request message f may be transmitted to an access point whose number of terminals has become zero. In this way, the power consumption of the wireless LAN system 1 can be further reduced.

  Further, here, it has been described that the activation and sleep of the conference room access point 300 are controlled using the conference room reservation server 700, but the attendance management system and the management device 100 are linked in place of the conference room reservation server 700. Then, using the work schedule of the user of the wireless terminal 400, the activation and sleep of the access point 300 in the user's room may be controlled. In this case, the same effect as the energy saving in the conference room can be obtained.

1 wireless LAN system, 100 management device, 200 wired LAN, 300 access point, 400 wireless terminal, 500 server, 600 WAN

Claims (12)

A wireless LAN management apparatus that connects to a plurality of wireless LAN base stations that perform wireless communication with a wireless terminal via a wired line and communicates with the wireless LAN base station,
A transmission / reception unit for transmitting / receiving a transmission signal via the wired line;
Based on the load of the first wireless LAN base station received by the transceiver, the wireless LAN base station has a wireless area that overlaps the wireless area of the first wireless LAN base station. Select the wireless LAN base station to be shifted to the active state, or select the wireless LAN base station to be shifted from the active state to the sleep state from the first wireless LAN base station or the second wireless LAN base station. Select
A control unit that causes the transceiver unit to transmit an instruction to shift to a startup state or a sleep state to the selected wireless LAN base station;
A wireless LAN management device.   The control unit according to claim 1, wherein when the load of the first wireless LAN base station exceeds a predetermined value, the control unit selects the wireless LAN base station to shift from a sleep state to an activated state. The wireless LAN management device described. Priorities are attached to the wireless LAN base stations,
The wireless LAN management device according to claim 2, wherein the control unit selects the wireless LAN base station to shift from a sleep state to an active state based on the priority.   The control unit according to claim 1, wherein when the load of the first wireless LAN base station falls below a predetermined value, the control unit selects the wireless LAN base station to be shifted from an activated state to a sleeping state. The wireless LAN management device described. Priorities are attached to the wireless LAN base stations,
5. The wireless LAN management device according to claim 4, wherein the control unit selects the wireless LAN base station to be shifted from a start state to a sleep state based on the priority.   When the wireless terminal is connected to the wireless LAN base station that shifts from a start state to a sleep state, the control unit moves the wireless terminal to another state before shifting the wireless LAN base station to a sleep state. The wireless LAN management apparatus according to claim 1, wherein the wireless LAN management apparatus is connected to the wireless LAN base station.   The wireless LAN management device according to any one of claims 1 to 6, wherein the load is the number of wireless terminals connected to the wireless LAN base station.   The wireless LAN management apparatus according to any one of claims 1 to 6, wherein the load is a communication amount of the wireless LAN base station.   The wireless LAN management device according to any one of claims 1 to 8, further comprising a plurality of communication interfaces for communication with the wireless LAN base station. A wireless LAN base station that is provided in plural so that wireless areas overlap each other and performs wireless communication with a wireless terminal and is connected to a wireless LAN management device via a wired line,
A transmission / reception unit for transmitting / receiving a transmission signal via the wired line;
A control unit that causes the transmission / reception unit to transmit information about a load to the wireless LAN management device, and that causes the wireless LAN management device to shift itself to a start state or a sleep state based on an instruction from the wireless LAN management device received by the transmission / reception unit; ,
A wireless LAN base station. A wireless LAN system including a plurality of wireless LAN base stations that are provided so that wireless areas overlap with each other and perform wireless communication with a wireless terminal, and a wireless LAN management device that communicates with the wireless LAN base station via a wired line There,
The wireless LAN base station is
A transmission / reception unit for transmitting / receiving a transmission signal to / from the wireless LAN management device via the wired line;
Based on an instruction from the wireless LAN management device received by the transmission / reception unit of the wireless LAN base station, the transmission / reception unit of the wireless LAN base station transmits information about the load to the wireless LAN management device. A control unit that shifts the computer to a start state or a sleep state;
With
The wireless LAN management device
A transmission / reception unit for transmitting / receiving a transmission signal to / from the wireless LAN base station via the wired line;
The second wireless LAN having a wireless area that overlaps with the wireless area of the first wireless LAN base station based on information on the load of the first wireless LAN base station received by the transceiver of the wireless LAN management device The wireless LAN base station to be shifted from the sleep state to the active state is selected from the base stations, or the active state is changed from the active state to the sleep state from the first wireless LAN base station or the second wireless LAN base station. Select the wireless LAN base station to be migrated,
A control unit that causes the transceiver unit of the wireless LAN management device to transmit an instruction to shift to an activated state or a sleep state to the selected wireless LAN base station;
A wireless LAN system comprising: A reservation server for receiving a reservation for use of a predetermined location and transmitting a request for shifting the wireless LAN base station covering the predetermined location to an activated state or a sleep state based on the reservation to the wireless LAN management device; Prepared,
Based on the request received from the reservation server, the control unit of the wireless LAN management device instructs the wireless LAN base station covering the predetermined location to enter an active state or a sleep state. The wireless LAN system according to claim 11, wherein the wireless LAN system is transmitted to the transmission / reception unit of a LAN management device.

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