JP2014212497A - Access point for controlling upper limit connection number of subordinate stations according to communication quality with host station, program and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an access point for controlling connection of subordinate stations according to communication quality with a host station, a program, and a method.SOLUTION: An access point which connects with a host station via a first radio link, and connects with a subordinate station via a second radio link, comprises: connection number management means which manages the current connection number of subordinate stations currently connecting and the upper limit connection number of the subordinate stations that can be connected; first communication quality measurement means which measures first communication quality with the host station via the first radio link; upper limit connection number update means which updates the upper limit connection number according to the first communication quality; and connection restriction control means which controls connection disapproval or disconnection of the subordinate station according to the current connection number for the upper limit connection number.

Description

  The present invention relates to a technique of an access point that restricts connection from a terminal via a wireless local area network (LAN).

  FIG. 1 is a system configuration diagram in which an access point is arranged between a terminal and an access network.

  With the spread of broadband in mobile environments and the expansion of the use of various applications, general-purpose and inexpensive access points for wireless LANs have become widespread. According to FIG. 1, a plurality of terminals 3 can communicate with the access point 1 via a wireless LAN. The terminal 3 can recognize the existence of the access point 1 by receiving a beacon signal periodically (for example, 100 ms) distributed from the access point 1.

  Each access point 1 is connected to an edge device (for example, a base station) 2 of the access network via a wireless backhaul network. The backhaul side network (WAN (Wide Area Network)) may be WiMAX (Worldwide Interoperability for Microwave Access), 3G (3rd Generation), or LTE (Long Term Evolution).

  The edge device 2 that connects the backhaul side network connects to the Internet via the access network of the communication carrier. The terminal 3 can access the server 4 via the access network and the Internet via the access point 1 and the edge device 2.

  According to the prior art, there is a technique in which an access point monitors a communication band currently in use in a wireless LAN, and restricts connection from a terminal when the communication band exceeds a predetermined threshold (for example, Patent Documents). 1). According to this technology, when the access point cannot sufficiently secure the communication band of the wireless LAN, the access point suppresses a connection response to the connection request via the wireless LAN or transmits a forced disconnection request to a predetermined number of terminals. To do.

  In addition, when the communication band currently being used in the wireless LAN exceeds a predetermined threshold, the access point intermittently transmits a communication frame including an error to the terminal that is the weakest communication radio wave among the communicating terminals. There is a technique (see, for example, Patent Document 2). According to this technology, the terminal is caused to determine that the communication radio wave condition has deteriorated. Thereby, the terminal can switch the access point of the communication partner by the roaming function.

JP 2008-11068 A JP 2009-118321 A

  According to the system of FIG. 1, as viewed from the access point, the wireless section is provided not only on the terminal side network but also on the backhaul side network. For this reason, the deterioration in communication quality in the backhaul network also affects the throughput in the terminal. That is, even if the communication quality of the wireless LAN is always stable, if the communication quality of the backhaul network becomes unstable, there is a problem that sufficient throughput cannot be obtained in the terminal.

  According to the techniques described in Patent Documents 1 and 2, the number of terminals that can be connected is limited by the communication quality of the wireless LAN, but the communication quality of the backhaul side network is not considered at all.

  In addition, the terminal is not limited to a wireless LAN, and many terminals have various communication interfaces such as 3G, LTE, and WiMAX. In other words, when the communication quality of the backhaul network at the access point connected by the wireless LAN is deteriorated when viewed from the terminal, other communication interfaces such as 3G are used without intentionally continuing the communication by the wireless LAN. It is preferable to connect. A terminal can immediately switch to another communication interface such as 3G by receiving a connection rejection or disconnection request from the access point 1 of the wireless LAN. That is, by distributing the communication network from the terminals, it is possible to improve the perceived speed of the user who operates the terminals. On the other hand, it is preferable to communicate with a terminal that is continuing wireless LAN communication with as high a throughput as possible.

  Accordingly, an object of the present invention is to provide an access point, a program, and a method for controlling connection of a lower station according to communication quality with respect to an upper station.

According to the present invention, in the access point that connects to the upper station via the first radio link and connects to the lower station via the second radio link,
Connection number management means for managing the current number of connections of the subordinate stations currently connected and the upper limit number of connectable subordinate stations;
First communication quality measuring means for measuring the first communication quality via the first wireless link to the upper station;
A connection upper limit number updating means for updating the connection upper limit number according to the first communication quality;
It has a connection restriction control means for controlling connection disapproval or disconnection with respect to a lower station according to the current number of connections with respect to the connection upper limit number.

According to another embodiment of the access point of the present invention,
It is also preferable that the connection restriction control means controls connection disapproval or disconnection to a lower station so that the current connection number is equal to or less than the connection upper limit number.

According to another embodiment of the access point of the present invention,
The connection number management means manages the connection upper limit number as a new connection upper limit number,
When the connection limit control means receives a connection request from a lower-level station via the second wireless link when the current number of connections is equal to or greater than the new connection upper-limit number, the connection-restricted control means shall reject the connection to the lower-level station. Is also preferable.

According to another embodiment of the access point of the present invention,
The connection number management means manages the connection upper limit number as the maintenance connection upper limit number,
The connection restriction control means selects a lower station based on a predetermined condition from the lower stations that are currently connected when the current number of connections is greater than the upper limit number of maintenance connections, and issues a disconnection request to the lower station. It is also preferable to transmit.

According to another embodiment of the access point of the present invention,
The connection number management means divides and manages the connection upper limit number into a new connection upper limit number and a maintenance connection upper limit number (new connection upper limit number ≦ sustained connection upper limit number),
The connection restriction control means
When the current connection number is equal to or greater than the new connection upper limit number, when a connection request is received from the lower station via the second wireless link, the connection is not permitted to the lower station,
When the current number of connections is greater than the maximum number of maintenance connections, it is also preferable to select a lower station based on a predetermined condition from among the currently connected lower stations and transmit a disconnection request to the lower station.

According to another embodiment of the access point of the present invention,
A second communication quality measuring means for measuring the second communication quality via the second wireless link for each subordinate station;
It is also preferable that the connection restriction control means selects, as a predetermined condition, the subordinate stations that are currently connected in order from the subordinate station having the second lowest communication quality.

According to another embodiment of the access point of the present invention,
The second communication quality is no communication time,
It is also preferable that the connection restriction control means selects the subordinate stations that are currently connected in order from the subordinate station having the long no communication time.

According to another embodiment of the access point of the present invention,
The communication quality measuring means measures RSSI (Received Signal Strength Indication / Indicator) and / or CINR (Carrier to Interference and Noise Ratio) as communication quality,
It is also preferable that the connection upper limit number updating unit updates the connection upper limit number so that the RSSI and / or CINR is lower.

According to another embodiment of the access point of the present invention,
The first wireless link is WiMAX (Worldwide Interoperability for Microwave Access), 3G (3rd Generation) or LTE (Long Term Evolution),
The second wireless link is preferably a wireless local area network (LAN).

According to the present invention, in a program for causing a computer mounted on an access point connected to an upper station via a first radio link and connected to a lower station via a second radio link to function. ,
Connection number management means for managing the current number of connections of the subordinate stations currently connected and the upper limit number of connectable subordinate stations;
First communication quality measuring means for measuring the first communication quality via the first wireless link to the upper station;
A connection upper limit number updating means for updating the connection upper limit number according to the first communication quality;
The computer is caused to function as connection restriction control means for controlling connection disapproval or disconnection with respect to a lower station according to the current number of connections with respect to the connection upper limit number.

According to the present invention, in the access point connection restriction control method for connecting to the upper station via the first radio link and connecting to the lower station via the second radio link,
It manages the current number of subordinate stations currently connected and the maximum number of connectable subordinate stations.
A first step of measuring a first communication quality via a first radio link to a higher-level station;
A second step of updating the connection upper limit number according to the first communication quality;
And a third step for controlling connection disapproval or disconnection to a lower station according to the current number of connections with respect to the upper limit number of connections.

  Therefore, according to the access point, program, and method of the present invention, the upper limit number of connections of the lower stations can be controlled according to the communication quality for the upper stations.

It is a system configuration diagram in which an access point is arranged between a terminal and an access network. It is a function block diagram of the access point in this invention. It is explanatory drawing showing the change of the connection upper limit number in the connection upper limit number update part in this invention. It is explanatory drawing showing the measurement result in the communication quality measurement part in this invention. It is a sequence diagram in which connection is restricted by the new connection upper limit number in the present invention. It is a sequence diagram in which connection is limited by the number of maintenance connections in the present invention. It is explanatory drawing showing the service system to which this invention is applied.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 2 is a functional block diagram of an access point in the present invention.

  According to FIG. 2, the access point 1 is connected to the upper station (base station) via the first radio link and is connected to the lower station (terminal) via the second radio link. . The first wireless link may be, for example, WiMAX, 3G, or LTE (backhaul side network), and the second wireless link may be, for example, a wireless LAN (terminal side network). Further, the lower station is not limited to a terminal, and may be a mobile router that relays data.

  2 includes a connection number management unit 10, a backhaul side communication interface 11 including a first communication quality measurement unit 110, a terminal side communication interface 12 including a second communication quality measurement unit 120, A connection upper limit number updating unit 13 and a connection limit control unit 14 are provided. These functional components other than the communication interface may be realized by executing a program that causes a computer mounted on the access point to function. Further, the processing flow of these functional components can be understood as an access point connection restriction control method.

[Number of connections manager 10]
The number-of-connections management unit 10 manages the “current number of connections” of the lower stations currently connected and the “upper limit number of connections” of the connectable lower stations. According to the standard, the access point can connect up to 253 terminals by wireless LAN. However, communication quality deteriorates due to interference, and the maximum number of connections that can be used is about 30. For this purpose, the maximum connection upper limit number is set to, for example, “30”.

In addition, according to the present invention, the upper limit number of connections may be divided into “new connection upper limit number” and “maintenance connection upper limit number” (new connection upper limit number ≦ sustained connection upper limit number).
The “new connection upper limit number” means the upper limit number that should be restricted by not permitting connection in response to a new connection request from a terminal via a wireless LAN.
The “maintenance connection upper limit number” means an upper limit number that should be restricted even if a terminal currently connected via the wireless LAN is disconnected.

[First communication quality measuring unit 110]
The first communication quality measurement unit 110 measures the first communication quality via the backhaul network (for example, WiMAX serving as the first wireless link) for the base station (higher station). Here, the first communication quality may be RSSI (Received Signal Strength Indication / Indicator) and / or CINR (Carrier to Interference and Noise Ratio). RSSI is the received signal strength. Generally, the longer the distance, the weaker the RSSI. CINR is a carrier level-to-interference noise ratio, and represents the influence of other interference noises around the carrier wave. The measured first communication quality is output to the connection upper limit number updating unit 13.

[Second communication quality measuring unit 120]
The second communication quality measuring unit 120 measures the second communication quality via the wireless LAN (second wireless link) for each terminal (lower station). Here, the second communication quality may be “no communication time” for each MAC (Media Access Control) address. Conversely, it may be “connection time”. Further, it may further include the total communication data amount and the communication data amount for the latest one minute. The measured second communication quality is output to the connection restriction control unit 14.

[Upper Connection Number Update Unit 13]
The connection upper limit number updating unit 13 updates the connection upper limit number according to the first communication quality. That is, as the first communication quality is better, the upper limit number of connections is increased. Conversely, as the first communication quality is degraded, the upper limit number of connections is decreased. When the first communication quality is RSSI and / or CINR, the connection upper limit number updating unit 13 increases the connection upper limit number as the RSSI and / or CINR is higher, and conversely, the RSSI and / or CINR is greater. The lower the number, the lower the number of connections.

  FIG. 3 is an explanatory diagram illustrating a change in the connection upper limit number in the connection upper limit number updating unit.

According to FIG. 3, the “new connection upper limit number” (thick solid line) and the “maintenance connection upper limit number” (thick broken line) on the wireless LAN side are represented according to the communication quality of the backhaul side network.
(1) As the communication quality of the backhaul network becomes better, the “new connection upper limit number” and the “maintenance connection upper limit number” increase, and the number of connections of terminals on the wireless LAN side increases.
(2) As the communication quality of the backhaul side network deteriorates, the “new connection upper limit number” and the “maintenance connection upper limit number” decrease, and the number of connections of terminals on the wireless LAN side is limited.

According to FIG. 3, the communication quality of the backhaul side network is classified into levels A (good) to D (poor).
(Level A (good)) New connection upper limit = 30 units, maintenance connection upper limit number = 30 units (level B (quasi-good)) New connection upper limit number = 20 units, maintenance connection upper limit number = 30 units (level A (quasi Inferior)) New connection upper limit = 10 units, maintenance connection upper limit number = 20 units (level A (bad)) New connection upper limit number = 0, maintenance connection upper limit number = 10 units Here, new connection upper limit number and maintenance connection The reason for providing a difference (specifically, 10 units) to the upper limit is to prevent the forced disconnection and the new connection from being repeated when the signal quality on the backhaul side changes frequently. is there.

  FIG. 4 is an explanatory diagram showing a measurement result in the communication quality measuring unit in the present invention.

  The first communication quality measurement unit 110 in FIG. 4 measures RSSI (dBm) and CINR (dB), and the communication quality levels A to D of the backhaul side network are determined based on the measurement results. The better the both RSSI and CINR, the higher the level A, and vice versa.

The second communication quality measurement unit 120 in FIG. 4 measures “no communication time”, “connection time”, “total communication data amount”, and “communication data amount for the last minute” for each MAC address. . Here, among a plurality of terminals connected via a wireless LAN, the predetermined condition is used for selecting in order from terminals that are not actively communicating.
A terminal with a longer “no communication time” means that user data has not been transmitted or received, or that the terminal has moved to a distance where it cannot communicate with the wireless LAN.
A terminal with a longer “connection time” means that the time has passed since the terminal was connected. A terminal with a smaller “total communication data amount” or “communication data amount for the last minute” communicates more actively. It can be judged that it is not. For example, when there are a plurality of terminals with the longest non-communication time, the terminal with the smallest communication amount for the latest one minute is selected.

  According to FIG. 4, when attention is paid to the no-communication time, the terminal of [aa: bb: cc: aa: bb: 22] is the terminal candidate to which a disconnection request should be transmitted first.

[Connection restriction control unit 14]
The connection restriction control unit 14 controls connection disapproval or disconnection to the terminal so that the current number of connections of the terminal (lower station) connected via the wireless LAN (first wireless link) is equal to or less than the upper limit number of connections. To do. Here, when the connection upper limit number is the new connection upper limit number / maintenance connection upper limit number, the control is performed as follows (see FIG. 3 described above).
(1) When the current number of connections is equal to or greater than the “new connection upper limit number”, when a connection request is received from a terminal via a wireless LAN, the terminal is not permitted to connect.
(2) When the current number of connections is greater than the “maintenance connection upper limit number”, a terminal is selected from currently connected terminals based on a predetermined condition, and a disconnection request is transmitted to the terminal (authentication) May be canceled). Here, as the predetermined condition, the terminal with the second lowest communication quality is selected in order from the currently connected terminal (subordinate station) (see FIG. 4 described above).

As a supplement, “controlling connection disapproval or disconnection to lower stations so that the current number of connections is less than or equal to the upper limit number of connections” means the following control.
When the current connection number> the connection upper limit number, connection is not permitted and disconnection control is performed.
When the current number of connections = the maximum number of connections, connection is not permitted and disconnection control is not performed.
When the number of current connections <the upper limit of connections, connection is not permitted and disconnection control is not performed.
That is, “when the current connection number is equal to or greater than the new connection upper limit number, the connection is not permitted for the lower station” means the following control.
If current connection number> new connection upper limit number, connection is not permitted.
If the current number of connections = the number of new connections, the connection is not permitted.
If the current number of connections is less than the maximum number of new connections, connection is not permitted.
On the other hand, “when the current connection number is larger than the maintenance connection upper limit number, the disconnection control is performed for the lower station” means the following control.
When current connection number> maintenance connection upper limit number, disconnection control is performed.
When the current number of connections = the number of sustain connections, the disconnection control is not performed.
When the number of current connections is less than the upper limit of maintenance connections, disconnection control is not performed.

  FIG. 5 is a sequence diagram in which connection is limited by the new connection upper limit number in the present invention.

(S11) First, a first wireless link is established between the access point 1 and the edge device 2 via the backhaul network. The first communication quality is assumed to be relatively “good”.
(S12) The terminal 3 transmits a probe request to the access point 1 via the wireless LAN.
(S13) The access point 1 determines whether or not the current number of connections via the wireless LAN is equal to or greater than the new connection upper limit number.
(S14) If the access point 1 is determined to be false in S13, the access point 1 returns a probe response to the terminal 3 to permit the connection.
(S15) An authentication and association request and response are transmitted and received between the terminal 3 and the access point 1, and a second wireless link is established via the wireless LAN.

(S21) After S14, it is assumed that the first communication quality in the first radio link of the backhaul network between the access point 1 and the edge device 2 is relatively “degraded”.
(S22) At this time, the access point 1 updates so as to reduce the upper limit number of new connections (see FIG. 3 described above).
(S23) Thereafter, the terminal 3 transmits a probe request to the access point 1 via the wireless LAN.
(S24) The access point 1 determines whether or not the current number of connections through the wireless LAN is equal to or greater than the new connection upper limit number.
(S25) If the access point 1 is determined to be true by S24, the access point 1 does not return a probe response to the terminal 3 so as to disallow the connection. As a result, the access point 1 restricts newly connected terminals.
(S26) After that, after transmitting the probe request in S23, the terminal 3 recognizes that the connection is not permitted from the access point 1 due to a timeout, and transmits a connection request to another 3G network, for example. Can do.

  FIG. 6 is a sequence diagram in which the connection is limited by the maximum number of maintenance connections in the present invention.

(S31) First, a first wireless link is established between the access point 1 and the edge device 2 via the backhaul network. The first communication quality is assumed to be relatively “good”.
(S32) The access point 1 determines whether or not the current number of connections via the wireless LAN is greater than the maximum number of maintenance connections. Here, it is determined to be false, and no processing is executed.

(S41) It is assumed that the first communication quality in the backhaul network of the access point 1 is relatively “degraded”.
(S42) At this time, the access point 1 updates so as to decrease the new connection upper limit number and the maintenance connection upper limit number (see FIG. 3 described above).
(S43) Next, the access point 1 determines whether or not the current number of connections via the wireless LAN is greater than the maximum number of maintenance connections.
(S44) If the access point 1 is determined to be true in S43, the access point 1 selects one or more terminals to be disconnected (see FIG. 4 described above).
(S45) The access point 1 transmits a disconnection (deauthorization) request to the terminal 3 selected in S44.
(S46) On the other hand, the terminal that has received the disconnection request transmits an authentication request to the access point 1 again. However, the access point 1 does not send back an authentication response.
(S47) Thereafter, the terminal can recognize that the connection is not permitted from the access point 1 due to a timeout, and can transmit a connection request to another 3G network, for example.

  FIG. 7 is an explanatory diagram showing a service system to which the present invention is applied.

  According to FIG. 7, the access point 1 is installed in the vehicle. Further, in the vehicle, a large number of terminals 3 operated by the user can be connected to the access point 1 via the wireless LAN. The access point 1 is connected to an external base station as a backhaul network. Therefore, even if the communication quality between the access point 1 and the terminal 3 is relatively good, the communication quality of the backhaul side network of the access point 1 deteriorates depending on the traveling position of the vehicle.

  In particular, when a vehicle such as a train arrives at a station and a large number of passengers get off, a large number of terminals 3 remain connected without being disconnected from the access point 1. Often becomes. For this reason, the access point 1 tries to maintain a radio link of a terminal that does not exist under its control, and generates a communication frame in vain. Such processing wastes the communication band of the wireless LAN and decreases the throughput in other terminals.

  On the other hand, according to the present invention, when the communication quality of the backhaul side network of the access point 1 deteriorates, the access point 1 A new connection is not permitted to the terminal 3 and / or a disconnection request is transmitted to the terminal 3 having a predetermined condition. As a result, the terminals 3 can immediately switch to another communication interface such as 3G. That is, by distributing the communication network from the terminals, it is possible to improve the perceived speed of the user who operates the terminals. On the other hand, it is possible to perform communication with a throughput as high as possible to a terminal that is continuing wireless LAN communication.

  As described above in detail, according to the access point, program, and method of the present invention, it is possible to control the upper limit number of connections of the lower stations according to the communication quality for the upper stations.

  Various changes, modifications, and omissions of the above-described various embodiments of the present invention can be easily made by those skilled in the art. The above description is merely an example, and is not intended to be restrictive. The invention is limited only as defined in the following claims and the equivalents thereto.

DESCRIPTION OF SYMBOLS 1 Access point 10 Connection number management part 11 Backhaul side communication interface 110 1st communication quality measurement part 12 Terminal side communication interface 120 2nd communication quality measurement part 13 Connection upper limit number update part 14 Connection restriction control part 2 Edge device, Base station 3 terminal 4 server 5 cellular base station

Claims (11)

In the access point that connects to the upper station via the first wireless link and connects to the lower station via the second wireless link,
Connection number management means for managing the current number of connections of the subordinate stations currently connected and the upper limit number of connectable subordinate stations;
First communication quality measuring means for measuring first communication quality via a first wireless link to the upper station;
Connection upper limit number updating means for updating the connection upper limit number in accordance with the first communication quality;
An access point comprising connection restriction control means for controlling connection disapproval or disconnection with respect to the lower station according to the current connection number with respect to the connection upper limit number. 2. The access point according to claim 1, wherein the connection restriction control unit controls connection disapproval or disconnection with respect to the lower station so that the current connection number is equal to or less than the connection upper limit number. The connection number management means manages the connection upper limit number as a new connection upper limit number,
The connection restriction control means, when the current connection number is equal to or greater than the new connection upper limit number, when a connection request is received from a lower station via the second wireless link, connection is not permitted to the lower station. The access point according to claim 2, wherein: The connection number management means manages the connection upper limit number as a maintenance connection upper limit number,
The connection restriction control means selects a lower station based on a predetermined condition from subordinate stations that are currently connected when the number of current connections is greater than the upper limit number of maintenance connections, and The access point according to claim 2, wherein a disconnection request is transmitted. The connection number managing means divides and manages the connection upper limit number into a new connection upper limit number and a maintenance connection upper limit number (new connection upper limit number ≦ sustained connection upper limit number),
The connection restriction control means includes
When the current connection number is equal to or greater than the new connection upper limit number, when a connection request is received from a lower station via the second wireless link, connection is not permitted to the lower station,
When the number of current connections is greater than the maximum number of maintenance connections, a lower station is selected from the currently connected lower stations based on a predetermined condition, and a disconnection request is transmitted to the lower stations. The access point according to claim 1, wherein: A second communication quality measuring means for measuring the second communication quality via the second wireless link for each subordinate station;
The access point according to claim 4 or 5, wherein the connection restriction control means selects, as the predetermined condition, the subordinate stations that are currently connected, in order from the subordinate station having the second lowest communication quality. . The second communication quality is no communication time,
7. The access point according to claim 6, wherein the connection restriction control means selects the subordinate stations that are currently connected in order from the subordinate station having the long no communication time. The communication quality measuring means measures RSSI (Received Signal Strength Indication / Indicator) and / or CINR (Carrier to Interference and Noise Ratio) as communication quality,
The access point according to any one of claims 1 to 7, wherein the connection upper limit number updating unit updates the connection upper limit number so that the RSSI and / or CINR is lower. The first wireless link is WiMAX (Worldwide Interoperability for Microwave Access), 3G (3rd Generation) or LTE (Long Term Evolution),
The access point according to any one of claims 1 to 8, wherein the second wireless link is a wireless local area network (LAN). In a program for functioning a computer mounted on an access point connected to an upper station via a first wireless link and connected to a lower station via a second wireless link,
Connection number management means for managing the current number of connections of the subordinate stations currently connected and the upper limit number of connectable subordinate stations;
First communication quality measuring means for measuring first communication quality via a first wireless link to the upper station;
Connection upper limit number updating means for updating the connection upper limit number in accordance with the first communication quality;
A program for an access point, which causes a computer to function as connection restriction control means for controlling connection disapproval or disconnection to the lower station according to the number of current connections with respect to the connection upper limit number. In the access point connection restriction control method for connecting to the upper station via the first wireless link and connecting to the lower station via the second wireless link,
It manages the current number of subordinate stations currently connected and the maximum number of connectable subordinate stations.
A first step of measuring a first communication quality via a first radio link to the upper station;
A second step of updating the connection upper limit number according to the first communication quality;
And a third step of controlling connection disapproval or disconnection with respect to the lower station according to the current connection number with respect to the connection upper limit number.

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