WO2018113196A1 - Management method and system for distributed wireless access device system - Google Patents

Abstract

Disclosed is a management method for a distributed wireless access device system, comprising the following steps: S20, each wireless access slave device and a wireless access master device generate respective node linked lists respectively according to a bridging relationship between a plurality of wireless access slave devices and the wireless access master device and a data transmission direction; S30, the wireless access slave devices and/or the wireless access master device enter a dormant state when no signal for connection is available within preset time; and S40, the wireless access slave devices and/or the wireless access master device in the dormant state is waked up according to the node linked lists when a signal for connection is received. According to the present invention, wireless access slave devices and a wireless access master device are utilized reasonably; the service lives of the wireless access slave devices and the wireless access master device are prolonged; power resources are saved effectively; and the normal use of a user is not affected.

Description

Management method and system for distributed wireless access device system Technical field

The invention belongs to the technical field of wireless networks, and in particular relates to a management method and system for a distributed wireless access device system.

Background technique

The distributed wireless access device system is composed of a plurality of wireless access devices (wireless routers or wireless APs), so that wireless routers or wireless APs are bridged by wireless. After turning on the WDS function on the wireless router, let it extend the extended wireless signal to cover a wider and wider range.

At present, all wireless access devices in a distributed wireless access device system are always in a working state regardless of whether or not a mobile terminal accesses the distributed wireless access device system; thereby shortening the use of the distributed wireless access device system Life, and very wasteful power resources.

Summary of the invention

The technical solution provided by the present invention is as follows:

The present invention provides a method for managing a distributed wireless access device system, including the following steps: S20, according to a bridging relationship between a plurality of wireless access slave devices and a wireless access master device, and a data transmission direction, each The wireless access slave device and the wireless access master device respectively generate respective node link lists; S30, when the connectionless use signal is used within a preset time, the wireless access slave device and/or the wireless access master device enters a sleep state. S40: Upon receiving the connection use signal, wake up the wireless access slave device and/or the wireless access master device in the dormant state according to the node link list.

Further, the node list in the step S20 includes an uplink node and a plurality of downlink nodes, the uplink node includes a radio access master device or a radio access slave device, and the downlink node includes a radio access slave device.

Further, the step S40 further includes: S41, when receiving the connection use signal, Wake up the wireless access slave device or the wireless access master device that receives the connection use signal; S42, after waking up the wireless access slave device that receives the connection use signal, wake up the uplink node in the node list of the wireless access slave device S43, determining whether the uplink node is a wireless access master device; S44, when the uplink node is a wireless access master device, ending the wake-up process; S45, when the uplink node is a wireless access slave device, After waking up the uplink node in the node list of the wireless access slave device corresponding to the uplink node, the process proceeds to step S43.

Further, the step S40 further includes: S46: waking up the downlink node in the node list of the wireless access slave device when the mobile terminal moves to the downlink node in the node list of the wireless access slave device.

Further, before the step S20, the method further includes: S10, according to a plurality of wireless network signals scanned by the wireless access slave device, the wireless standby access device network is connected to the wireless access master device and/or Wireless access to the slave device.

Further, the step S10 further includes: S11, comparing network signal strengths of the plurality of wireless network signals according to the plurality of wireless network signals scanned by the wireless device to be accessed, and obtaining network signals of the plurality of wireless network signals The wireless network signal with the strongest strength; S12, the wireless access master device and/or the wireless access slave device corresponding to the wireless network signal with the strongest network signal strength; the wireless standby access device network is connected to the wireless device Access to the master device and/or wireless access slave device.

Further, before the step S20, the method further includes: S13, setting the network name of the wireless access master device and the wireless access slave device to be the same network name.

The present invention also provides a distributed wireless access device system, comprising: a linked list generating module, configured to perform a bridging relationship between a plurality of wireless access slave devices and a wireless access master device, and a data transmission direction, each The wireless access slave device and the wireless access master device respectively generate respective corresponding node linked lists; and the sleep control module is configured to: when the connectionless use signal is used within a preset time, the wireless access slave device and/or the wireless access master The device enters a sleep state; the wake-up control module is configured to wake up the wireless access slave device and/or the wireless access master device in the dormant state according to the node link list when receiving the connection use signal.

Further, the method further includes: the wake-up control module, when receiving the connection use signal, Wake up the wireless access slave device or the wireless access master device that receives the connection use signal; the wake-up control module is further configured to wake up the wireless access slave device after waking up the wireless access slave device that receives the connection use signal An uplink node in the upper node list; a determining module, configured to determine whether the uplink node is a wireless access master device; and the wake-up control module is configured to end the wake-up process when the uplink node is a wireless access master device The awake control module is further configured to wake up an uplink node in a node list of the wireless access slave device corresponding to the uplink node when the uplink node is a wireless access slave device.

Further, the waking control module is further configured to wake up the downlink node in the node list of the wireless access slave device when the mobile terminal moves to the downlink node in the node list of the wireless access slave device.

Compared with the prior art, the method and system for managing a distributed wireless access device system provided by the present invention have the following beneficial effects:

1) In the present invention, when no signal is used for connection within a preset time, the wireless access slave device and the wireless access master device enter a sleep state, so that the wireless access slave device and the wireless access master device can be reasonably utilized, and the wireless is extended. The service life of accessing the slave device and the wireless access master device; also effectively saving power resources without affecting the normal use of the user.

2) In the present invention, when the mobile terminal accesses a certain wireless access slave device or a wireless access master device, the wireless access slave device and the wireless access slave device are all awake to all devices of the wireless access master device. Or wake up the wireless access master device; there is no need to wake up the wireless access slave device in the entire system, thereby selectively waking up the wireless access device corresponding to the node on a certain link, and ensuring that the mobile terminal can access the Internet.

3) In the present invention, when the mobile terminal moves to the downlink node on a certain link, since the uplink node of the link has been woken up, the Internet can be successfully accessed; only the wireless access slave device corresponding to the downlink node needs to be awake, and the mobile terminal The terminal can access the Internet.

4) In the present invention, the wireless access slave scans a plurality of wireless network signals, and accesses the wireless access slave device or the wireless access master device with the strongest wireless network signal; thereby ensuring that the mobile terminal can smoothly access the Internet.

DRAWINGS

The above described features, technical features, advantages and implementations of a distributed wireless access device system management method and system will be further described below in a clear and understandable manner with reference to the accompanying drawings.

1 is a schematic flow chart of a method for managing a distributed wireless access device system according to the present invention;

2 is a partial flow chart of a method for managing a distributed wireless access device system according to the present invention;

3 is a schematic flow chart of another method for managing a distributed wireless access device system according to the present invention;

4 is a schematic structural diagram of a wireless access device according to the present invention;

FIG. 5 is a schematic structural diagram of another distributed wireless access device system according to the present invention.

Description of the reference numerals:

10. Comparison module, 20, network connection module, 30, setting module, 40, linked list generation module; 50, sleep control module, 60, judgment module, 70, wake-up control module.

detailed description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the specific embodiments of the present invention will be described below with reference to the accompanying drawings. Obviously, the drawings in the following description are only some embodiments of the present invention, and those skilled in the art can obtain other drawings according to the drawings without obtaining creative labor, and obtain Other embodiments.

In order to simplify the drawings, only the parts related to the present invention are schematically shown in the drawings, and they do not represent the actual structure of the product. In addition, in order to make the drawings simple and easy to understand, components having the same structure or function in some of the figures are only schematically illustrated, or only one of them is marked. In the present context, "a" means not only "only one" but also "more than one".

As shown in FIG. 1 , according to an embodiment of the present invention, a method for managing a distributed wireless access device system includes the following steps: S20, according to multiple wireless access slave devices (primary routers) and one wireless access The bridging relationship between the master device (slave router) and the data transmission direction (data is transmitted from the master router to the slave router), and each wireless access slave device (slave router) and the wireless access master device (primary router) are respectively generated. Corresponding node linked list; the node linked list includes an uplink node and a plurality of downlink nodes, and the uplink node includes a wireless access master device (primary router) or a wireless access slave device (a slave router), and the downlink node includes Wireless connection Into the slave device (from the router).

S30. When there is no connection use signal within a preset time (for example, 20 minutes, 30 minutes, etc.), the wireless access slave device (slave router) and/or the wireless access master device (main router) enter a sleep state; The connection use signal includes a connection request signal, a wake-up signal, a data transmission signal, and the like. When the wireless access slave (slave router) and/or the wireless access master (primary router) are in a sleep state, only the wake-up signal (connection request) sent by the mobile terminal or the wireless access slave (slave) is received. Signal); functions such as data transmission cannot be realized.

S40. When receiving the connection use signal, wake up the wireless access slave device (slave router) and/or the wireless access master device (main router) in the dormant state according to the node link list.

Specifically, when the wireless access device is a router, a router is selected as the primary router, and the remaining routers are used as the secondary routers; the plurality of secondary routers and one primary router form a distributed wireless access device system, for example: 5 slave routers and 1 The primary routers form a distributed wireless access device system, as shown in Figure 5. Each slave router and the master router respectively generate respective node linked lists. For example, the node linked list on its primary router is shown in Table 1; the node linked list on Router 2 is shown in Table 2.

Table 1

Uplink node 1	no
Downlink node 1	From router 1
Downlink node 2	From router 2
Downlink node 3	From router 4

When the data transmission direction is that the primary router transmits to the secondary router, for the primary router, the secondary router from the router 1, the secondary router 2, and the secondary router 4 are the downstream nodes, and the upstream node of the primary router is no longer the router, and the upstream node of the primary router is not. Will be in a dormant state.

Table 2

Uplink node 1	Main route
Downlink node 1	From router 3

When the data transmission direction is the direction in which the master router transmits to the slave router 2 and from the router 2 to the slave router 3, for the slave router 2, the master router is the uplink node, and the slave router 3 is the downlink node.

As shown in FIG. 3, according to another embodiment of the present invention, a distributed wireless access device The management method of the system includes the following steps: Preferably, the method includes: S10, multiple wireless network signals scanned according to the wireless access slave device (to be connected from the router), the wireless standby access device (to be connected to the router) The network is connected to the wireless access master (primary router) and/or the wireless access slave (slave router).

S20. According to a bridging relationship between multiple radio access slave devices (primary routers) and one radio access master device (slave router), and a data transmission direction (data is transmitted from the main router to the slave router), each wireless connection The inbound and outbound devices (from the router) and the wireless access master device (the main router) respectively generate respective corresponding node linked lists; the node linked list includes an uplink node and a plurality of downlink nodes, and the uplink node includes a wireless access master device ( The primary router) or the wireless access slave (slave router), the downlink node includes a wireless access slave (slave router).

S30. When there is no connection use signal within a preset time (for example, 20 minutes, 30 minutes, etc.), the wireless access slave device (slave router) and/or the wireless access master device (main router) enter a sleep state; The connection use signal includes a connection request signal, a data transmission signal, and the like. When the wireless access slave (slave router) and/or the wireless access master (primary router) are in a sleep state, only receive a connection request signal or wake up from the mobile terminal or the wireless access slave (from the router) Signal; functions such as data transmission cannot be realized.

S41. When the wireless access slave device (slave router) is in a sleep state, after receiving the connection use signal, wake up the wireless access slave device (slave router) or the wireless access master device (the master router) that receives the connection use signal. );

S42. After waking up the wireless access slave device that receives the connection use signal, wake up the uplink node in the node list of the wireless access slave device (slave router);

S43. Determine whether the uplink node is a wireless access master device.

S44. When the uplink node is a wireless access master device (main router), ending the wake-up process;

S45. When the uplink node is a radio access slave (slave router), wake up the uplink node in the node list of the radio access slave corresponding to the uplink node, and then go to step S43.

S46. When the mobile terminal goes to the wireless access slave (slave router) node chain When the downlink node in the table moves, the downlink node in the node list of the wireless access slave (slave router) is woken up.

Specifically, when the mobile terminal accesses the primary router, the primary router is in a dormant state, and the connection request signal sent when the mobile terminal connects to the primary router wakes up the primary router in a dormant state; the mobile terminal can access the Internet.

When the mobile terminal accesses the slave router 3, when the slave router 2 and the slave router 3 are in the dormant state, the connection request signal or wake-up signal sent by the mobile terminal when connecting from the router 3 wakes up the slave router 3; and the slave router 3 wake-up signal sent by the uplink node, wake up the upstream node of the slave router 3 (slave router 2); since the upstream node of the slave router 3 is not the master router, the wake-up signal sent from the router 2 to the uplink node wakes up from the router 2 The uplink node (primary router); because the uplink node of the slave router 2 is the master router, the wake-up process is ended; the mobile terminal can access the Internet.

When the mobile terminal moves from the primary router to the next row node (from the router 1 or from the router 2 or from the router 4), when the mobile terminal receives the network signal sent by the primary router and weakens to a preset value, the primary router sends a wake-up signal. Wake up all downstream nodes (from router 1 or slave router 2 or slave router 4); or, when the master router moves to the next row node (from router 4), the network signal sent by the mobile terminal to the primary router is weakened to a preset value. When the mobile terminal receives the network signal sent from the router 4 gradually increasing, when the mobile terminal accesses the slave router 4, the connection request signal or the wake-up signal sent to the slave router 4 wakes up the slave router 4.

As shown in FIG. 2 and FIG. 3, according to still another embodiment of the present invention, a method for managing a distributed wireless access device system includes the following steps: S10. According to a wireless standby access device (to be connected to a router) Scanning a plurality of wireless network signals, the wireless standby access slave (to be connected to the router) network is connected to the wireless access master (primary router) and/or the wireless access slave (slave).

Preferably, S11, comparing network signal strengths of multiple wireless network signals according to multiple wireless network signals scanned by the wireless access slave device (to be connected from the router), and obtaining network signals in multiple wireless network signals The strongest wireless network signal;

S12. A wireless access master device (primary router) and/or a wireless access slave device (a slave router) corresponding to a wireless network signal with the strongest network signal strength; the wireless standby slave device (to be connected to a router) The network is connected to the wireless access master (primary router) and/or the wireless access slave (slave router).

S13. Set a network name of the wireless access master (primary router) and a wireless access slave (slave router) to be the same network name.

S20. According to a bridging relationship between multiple radio access slave devices (primary routers) and one radio access master device (slave router), and a data transmission direction (data is transmitted from the main router to the slave router), each wireless connection The inbound and outbound devices (from the router) and the wireless access master device (the main router) respectively generate respective corresponding node linked lists; the node linked list includes an uplink node and a plurality of downlink nodes, and the uplink node includes a wireless access master device ( The primary router) or the wireless access slave (slave router), the downlink node includes a wireless access slave (slave router).

S30. When there is no connection use signal within a preset time (for example, 20 minutes, 30 minutes, etc.), the wireless access slave device (slave router) and/or the wireless access master device (main router) enter a sleep state; The connection use signal includes a connection request signal, a wake-up signal, a data transmission signal, and the like. When the wireless access slave (slave router) and/or the wireless access master (primary router) are in a sleep state, only receive a connection request signal or wake up from the mobile terminal or the wireless access slave (from the router) Signal; functions such as data transmission cannot be realized.

S41. When the wireless access slave device (slave router) is in a sleep state, after receiving the connection use signal, wake up the wireless access slave device (slave router) or the wireless access master device (the master router) that receives the connection use signal. );

S42. After waking up the wireless access slave device that receives the connection use signal, wake up the uplink node in the node list of the wireless access slave device (slave router);

S43. Determine whether the uplink node is a wireless access master device.

S44. When the uplink node is a wireless access master device (main router), ending the wake-up process;

S45. When the uplink node is a radio access slave device (a slave router), wake up the uplink node in the node list of the radio access slave device corresponding to the uplink node, and then jump to the step. S43.

S46. When the mobile terminal moves to a downlink node in a node list of the wireless access slave (slave router), wake up the downlink node in the node list of the wireless access slave (slave router).

Specifically, the networking of the distributed wireless access device system arranges multiple wireless access devices (routers) in various places according to the geographical environment, and needs to ensure that each wireless access device (router) has an uplink when arranged. A node, which can have multiple downstream nodes, can form a path to access the Internet. Select a router as the primary router, the remaining routers as slave routers; multiple wireless network signals scanned from the router, and connect to the strongest slave network wireless network signal, the strength and distance of the wireless network signal, external factors (such as walls) And so on. The network name on the primary router and multiple secondary routers can be set to the same network name or different network names. When the network name is different, the connected network name is automatically switched during the mobile terminal movement.

As shown in FIG. 4, according to an embodiment of the present invention, a distributed wireless access device system includes: a network connection module 20, configured to scan according to a wireless access slave device (to be connected from a router) Wireless network signals, the wireless standby access slave (to be connected to the router) network is connected to the wireless access master (primary router) and/or the wireless access slave (slave router).

Preferably, the comparing module 10 is configured to compare network signal strengths of multiple wireless network signals according to the plurality of wireless network signals scanned by the wireless access device (to be connected to the router), and obtain multiple wireless signals. a wireless network signal with the strongest network signal strength in the network signal;

Preferably, the network connection module 20 is configured to: the wireless access master device (primary router) and/or the wireless access slave device (slave router) corresponding to the wireless network signal with the strongest network signal strength; the wireless standby The incoming and outgoing devices (to be connected from the router) are connected to the wireless access master (primary router) and/or the wireless access slave (slave router).

The setting module 30 is configured to set the network name of the wireless access master (primary router) and the wireless access slave (slave router) to be the same network name.

a linked list generating module 40, configured to use a plurality of wireless access slave devices (primary routers) Bridging relationship between wireless access masters (slave routers) and data transmission direction (data is transmitted from the primary router to the secondary router), each wireless access slave (slave router), wireless access master (main The routers respectively generate respective corresponding node linked lists; the node linked list includes an uplink node and a plurality of downlink nodes, and the uplink node includes a wireless access master device (primary router) or a wireless access slave device (a slave router), The downlink node includes a wireless access slave (slave router).

The sleep control module 50 is configured to: when there is no connection use signal within a preset time (for example, 20 minutes, 30 minutes, etc.), the wireless access slave device (from the router) and/or the wireless access master device (main router) Entering a sleep state; the connection use signal includes a connection request signal, a wake-up signal, a data transmission signal, and the like. When the wireless access slave (slave router) and/or the wireless access master (primary router) are in a sleep state, only receive a connection request signal or wake up from the mobile terminal or the wireless access slave (from the router) Signal; functions such as data transmission cannot be realized.

The wake-up control module 70 is configured to wake up the wireless access slave device (slave router) or the wireless access that receives the connection use signal after receiving the connection use signal when the wireless access slave device (slave router) is in the sleep state. Master device (primary router);

The awake control module 70 is further configured to wake up an uplink node in a node list of the wireless access slave device (slave router) after waking up the wireless access slave device that receives the connection use signal;

The determining module 60 is configured to determine whether the uplink node is a wireless access master device;

The wake-up control module 70 is further configured to: when the uplink node is a wireless access master device (main router), end the wake-up process;

The awake control module 70 is further configured to wake up an uplink node in a node list of the wireless access slave device corresponding to the uplink node when the uplink node is a wireless access slave device (a slave router).

The awake control module 70 is further configured to wake up the wireless access slave (slave router) when the mobile terminal moves to a downlink node in a node list on the wireless access slave (slave router) The downstream node in the node list.

According to an embodiment of the present invention, a method for managing a distributed wireless access device system includes the steps of: setting a wireless master route and a network name of all wireless slave routes when the wireless route is formed into a distributed wireless system For the same name, the wireless slave route will scan the signal strength of the wireless network, determine the distance from the route through the signal strength, and connect with the route with the strongest signal strength, and determine the wireless router device closest to itself to connect with it to form a Uninterrupted network.

Each level of routing generates a node linked list according to the data transmission direction and the bridging relationship. The dashed line represents the current slave signal strength match, and the slave route is closest to the nearest slave bridge. At this point, the primary route will generate a routing node list as shown in Table 1. Similarly, from Routes 1 to 5, such a routing node list is generated.

When the slave route has no connection for a specified period of time, the slave route goes to sleep, and the slave route will not turn on the wireless signal to reduce system power consumption.

After the route is awakened, each node in the uplink will be woken up in turn; the downlink node wakes up as needed.

When the mobile terminal is accessed by the slave routing node, the mobile terminal will wake up the secondary route, and the secondary route will wake up to the primary route through the routing node linked list, and the path becomes a path. The mobile terminal starts to access and use from route 3. The mobile terminal wakes up from route 3, wakes up route 2 from route 3, and wakes up the main route from route 2 to ensure smooth communication between the mobile terminal and the main route.

When the mobile terminal moves from the primary route to the secondary routing node, the method of gradually waking up the downstream secondary route will be adopted. When the signal of the current connection from the route detection to the mobile terminal is reduced to a value, the secondary route wakes up the downlink for the terminal. connection. For example, the mobile terminal moves from the primary route to the secondary route 5, when moving to the slave route 4 attachment, the primary route will wake up from the route 4 for the terminal connection, and when the mobile terminal continues to move past the route 4 to the slave route 5, the route 4 will Wake up from route 5 for terminal connection.

When the mobile terminal approaches the slave route 1, it is connected to the slave route 1. When the mobile terminal moves to the location close to the master route and moves to the slave track 2, in this process, the mobile terminal switches to connect with the master route, and when it is close to the slave route 2, the mobile terminal Will be connected from route 2. The mobile terminal always judges the signal strength of the route and connects to the route with the strongest signal.

When each slave route is disconnected for a certain period of time, such as 30 minutes, etc., the slave route The CPU will put the slave route into sleep state. The sleep state only receives the wake-up signal but does not connect to any terminal.

Assume that all the routes are in the dormant state at this time, (1) when the mobile terminal is used by the access from the route 5, the mobile terminal wakes up from the route 5, and then wakes up from the route 5 to the uplink node from the route 4, and the route 4 wakes up the uplink. The primary route of the node. Until the main route wakes up. (2) When the mobile terminal is accessed by the primary route, the secondary route will only wake up the primary route;

The mobile terminal accesses from the route 4, at which time the primary route and the secondary route are awakened. When the mobile terminal approaches the primary route, the mobile terminal will connect to the primary route, and the secondary route is still dormant; when the mobile terminal is facing the slave When route 5 moves, route 4 will wake up from route 5 and the mobile terminal will connect with slave route 5.

Signals at all levels use signal detection to determine the uplink-downlink routing relationship, establish a routing node linked list for distributed networking, and facilitate wake-up when the system is dormant. The wake-up mechanism uses the uplink wake-up to the primary route, and the downlink wakes up according to the need to save power without affecting. use.

The routing node is established from the route with the signal strength to determine the distance and is connected to the network, so as to judge the moving direction of the mobile terminal and perform the wake-up operation by the signal strength. According to the routing node list, wake up as needed to save the system power consumption and save power.

It should be noted that the above embodiments can be freely combined as needed. The above description is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Claims (10)

1. A method for managing a distributed wireless access device system, comprising the steps of:

   S20. According to a bridging relationship between a plurality of radio access slave devices and a radio access master device, and a data transmission direction, each radio access slave device and the radio access master device respectively generate respective node link lists.

   S30. When no signal is used for connection within a preset time, the wireless access slave device and/or the wireless access master device enter a sleep state.

   S40. When receiving the connection use signal, wake up the wireless access slave device and/or the wireless access master device in the dormant state according to the node link list.
2. The method for managing a distributed wireless access device system according to claim 1, wherein:

   The node list in the step S20 includes an uplink node and a plurality of downlink nodes, the uplink node includes a radio access master device or a radio access slave device, and the downlink node includes a radio access slave device.
3. The method for managing a distributed wireless access device system according to claim 2, wherein the step S40 further comprises:

   S41. When receiving the connection use signal, wake up the wireless access slave device or the wireless access master device that receives the connection use signal;

   S42. After waking up the wireless access slave device that receives the connection use signal, waking up the uplink node in the node list of the wireless access slave device;

   S43. Determine whether the uplink node is a wireless access master device.

   S44. When the uplink node is a wireless access master device, ending the wakeup process;

   S45. When the uplink node is a radio access slave device, wake up the uplink node in the node list of the radio access slave device corresponding to the uplink node, and then go to step S43.
4. The method for managing a distributed wireless access device system according to claim 3, wherein the step S40 further comprises:

   S46. When the mobile terminal moves to the downlink node in the node list of the wireless access slave device, wake up the downlink node in the node list of the wireless access slave device.
5. The method for managing a distributed wireless access device system according to claim 1, wherein before the step S20, the method further comprises:

   S10. The wireless to-be-accessed slave device network is connected to the wireless access master device and/or the wireless access slave device according to multiple wireless network signals that are to be accessed by the wireless device.
6. The method for managing a distributed wireless access device system according to claim 5, wherein the step S10 further comprises:

   S11. Compare, according to the plurality of wireless network signals scanned by the wireless access device, the network signal strengths of the plurality of wireless network signals, and obtain a wireless network signal with the strongest network signal strength among the plurality of wireless network signals;

   S12. A wireless access master device and/or a wireless access slave device corresponding to a wireless network signal with strongest network signal strength; the wireless standby access device network connected to the wireless access master device and/or wireless Access to the slave device.
7. The method for managing a distributed wireless access device system according to any one of claims 1 to 6, further comprising: before the step S20, further comprising:

   S13. Set the network name of the wireless access master device and the wireless access slave device to be the same network name.
8. A distributed wireless access device system for a method for managing a distributed wireless access device system according to any one of claims 1 to 7, characterized in that it comprises:

   a linked list generating module, configured to: according to a bridging relationship between a plurality of wireless access slave devices and a wireless access master device, and a data transmission direction, each wireless access slave device, wireless connection The ingress master device generates respective corresponding node linked lists;

   a sleep control module, configured to enter a sleep state when the wireless access master device and/or the wireless access master device are used when no signal is used for connection within a preset time;

   The wake-up control module is configured to wake up the wireless access slave device and/or the wireless access master device in the dormant state according to the node link list when receiving the connection use signal.
9. The distributed wireless access device system of claim 8 further comprising:

   The wake-up control module is configured to wake up a wireless access slave device or a wireless access master device that receives the connection use signal when receiving the connection use signal;

   The awake control module is further configured to wake up an uplink node in a node list of the wireless access slave device after waking up the wireless access slave device that receives the connection use signal;

   a determining module, configured to determine whether the uplink node is a wireless access master device;

   The wake-up control module is configured to end the wake-up process when the uplink node is a wireless access master device;

   The awake control module is further configured to: when the uplink node is a radio access slave device, wake up an uplink node in a node list of the radio access slave device corresponding to the uplink node.
10. The distributed wireless access device system of claim 9 wherein:

    The awake control module is further configured to wake up the downlink node in the node list of the wireless access slave device when the mobile terminal moves to the downlink node in the node list of the wireless access slave device.

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