CN114245400B - Cloud management platform system and method for dynamically managing users thereof - Google Patents

Abstract

The application provides a cloud management platform system and a method for dynamically managing users thereof. The method for dynamically managing the users by the cloud management platform system comprises the following steps: providing a user maintenance page for adding high-priority user data stored in a user database; receiving a user terminal identifier of an online terminal sent by wireless management equipment; searching a user database according to the user terminal identification of the online terminal; searching matched first high-priority user data in a user database based on the user terminal identification of the online terminal; and sending a user adding instruction for adding the high-priority user data to the wireless management equipment so that the wireless management equipment adds the high-priority user data in a high-priority user list maintained locally, and providing access service for the online terminal according to the priority class of the high-priority user data by the wireless management equipment.

Description

Cloud management platform system and method for dynamically managing users thereof

Technical Field

The application relates to a wireless technology, in particular to a cloud management platform system and a method for dynamically managing users thereof.

Background

WLAN (Wireless Local Area Network ) technology is one of the hot spots in the communication field today. The wireless local area network covers a local area network by placing Access Point (AP) equipment, and provides wireless Access service for a terminal of a user in the local area network. The user's terminal accesses the WLAN first by active/passive scanning, and after passing both authentication and association procedures, it can establish a connection with the AP.

Users or parts of users in a local area network in a WLAN are high priority users, and there is a need to provide a high priority channel, a higher message forwarding rate, and a high priority message receiving queue/message sending queue for the high priority users on an Access Control device (AC) or an AP that manages the high priority users.

To identify these high priority users, it is often necessary for network management personnel to manually configure the high priority user list at the AP and AC devices. However, the high priority users are dynamically changed, and the specifications of the AP and the AC devices for storing the high priority users are limited by the storage space, and when the specifications of the AP and the AC devices for storing the high priority users reach the maximum specifications, the network manager is required to manually modify the configuration information of the devices. In wireless local area networks with large traffic of hotels, airports and the like, the number of high-priority users in these scenes is severely limited due to the limitation of the specifications of the AP and the AC equipment and the limitation of manual configuration of gateway personnel.

Disclosure of Invention

The application aims to provide a cloud management platform system and a method for dynamically managing users thereof, which can dynamically manage high-priority users on management equipment for managing users in a wireless local area network.

In order to achieve the above object, the present application provides a method for dynamically managing users by a cloud management platform system, the method comprising: providing a user maintenance page for adding high-priority user data stored in a user database; receiving a user terminal identifier of an online terminal sent by wireless management equipment; searching a user database according to the user terminal identification of the online terminal; searching matched first high-priority user data in a user database based on the user terminal identification of the online terminal; and sending a user adding instruction for adding the first high-priority user data to the wireless management equipment so that the wireless management equipment adds the first high-priority user data in a high-priority user list maintained locally, and providing access service for the online terminal according to the priority class of the first high-priority user data by the wireless management equipment.

In order to achieve the above object, the present application further provides a cloud management platform system, which includes: a user interface module for providing a user maintenance page for adding high priority user data stored in the user database; a receiving module; receiving a user terminal identifier of an online terminal sent by wireless management equipment; the data maintenance module searches a user database according to the user terminal identification of the online terminal; searching matched first high-priority user data in a user database based on the user terminal identification of the online terminal; generating a user addition instruction for adding the first high-priority user data; and the sending module is used for sending a user adding instruction to the wireless management equipment.

The application has the beneficial effects that the list of the high-priority users maintained by the management equipment in the wireless local area networks can be dynamically increased or decreased by the specification limit of the management equipment such as the AC and the AP of the high-priority users in the wireless local area networks.

Drawings

FIG. 1 is a flowchart of an embodiment of a method for dynamically managing users by a cloud management platform system provided by the present application;

fig. 2 is a schematic diagram of an embodiment of a wireless network for dynamically managing users according to the present application;

fig. 3 is a schematic diagram of another embodiment of a wireless network for dynamically managing users according to the present application;

FIG. 4 is a schematic diagram of an embodiment of a cloud management platform for dynamically managing users in a wireless network.

Detailed Description

A plurality of examples shown in the drawings will be described in detail. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the application. Well-known methods, procedures, components and circuits have not been described in detail so as not to obscure the examples.

The term "comprising" as used in the terminology includes, but is not limited to; the term "comprising" means including but not limited to; the terms "above," "within," and "below" encompass the present number; the terms "greater than", "less than" mean that the number is not inclusive. The term "based on" means based at least in part on a portion thereof.

FIG. 1 is a flowchart of an embodiment of a method for dynamically managing users by a cloud management platform system provided by the present application; the method comprises the following steps:

step 101, providing a user maintenance page for adding high-priority user data stored in a user database;

step 102, receiving a user terminal identifier of an online terminal sent by a wireless management device;

step 103, searching a user database according to the user terminal identification of the online terminal;

step 104, searching matched high-priority user data in a user database based on the user terminal identification of the online terminal;

step 105, a user adding instruction for adding high-priority user data is sent to the wireless management device, so that the wireless management device adds the high-priority user data in a high-priority user list maintained locally, and provides access service for the online terminal according to the priority class of the high-priority user data.

The embodiment shown in fig. 1 has the beneficial effects that the cloud management platform system remotely controls the high-priority user lists managed by the AC and the AP in the wireless local area network, so that the specification number of the high-priority user services provided by the AC and the AP management devices is not limited by the storage space of the devices, and the high-priority user lists maintained by the management devices in the wireless local area network are dynamically increased or decreased.

Fig. 2 is a schematic diagram of an embodiment of a wireless network for dynamically managing users according to the present application;

the AC20 device configures an IP address or domain name of the cloud management platform system. The addresses of the cloud management platform systems built in the AC devices can enable all the AC devices to be automatically connected to the cloud management platform systems after being started, and human intervention is not needed.

In the network configuration of the AP21-AP23 equipment, a default VLAN interface applies for an IP address by adopting a DHCP client, and the AP21-AP23 equipment applies for the IP address according to the address of the set gateway equipment and can start to establish TCP connection with a cloud management platform system.

The cloud management platform system supports providing user maintenance web pages, and a user data maintainer adds high-priority user data stored in a user database by accessing the user maintenance web pages. The user database connected by the cloud management platform system can be accessed into a data storage system of the cloud management platform system or a database of a service provider of a high priority user.

Terminals T24, T25, T26 are online, and AC20 sends detailed information of each terminal to the cloud management platform system through a TCP connection. The detailed information of each terminal transmitted by the AC20 includes at least: user terminal identification, AP to which the terminal is connected; and an access Radio frequency (Radio) for the terminal to access the AP. In the present application, the user terminal identifier may include: terminal MAC address, IP address, user name, IP address, terminal type, terminal fingerprint identification information.

The cloud management platform system queries a user database according to the user terminal identifiers of the terminals T24, T25 and T26, the high-priority user data of the terminal T24 is queried, and the priority level information of the high-priority user data is a first-level VIP; the high priority user data of the terminal T26 is queried and the priority level information of the high priority user data is the second VIP.

The cloud management platform system transmits the high priority user data of each of the terminal T24 and the terminal T26 to the AC20.

The AC20 receives the high-priority user data of the terminal T24 and the terminal T26, and records the AP21 in a high-priority AP list according to the first-level VIP priority level of the high-priority user data of the terminal T24; respectively recording a terminal T24 and a corresponding first-level priority thereof in a high-priority user list; the recording terminal T26 and its corresponding secondary priority.

AC20 transmits the high priority user data of each of terminals T24 and T26 to AP21 and AP23, respectively. The AP21 records the terminal T24 and its corresponding primary priority in the local high-priority user list, respectively. The AP23 records the terminal T26 and its corresponding secondary priority in a local high priority user list.

The AP21 provides the highest priority service such as bandwidth of the highest priority level, content of the message buffer, etc. for the first priority level of the terminal T24 according to the high priority user list.

The AP23 provides secondary priority services such as bandwidth of secondary priority level, content of message buffer, and the like according to the secondary priority level of the high priority user list terminal T26.

AC20 provides higher priority service guarantees such as higher priority, larger message buffer content, priority allocation channel bandwidth, etc. for AP21 than AP22, AP23 according to the high priority AP list.

When the terminal T24 is offline, the AC20 transmits the offline time of the terminal T24 and the user terminal identification to the cloud management platform system. The cloud management platform system searches the high-priority user data identified by the user terminal of the terminal T24 in the user database, deletes the high-priority user data of the terminal T24 and deletes the user deleting instruction of the AP21 from the AC20, so that the high-priority user data of the terminal T24 is deleted in a high-priority user list locally maintained by the AC20, the AP21 is deleted in the local high-priority user list, and the storage resource for storing the high-priority user data of the terminal T24 is released.

The example shown in fig. 2 has the beneficial effects that the cloud management platform system remotely controls the high-priority user list managed by the AC and the AP in the wireless local area network, so that the specification number of the high-priority user services provided by the AC and the AP management devices is not limited by the storage space of the devices, and the high-priority user list maintained by the management devices in the wireless local area network is dynamically increased or decreased. Aiming at users with large-scale different-place operation places such as chain hotels, chain shops and airlines, the users need to provide wireless network access service for the clients at the operation places of different places, and based on the application, the users can more flexibly maintain the service requirements of the high-priority clients accessing the wireless network, and the maintenance mode is more flexible.

Fig. 3 is a schematic diagram of another embodiment of a wireless network for dynamically managing users according to the present application.

The APs 31-33 configure the IP address or domain name of the cloud management platform system. The addresses of the cloud management platform systems built in the AP equipment can enable each AP equipment to be automatically connected to the cloud management platform system after being started, and human intervention is not needed.

In the network configuration of the AP31-33, the default VLAN interface applies for an IP address by using a DHCP client, and the user may apply for an IP address only by placing the AP device under a certain gateway device, and may initiate a TCP connection with the cloud management system.

In the network configuration of the AP31-AP33 device, a default VLAN interface applies for an IP address by adopting a DHCP client, and the AP31-AP33 device applies for the IP address according to the address of the set gateway device and can start to establish TCP connection with the cloud management platform system.

The cloud management platform system supports providing user maintenance web pages, and a user data maintainer adds high-priority user data stored in a user database by accessing the user maintenance web pages. The user database connected by the cloud management platform system can be accessed into a data storage system of the cloud management platform system or a database of a service provider of a high priority user.

Terminals T34 and T35, terminal T36, and terminal T37 are each on-line. The AP31, the AP32, and the AP33 transmit detailed information of each terminal to the cloud management platform system through a TCP connection. The detailed information of each terminal transmitted by each AP includes at least: user terminal identification, AP to which the terminal is connected; and the access radio frequency of the terminal accessing the AP. The user terminal identification of the terminals T34-T37 may comprise: terminal MAC address, IP address, user name, IP address, terminal type, terminal fingerprint identification information.

And the cloud management platform system queries a user database according to the user terminal identifications of the terminals T34-T37, and queries the high-priority user data of the terminal T34.

The cloud management platform system sends the high-priority user data of the terminal T34 to the AP31, the AP31 receives the high-priority user data of the terminal T34, and records the terminal T34 in a local high-priority user list.

The AP31 provides the highest priority service such as bandwidth with high priority level, content of the message buffer, etc. to the terminal T34 according to the high priority user list.

When the terminal T34 is disconnected, the AP31 transmits the disconnection time of the terminal T34 and the user terminal identification to the cloud management platform system. The cloud management platform system searches the user database for the high-priority user data identified by the user terminal of the terminal T34, and deletes the user deletion instruction of the high-priority user data of the terminal T24 from the AP31, so that the high-priority user data of the terminal T24 is deleted from the high-priority user list maintained locally by the AP31, and the storage resource is released.

FIG. 4 is a schematic diagram of an embodiment of a cloud management platform system for dynamically managing users in a wireless network. As shown in fig. 4, the cloud management platform system includes a user interface module, a receiving module, a data maintenance module, and a transmitting module.

A user interface module for providing a user maintenance page for adding high priority user data stored in the user database; a receiving module; receiving a user terminal identifier of an online terminal sent by wireless management equipment; the data maintenance module searches a user database according to the user terminal identification of the online terminal; searching matched first high-priority user data in a user database based on the user terminal identification of the online terminal; generating a user addition instruction for adding the first high-priority user data; and the sending module is used for sending a user adding instruction to the wireless management equipment. The user terminal identification at least comprises a terminal MAC address, an IP address, a user name, an IP address, a terminal type and terminal fingerprint identification information.

The receiving module is also used for receiving the user terminal identification and the offline time of the offline terminal sent by the wireless management equipment; the data maintenance module searches the user database for second high-priority user data containing the user terminal identification of the offline terminal; generating a user deletion instruction for deleting the searched second high-priority user data; and the sending module is used for sending a deleting user deleting instruction to the wireless management equipment.

The receiving module is used for receiving the user terminal identification of the online terminal and the user terminal identification and the offline time of the offline terminal from the access control equipment serving as the wireless management equipment; the sending module is used for sending a user adding instruction and a user deleting instruction to the access control equipment; the priority class of the user adding instruction generated by the data maintenance module for adding the first high-priority user data can also instruct the access control equipment to add the access point equipment of the online terminal in the high-priority access point list maintained locally; the user deletion instruction generated by the data maintenance module to delete the priority class of the second high priority user data may further instruct the access control device to delete the access point device to which the offline terminal is added from the high priority access point list maintained locally.

The receiving module is used for receiving the user terminal identification of the online terminal and the user terminal identification and the offline time of the offline terminal from the access point equipment serving as the wireless management equipment; the sending module is used for sending a user adding instruction and a user deleting instruction to the access point equipment.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the application.

Claims (10)

1. A method for dynamically managing users by a cloud management platform system, the method comprising:

providing a user maintenance page for adding high-priority user data stored in a user database;

receiving a user terminal identifier of an online terminal sent by wireless management equipment;

searching the user database according to the user terminal identification of the online terminal;

searching matched first high-priority user data in the user database based on the user terminal identification of the online terminal;

and sending a user adding instruction for adding the first high-priority user data to the wireless management equipment so that the wireless management equipment adds the first high-priority user data in a high-priority user list maintained locally, and providing access service for the online terminal according to the priority class of the first high-priority user data.

2. The method according to claim 1, wherein the method further comprises:

receiving a user terminal identifier and offline time of an offline terminal sent by wireless management equipment;

searching second high-priority user data containing user terminal identification of the off-line terminal in the user database;

and sending a user deleting instruction for deleting the searched second high-priority user data to the wireless management equipment, so that the wireless management equipment deletes the second high-priority user data in a high-priority user list maintained locally, and releases storage resources of the second high-priority user data.

3. The method of claim 2, wherein the wireless management device is an access control device;

the priority class of the user adding instruction sent to the access control device for adding the first high-priority user data also indicates the access control device to add the access point device of the online terminal in a high-priority access point list maintained locally;

the priority class of the user deleting instruction sent to the access control device for deleting the second high-priority user data also indicates that the access control device deletes the access point device added with the offline terminal from the high-priority access point list maintained locally.

4. The method of claim 2, wherein the wireless management device is an access control device.

5. The method of claim 1, wherein the user terminal identification comprises at least a terminal MAC address, an IP address, a user name, a terminal type, and terminal fingerprint identification information.

6. A cloud management platform system, the system comprising:

a user interface module for providing a user maintenance page for adding high priority user data stored in the user database;

a receiving module; receiving a user terminal identifier of an online terminal sent by wireless management equipment;

the data maintenance module searches the user database according to the user terminal identification of the online terminal; searching matched first high-priority user data in the user database based on the user terminal identification of the online terminal; generating a user addition instruction for adding the first high-priority user data;

and the sending module is used for sending the user adding instruction to the wireless management equipment.

7. The system of claim 6, wherein the system further comprises:

the receiving module is further used for receiving a user terminal identifier and offline time of the offline terminal sent by the wireless management equipment;

the data maintenance module searches the user database for second high-priority user data containing the user terminal identification of the offline terminal; generating a user deletion instruction for deleting the searched second high-priority user data;

and the sending module is used for sending the user deletion deleting instruction to the wireless management equipment.

8. The system of claim 7, wherein the system further comprises a controller configured to control the controller,

the receiving module is used for receiving the user terminal identifier of the online terminal, the user terminal identifier of the offline terminal and the offline time from an access control device serving as the wireless management device;

the sending module is used for sending the user adding instruction and the user deleting instruction to the access control equipment;

the priority class of the user adding instruction generated by the data maintenance module, which is used for adding the first high-priority user data, also indicates the access control equipment to add the access point equipment of the online terminal in a high-priority access point list maintained locally;

the user deleting instruction generated by the data maintenance module is used for deleting the priority class of the second high-priority user data and also indicates the access control equipment to delete the access point equipment added with the offline terminal from the high-priority access point list maintained locally.

9. The system of claim 7, wherein the receiving module is configured to receive a user terminal identification of the online terminal and a user terminal identification of the offline terminal and a time of offline from an access point device that is the wireless management device;

the sending module is used for sending the user adding instruction and the user deleting instruction to the access point equipment.

10. The system of claim 6, wherein the user terminal identification comprises at least a terminal MAC address, an IP address, a user name, a terminal type, and terminal fingerprint identification information.