CN111132160B - Route management method, terminal access method and wireless access system - Google Patents

Abstract

The invention discloses a route management method, a terminal access method and a wireless access system, wherein the method comprises the following steps: and sending an identification frame containing the network allocation information in the form of a broadcast packet, after receiving and analyzing the identification frame, sending a request frame containing the access information, after receiving the request frame by a router and analyzing and confirming, sending a reply frame containing the network allocation information, and after receiving the reply frame and analyzing to obtain the network allocation information, connecting the network by the terminal. The invention is suitable for the scene of simultaneously matching a plurality of terminals without complex operation, introduces a mechanism for user confirmation at the routing end, is convenient for the user to manage the equipment, and can prevent illegal terminals from accessing the network.

Description

Route management method, terminal access method and wireless access system

Technical Field

The present invention relates to the field of communications, and in particular, to a route management method, a terminal access method, and a wireless access system.

Background

At present, in the field of intelligent home, various Wi-Fi terminals need to be connected to a network through a route. The Wi-Fi terminal products in the market have various distribution network modes, such as SmartConfig, softAP, sound wave and Bluetooth distribution networks, which are the main stream methods for accessing wireless terminals in the market, and have certain requirements on wireless terminals and/or routing equipment, so that extremely high learning cost is brought to users, and the users are not benefited. For example: softAP distribution network: after the terminal is used as a hot spot and the mobile phone is connected, configuration information of a route is obtained and sent to the terminal, the terminal disconnects the hot spot and switches to the STA to carry out connection route, the mode only supports one-to-one configuration, and the operation is complex and the learning cost is high; bluetooth distribution network: the method is an emerging network distribution mode, and requires the wireless terminal to support both Bluetooth and Wi-Fi, so that the cost of the equipment is high; while the method only supports one-to-one configuration.

Therefore, a route management method capable of unifying terminal network distribution modes and reducing complexity is required to be provided.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, the invention provides a route management method which can unify the terminal network distribution mode and reduce the complexity.

The invention also provides a management device.

The invention also provides a terminal access method.

The invention further provides the terminal equipment.

The invention also provides a wireless access system.

In a first aspect, the present invention adopts a technical scheme that is a route management method, including: transmitting an identification frame containing the network-configurable information; receiving a request frame for decoding the identification frame; analyzing the access information carried by the request frame, and sending a confirmation connection request according to the access information; and receiving feedback information for confirming the connection request, and sending a reply frame according to the feedback information.

Preferably, the manner of sending the confirmation connection request includes: and displaying the confirmation connection request through the route and/or pushing the confirmation connection request to the user terminal through the network.

Preferably, the access information includes: the MAC address of the terminal.

Preferably, the reply frame includes the routed distribution network information.

In a second aspect, the present invention adopts a technical scheme that a management device includes:

a transmitting unit: the method comprises the steps of sending an identification frame containing configurable network information;

a receiving unit: a request frame for receiving a decoding identification frame;

confirming the connection unit: the method comprises the steps of analyzing access information carried by a request frame, and sending a confirmation connection request according to the access information;

and a recovery unit: and the device is used for receiving feedback information for confirming the connection request and sending a reply frame according to the feedback information.

Preferably, the confirmation connection unit comprises an analysis unit and a pushing unit;

the analyzing unit is used for analyzing the access information carried by the request frame;

and the pushing unit is used for sending a confirmation connection request according to the access information.

In a third aspect, the present invention adopts a technical scheme that a terminal access method includes:

receiving an identification frame containing network allocation information;

decoding an identification frame containing the network-configurable information;

transmitting a request frame containing access information;

receiving the reply frame and analyzing the reply frame to obtain distribution network information;

the distribution network information comprises: and the terminal carries out route connection according to the connection password or refusal information.

In a fourth aspect, the present invention adopts a technical scheme that a terminal device includes:

a second receiving unit: receiving an identification frame containing the distribution network information and receiving a reply frame containing the distribution network information;

decoding unit: analyzing an identification frame containing the distribution network information and a reply frame containing the distribution network information;

a second transmitting unit: a request frame containing access information is sent.

In a fifth aspect, the present invention adopts a technical scheme that is a wireless access system, including: a routing module, a terminal module and a confirmation module;

the routing module sends an identification frame containing the network-configurable information;

the terminal receives and decodes the identification frame and sends a request frame;

the routing module analyzes the access information carried by the request frame and sends a confirmation connection request to the confirmation module according to the access information;

the routing module receives the feedback information of the confirmation module and sends a reply frame to the terminal according to the feedback information;

and the terminal receives and analyzes the reply frame to obtain the distribution network information.

Preferably, the confirmation module comprises the display means of the routing module and/or the user terminal.

The beneficial effects of the invention are as follows:

the invention provides a route management method, which is characterized by sending a frame containing network allocation information, receiving a request frame of a decoding frame, analyzing access information carried by the request frame, sending a confirmation connection request according to the access information, receiving feedback information for confirming the connection request, and sending a reply frame according to the feedback information. The method overcomes the defects of the existing network distribution mode, can simplify and unify the network distribution mode of the terminal, introduces the process of confirming the connection, is convenient for managing the wireless terminal equipment, and ensures the safety.

Drawings

FIG. 1 is a flow chart of an embodiment of a route management method according to an embodiment of the present invention;

FIG. 2 is a flow chart of an embodiment of a method for terminal access in an embodiment of the present invention;

fig. 3 is a block diagram illustrating a radio access system according to an embodiment of the present invention.

Detailed Description

The conception and the technical effects produced by the present invention will be clearly and completely described in conjunction with the embodiments below to fully understand the objects, features and effects of the present invention. It is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present invention based on the embodiments of the present invention.

It is noted that, unless otherwise indicated, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any combination of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used in embodiments to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element of the same type from another. The use of any and all examples, or exemplary language (e.g., "such as") provided herein, is intended merely to better illuminate embodiments of the invention and does not pose a limitation on the scope of the invention unless otherwise claimed.

Embodiment one:

fig. 1 is a flowchart of a specific embodiment of a route management method according to an embodiment of the present invention, for route management of a terminal connection, as shown in fig. 1, the method includes the following steps:

s102: transmitting an identification frame containing the network-configurable information;

s104: receiving a request frame for decoding the identification frame;

s106: analyzing the access information carried by the request frame, and sending a confirmation connection request according to the access information;

s108: and receiving feedback information for confirming the connection request, and sending a reply frame according to the feedback information.

In step S102 of this embodiment, the identifier may select a Beacon (management) frame, and the specific configurable network information is an identifier information, for example, indicating: "the network information can be obtained from the Beacon frame", which is simply referred to as network information.

Further, in this embodiment, the terminal may wait for receiving the identification frame by transmitting the identification frame in a broadcast manner, and the terminal in the broadcast range receives and decodes the identification frame to obtain the network-configurable information, and generates the request frame in step S104 according to the network-configurable requirement of the terminal.

In step S104, the Request frame sent by the receiving terminal may be, for example, a Probe Request frame, where the Request frame includes access information of the terminal, which indicates that the terminal requests the distribution network. The access information in this embodiment includes: the MAC address of the terminal or the like may be used as information of the terminal unique identification code.

After receiving the request frame, in step S106, the route analyzes the access information carried in the request frame, and sends a connection confirmation request according to the access information, where the manner of sending the connection confirmation request includes: and displaying the confirmation connection request through the route and/or pushing the confirmation connection request to the user terminal through the network. For example, the confirmation connection request is sent to a display device of the routing device and/or sent to the user device through a network, and the user feeds back the confirmation connection request according to the display device or the user device to obtain feedback information, for example, the user device may be a terminal APP or the like.

In step S108, the router sends a reply frame to the corresponding terminal according to the feedback information of the user, where the reply frame includes the network configuration information of the router, for example, a reply Probe Response frame may be selected as the reply frame, and the network configuration information is an access password of the router, so that the terminal analyzes and performs route connection; if the feedback information is refusing the connection of the terminal, a reply frame is sent, but the reply frame contains refusing connection information, and after the terminal analyzes the refusing connection information, the terminal does not send a connection request any more.

Embodiment two:

the present embodiment provides a management apparatus for performing the route management method as in the first embodiment.

As shown in fig. 3, the routing module 100 is a block diagram of the management apparatus of the present embodiment, and the management apparatus includes: a transmitting unit 110, a receiving unit 120, an acknowledgement connecting unit 130 and a reply unit 140.

The transmitting unit 110: the method comprises the steps of sending an identification frame containing network allocation information and waiting for a terminal to receive;

the receiving unit 120: the terminal is used for receiving a request frame sent by the terminal after decoding the identification frame;

the confirmation connection unit 130: the method comprises the steps of analyzing access information carried by a request frame sent by a terminal, and pushing and confirming a connection request to a route display module and/or a user terminal through a network according to the access information;

the recovery unit 140: and the device is used for receiving the feedback information after the request is confirmed by the route display device and/or the user terminal, and sending a reply frame to the terminal according to the feedback information.

The specific details of the management device in the foregoing are described in detail in the route management method corresponding to the first embodiment, so that they will not be described in detail herein.

Embodiment III:

fig. 2 is a flowchart of a specific embodiment of a terminal access method according to an embodiment of the present invention, for a terminal to route a connection, as shown in fig. 2, the method includes the following steps:

s202: receiving an identification frame containing network allocation information;

s204: decoding an identification frame containing the network-configurable information;

s206: transmitting a request frame containing access information;

s208: and receiving the reply frame and analyzing to obtain the distribution network information.

In step S202, the identification frame may select a Beacon frame, and the specific configurable network information is an identification information, for example, the identification information indicates: "the network information can be obtained from the Beacon frame", which is simply referred to as network information.

Further, in this embodiment, the terminal may receive an identification frame including the network-configurable information, which is sent in a broadcast form by the route, and the terminal receives the identification frame within the broadcast range of the route.

In step S204, the terminal decodes the received identification frame containing the network allocation capable information to obtain the network allocation capable information, and generates the request frame in step S206 according to the network allocation requirement of the terminal.

In step S206, the Request frame may select a Probe Request frame, and the specific access information is an identification information, which indicates unique identifier information of the terminal identity, and in this embodiment may be specifically a Mac address of the terminal. The terminal sends a request frame to the route, wherein the request frame carries access information of the terminal, namely Mac address of the terminal, which indicates that the terminal requests the distribution network. After the route receives the request frame, the access information is obtained after analysis and is pushed to the route display device and/or the user terminal through the network to carry out terminal identification and confirmation.

In step S208, the terminal receives the reply frame sent by the route and parses the network configuration information contained in the reply frame, so that the route is connected or no access is requested.

Further, if the terminal does not receive the reply frame sent by the route within a certain period of time, it returns to step S206, i.e. resends the request frame containing the access information. And, the time limit may be set autonomously.

Further, the reply frame may select a Probe Response frame, and the specific configuration information is a connection password or rejection information, for example, a "routing connection password" or "routing reject terminal access" is identified, which is abbreviated as configuration information in this embodiment.

Further, if the distribution network information on the reply frame indicates that the route allows the terminal to access, the distribution network information contains a specific route connection password, the terminal obtains the route connection password contained in the distribution network information after decoding the reply frame, and the terminal can connect the route by itself through the route connection password; if the distribution network information on the reply frame is expressed as 'route refusal terminal access', the terminal obtains the information after analyzing, and the terminal does not send the connection request any more.

In the above embodiment, the terminal access method mainly includes four steps, receiving an identification frame containing network-configurable information, where the network-configurable information represents that the route management device can be connected, then decoding the identification frame, and then sending a request frame with access information according to the network-configurable information obtained after decoding, where the access information is the Mac address of the connection terminal. And finally, receiving a reply frame which is sent by the route and contains the distribution network information, analyzing the reply frame to obtain an access password, and accessing the network.

Through the embodiment, the terminal access method is suitable for all terminals needing access routing, and the network distribution connection is carried out through the information carried by the identification frame, the request frame and the reply frame, so that a uniform network distribution mode is realized for different terminals, and the management and connection of the terminals are facilitated.

Embodiment four:

the present embodiment provides a terminal device for executing the terminal access method as in the third embodiment.

As shown in fig. 3, the terminal module 200 is a block diagram of the terminal device of the present embodiment, and the terminal device includes: a second receiving unit 210, a decoding unit 220, and a second transmitting unit 230.

The second receiving unit 210: receiving an identification frame which is sent by a route and contains the network allocation information and receiving a reply frame which is sent by the route and contains the network allocation information;

decoding unit 220: decoding an identification frame containing the network allocation information and a reply frame containing the network allocation information, which are sent by a route;

the second transmitting unit 230: and sending a request frame containing the access information, and waiting for route reception.

The specific details of the terminal device in the foregoing have been described in detail in the terminal access method corresponding to the third embodiment, so that details are not repeated here.

Fifth embodiment:

fig. 3 is a block diagram of a radio access system according to an embodiment of the present invention, and as shown in fig. 3, the system includes: a routing module 100, a termination module 200 and an acknowledgement module 300.

The routing module 100 is a management device as in the second embodiment;

the terminal module 200 is a management device as in example four;

the confirmation module 300 is a display device of the routing device and/or a user terminal, and is configured to receive terminal access information pushed by the routing device, and confirm the terminal access information.

In the above embodiment, the system is divided into three modules, namely, a routing module 100, a terminal module 200 and a confirmation module 300, and each module is responsible for a corresponding method flow. The routing module 100 is responsible for routing management methods, the terminal module 200 is responsible for terminal access methods, and the confirmation module 300 is responsible for confirmation of access terminal identities.

The specific details of the routing module 100, the terminal module 200, and the confirmation module 300 are described in detail in the previous embodiments, and thus are not described herein.

Through the above embodiment, the present invention establishes a complete wireless terminal access system, and by means of the routing module 100, the terminal module 200 and the confirmation module 300, the network distribution mode is normalized to a certain extent, so that various terminals can perform routing connection with uniform network distribution standard, thereby reducing operation complexity and learning cost of users.

Example six:

in the first to fifth embodiments, the network allocation information contained in the identification frame, the access information contained in the request frame and the network allocation information contained in the reply frame all adopt the same protocol field, and are TLV encoded formats, i.e., ID type+length+value; the protocol is carried in an information Element (Information Element, abbreviated as IE) specified by the 802.11 protocol, and may be placed in Vendor Specific IE with Element ID 221, or may be placed in a reserved Element ID, such as 43-49.

One implementation of the protocol field in this embodiment is as follows:

when ID type is 1, length is set to 1, and when the value is different, the represented information is different, for example:

when the value is 1, the value is carried in the identification frame sent by the route, which indicates that the route identification frame contains the network-configurable information, for example, when the identification frame sent by the route contains the network-configurable information, the protocol field is expressed as follows: 01 01, 01;

when the value of value is 2, the value is carried in a request frame fed back by the terminal, which indicates that the terminal requests the distribution network, for example, when the request frame fed back by the terminal contains access information, the protocol field is expressed as follows: 01 01, 02;

when the value of value is 3, the value is carried in a reply frame sent by the route, the reply frame represents the route to issue the distribution network information, and is represented by the combination of protocol fields in two sections of TLV coding formats, the ID value in the protocol field in the TLV coding format of the second section is 2, the length represents the distribution network information length, and the value represents the distribution network password; for example, the route sends a reply frame to the terminal, where the reply frame contains the configuration information, and assuming that the access password of the route is 123456789, the protocol field is expressed as: 01 01 03 02 08 31 32 33 34 35 36 37 38;

when the value is 4, the value is carried in a reply frame sent by the route, and the reply frame indicates that the route refuses the device to access the network, and the protocol field is indicated as follows: 01 01 04.

By adopting the embodiment, the protocol fields representing different information are written in the identification frame, the request frame and the reply frame in the mode of the protocol fields, so that the confidentiality of the information and the security of the network are ensured to a certain extent, and the network security problems such as illegal cracking, password leakage and the like are prevented. In addition, writing protocol fields into the identification frame, the request frame and the reply frame belongs to simple operation, and confidentiality of information is realized without relying on excessively complex behaviors.

The invention overcomes the defects of the existing network distribution mode, can simplify and unify the network distribution mode of the terminal, introduces the process of confirming the connection, is convenient for managing the terminal equipment, and ensures the safety.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present invention. Furthermore, embodiments of the invention and features of the embodiments may be combined with each other without conflict.

Claims (6)

1. A method of route management, comprising:

transmitting a Beacon frame containing the network configuration information;

receiving a Probe Request frame for decoding the Beacon frame;

analyzing the access information carried by the Probe Request frame, and sending a confirmation connection Request according to the access information;

receiving feedback information of the confirmation connection request, and sending a Probe Response frame according to the feedback information, wherein the Probe Response frame comprises the distribution network information of the route;

the method for sending the confirmation connection request comprises the following steps: displaying the confirmation connection request through the route and pushing the confirmation connection request to a user terminal through a network to display the confirmation connection request so that the user terminal sends feedback information;

and writing protocol fields representing different information on the Beacon frame, the Probe Request frame and the Probe Response frame in a protocol field mode.

2. A route management method according to claim 1, wherein: the access information includes: the MAC address of the terminal.

3. A management apparatus, characterized by comprising:

a transmitting unit: the Beacon frame is used for sending the Beacon frame containing the network distribution information;

a receiving unit: a Probe Request frame for receiving and decoding the Beacon frame;

the device comprises a confirmation connection unit, a pushing unit and a receiving unit, wherein the confirmation connection unit comprises an analysis unit and a pushing unit; the analyzing unit is used for analyzing the access information carried by the Probe Request frame; the pushing unit is used for sending a confirmation connection request according to the access information;

and a recovery unit: the method comprises the steps of receiving feedback information for confirming a connection request, and sending a Probe Response frame according to the feedback information, wherein the Probe Response frame comprises routing network allocation information;

the method for sending the confirmation connection request comprises the following steps: displaying the confirmation connection request through the route and pushing the confirmation connection request to a user terminal through a network to display the confirmation connection request so that the user terminal sends feedback information;

and writing protocol fields representing different information on the Beacon frame, the Probe Request frame and the Probe Response frame in a protocol field mode.

4. A terminal access method, comprising:

receiving a Beacon frame containing network allocation information;

decoding the Beacon frame containing the network allocation information;

transmitting a Probe Request frame containing access information;

receiving a confirmation connection request, and sending feedback information according to the confirmation connection request; the confirmation connection request is sent by the management device, wherein the mode of sending the confirmation connection request comprises the following steps: displaying the confirmation connection request through a route and pushing the confirmation connection request to a user terminal through a network to display the confirmation connection request;

receiving a Probe Response frame and analyzing the Probe Response frame to obtain distribution network information;

the distribution network information comprises: the terminal carries out route connection according to the connection password or refusal information;

and writing protocol fields representing different information on the Beacon frame, the Probe Request frame and the Probe Response frame in a protocol field mode.

5. A terminal device, comprising:

a second receiving unit: receiving a Beacon frame containing the network allocation information and receiving a Probe Response frame containing the network allocation information;

decoding unit: analyzing the Beacon frame containing the network distribution information and the Probe Response frame containing the network distribution information, wherein the network distribution information comprises: the terminal carries out route connection according to the connection password or refusal information;

a second transmitting unit: transmitting a Probe Request frame containing access information;

and writing protocol fields representing different information on the Beacon frame, the Probe Request frame and the Probe Response frame in a protocol field mode.

6. A wireless access system, comprising: a routing module, a terminal module and a confirmation module;

the routing module sends a Beacon frame containing network-configurable information;

the terminal receives and decodes the Beacon frame and sends a Probe Request frame;

the routing module analyzes the access information carried by the Probe Request frame and sends a confirmation connection Request to the confirmation module according to the access information;

the routing module receives the feedback information of the confirmation module and sends a Probe Response frame to the terminal according to the feedback information; the Probe Response frame comprises the distribution network information of the route, and the terminal receives and analyzes the Probe Response frame to obtain the distribution network information;

the confirmation module comprises a display device of the routing module and a user terminal, wherein the mode of sending the confirmation connection request comprises the following steps: displaying the confirmation connection request through the display device and pushing the confirmation connection request to the user terminal through a network to display the confirmation connection request so that the user terminal sends feedback information;

and writing protocol fields representing different information on the Beacon frame, the Probe Request frame and the Probe Response frame in a protocol field mode.

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