CN113613185A - User autonomous WiFi (Wireless Fidelity) sharing method based on client - Google Patents

Abstract

The invention discloses a user autonomous WiFi (wireless fidelity) sharing method based on a client. The method comprises the steps of WiFi sharing release, WiFi connection request, WiFi use charging and WiFi disconnection in sequence. The invention mainly provides a complete sharing scheme which is free of issuing verification by a server side and connection request verification by a user side, supports various charging modes, and can realize independent pricing and independent connection by the user. Therefore, the major problems that a sharing scheme is difficult to fall to the ground and is not practical and the like caused by the problems that the platform maintenance cost is high, the user sharing cost is high, the WiFi charging is difficult, the form is single and the like on the WiFi sharing link are fundamentally solved, the supply and demand relationship based on the personal WiFi is really and effectively pulled through, and each user participating in WiFi sharing and connection is benefited.

Description

User autonomous WiFi (Wireless Fidelity) sharing method based on client

Technical Field

The invention relates to the technical field of WiFi (wireless fidelity) sharing methods, in particular to a client-based user autonomous WiFi sharing method.

Background

Today, with the increasing abundance of information and multimedia technologies and applications, networks have become an essential part of people's lives. However, compared with the situation that network resources are increasingly abundant, the access and use costs of mobile traffic, fixed broadband and the like are still high. Although the signal and speed of mobile networks are continuously increasing, the cost is never reduced, and how to reduce the use cost and obtain a more practical network access mode still bothers many users today.

Compared with a mobile network charged according to flow, the fixed broadband which is rented on time and can be expanded by a wireless local area network technology is more preferential under the comprehensive use of multi-user and multi-equipment internet surfing, social contact, video watching, games and the like. But also can offset the installation cost only under the scene of a large amount of use due to the on-time charging characteristic of the fixed broadband, and obtain the preferential property of the cost. Therefore, users who always have relatively few devices and are used relatively few are not willing to access a fixed broadband, and are difficult to completely bear mobile traffic cost, so that the network use requirements of the users are restrained, and the life and entertainment experience of the users are greatly influenced. On the other side, a user accessing the mobile broadband does not always fully use the bandwidth when the user is full, so that resource is idle and wasted. How to effectively pull up the supply and demand of the two, increase more optional network access points, reduce the network access cost of both the supply and demand parties, and become the problem which is attempted to be solved by a plurality of technologies and schemes.

Since the birth of the wireless local area network technology, there are many schemes for attempting to realize resource sharing of users. At first, a WiFi master key is taken as a representative, an intrusive type WiFi resource embezzlement is adopted, and a connecting end can be enabled to anonymously intrude into a local area network of other people to obtain internet traffic in a mode of combining WiFi key brute force decryption and key library inquiry. Subsequently, the scheme is forcibly banned due to violation of computer security laws. And then, after the WiFi master key and other applications are required to be rectified, a scheme of violently cracking the WiFi key is abandoned, and WiFi resources are shared in a pure user self-issuing mode. This solution is clearly only user friendly and does not allow the sharer to gain revenue and thus does not gain wide application. Now, besides the above autonomous solutions, there are also a few applications, applets, etc. which are focused on promoting the use scenes of commercial WiFi, that is, in public places such as restaurants, shopping malls, airports, etc., WiFi resources provided by merchants are shared, and a user can avoid a close connection to WiFi but needs to open a browser, access an authentication page of a platform, input an account of the platform for authentication, recharge, read advertisements, etc. Meanwhile, advertisements, rebates and the like are provided for the merchants, and the merchants are stimulated to share WiFi. Wherein the latter two are the main solutions of the current products.

In summary, products on the market are still not able to effectively exploit personal WiFi resources and balance the allocation of revenue to users and sharers. In the technical field of patents, although a WiFi sharing scheme based on a cloud platform and a flow transaction scheme based on WiFi exist, the technical field of the WiFi sharing scheme and the flow transaction scheme based on the WiFi sharing scheme have the defects that the WiFi sharing scheme and the flow transaction scheme cannot effectively fall to the ground to form a mature product, and WiFi supply and demand are pulled through. For example, a WiFi sharing scheme based on a cloud platform needs to check the validity of WiFi; the flow transaction scheme based on WiFi transmits the hot spots searched locally to a server for matching, so that the efficiency is low; moreover, the connection is agreed by a WiFi provider in real time, so that the connection efficiency is low; and it does not propose effective flow statistics and charging scheme, can't fall to the ground, form and share the function closed loop, etc..

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a client-based user autonomous WiFi sharing method which is free of issuing verification by a server and connection request verification by a user terminal, supports various charging modes and can realize autonomous pricing and autonomous connection of users.

In order to achieve the purpose, the invention adopts the following technical scheme:

a user autonomous WiFi (wireless fidelity) sharing method based on a client comprises WiFi sharing release, WiFi connection request, WiFi use charging and WiFi disconnection in sequence, wherein the WiFi sharing release, the WiFi connection request, the WiFi use charging and the WiFi disconnection are sequentially carried out, and the method comprises the steps of

The WiFi sharing publishing comprises the following steps:

a1, identity login is carried out by a publisher;

a2, a publisher selectively enters a WiFi publishing page, the page displays all available WiFi nearby, a user selects one WiFi, fills in a WiFi password, and charges types and price information of the WiFi, including one or more of flow charging, hourly charging and daily charging, and clicks a publishing button to start to publish hotspots;

a3, the publishing module starts to check the correctness of the WiFi password by connecting WiFi, if the current WiFi is connected to the target WiFi, the current WiFi connection is deleted and reconnected, if the target WiFi is not connected, the connection process is directly started, if the WiFi connection fails, the user is prompted that the password is wrong, the publishing process is terminated, and if the WiFi connection is successful, the next step is carried out;

a4, the client calls the geographic position of the current publisher and the Mac address of the WiFi obtained after connection, and calls a cloud service interface together with the WiFi price information input in the step A2 to try to publish to the server, if the WiFi is not published, the publishing success is returned, otherwise, the failure is returned, the user is prompted that WiFi information conflicts, and the publisher is published again after modifying the password;

the WiFi connection request comprises the steps of:

b1, the requester registers identity;

b2, the requester enters a connection information display module of the client, the client acquires the current geographic position, and pulls the connectable WiFi matched with the current geographic position from the cloud service;

b3, after the cloud service end returns data, the client matches the data with the WiFi signals searched locally, binds price information and WiFi passwords to the connectable WiFi, and displays the price information and the WiFi passwords to the requester for selection, wherein the WiFi passwords are invisible and cannot be stored;

b4, clicking the target WiFi to be connected by the requester, entering a WiFi connection page, wherein the page shows detailed information of the WiFi, and if the requester determines to connect the target WiFi; the client will connect using the WiFi password bound in step B3 and start the charging process.

Preferably, the WiFi usage charging comprises the steps of:

c1, when the WiFi connection request is completed and the WiFi connection is established, the client records the time point of successful connection and the WiFi data transmission quantity of the current system and starts a charging module;

c2, the charging module calls the system interface of the platform corresponding to the client, inquires and currently records the data volume transmitted by WiFi, and calculates the current connection duration and the used flow by comparing the transmission volume and the time point in the step C1;

and C3, synchronizing the data in the step C2 to the cloud server, so that the publisher can check the connection and the use condition of the hotspot in real time and manage the connection, and the cloud server can still store effective connection data if the client is abnormal.

Preferably, the WiFi disconnection comprises the steps of:

d1, when the WiFi is disconnected, including the conditions that the user actively disconnects, leaves the WiFi signal range, the publisher deletes the WiFi and other abnormal disconnection, the client starts and stops the charging module process;

d2, after the charging module receives the stop command, inquiring the final WiFi transmission data volume and calculating the final WiFi service duration;

d3, the charging module deletes and stores the WiFi configuration information of the client;

d4, the charging module synchronizes the final use data to the cloud service end, and the cloud service end generates the final connection cost according to the WiFi price information.

Preferably, the identity login of the step A1 and the step B1 is to input an account number, a password at the client, or to finish login through third party account authorization.

Preferably, the client is a program applied on android, IOS, windows, or a MacOS system, and functions to provide a WiFi connection and shared display and corresponding operation functions to the user.

Preferably, the step B4 further includes that, when the requester turns on the automatic connection function, the returned WiFi hotspot information includes a hotspot meeting an automatic connection price lower than the user-set automatic connection price.

By adopting the scheme, the invention provides a complete sharing scheme which is free of issuing verification by a server side and connection request verification by a user side, supports various charging modes and can realize autonomous pricing and autonomous connection by the user. Therefore, the major problems that a sharing scheme is difficult to fall to the ground and is not practical and the like caused by the problems that the platform maintenance cost is high, the user sharing cost is high, the WiFi charging is difficult, the form is single and the like on the WiFi sharing link are fundamentally solved, the supply and demand relationship based on the personal WiFi is really and effectively pulled through, and each user participating in WiFi sharing and connection is benefited.

Drawings

Fig. 1 is a flowchart of WiFi sharing publishing in an embodiment of the invention.

Fig. 2 is a flow chart of a WiFi connection request according to an embodiment of the present invention.

Fig. 3 is a flow chart of WiFi usage charging according to an embodiment of the present invention.

Fig. 4 is a WiFi disconnect flow diagram of an embodiment of the invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, the user-independent WiFi sharing method based on the client provided in this embodiment includes WiFi sharing issue, WiFi connection request, WiFi usage charging, and WiFi disconnection in sequence, where the WiFi connection request, the WiFi usage charging, and the WiFi disconnection are included in this order

The WiFi sharing publishing comprises the following steps:

a1, identity login is carried out by a publisher;

a2, a publisher selectively enters a WiFi publishing page, the page displays all available WiFi nearby, a user selects one WiFi, fills in a WiFi password, and charges types and price information of the WiFi, including one or more of flow charging, hourly charging and daily charging, and clicks a publishing button to start to publish hotspots;

a3, the publishing module starts to check the correctness of the WiFi password by connecting WiFi, if the current WiFi is connected to the target WiFi, the current WiFi connection is deleted and reconnected, if the target WiFi is not connected, the connection process is directly started, if the WiFi connection fails, the user is prompted that the password is wrong, the publishing process is terminated, and if the WiFi connection is successful, the next step is carried out;

a4, the client calls the geographic position of the current publisher and the Mac address of the WiFi obtained after connection, and calls a cloud service interface together with the WiFi price information input in the step A2 to try to publish to the server, if the WiFi is not published, the publishing success is returned, otherwise, the user is prompted to have WiFi information conflict, and the publisher is made to publish again after modifying the password.

Aiming at WiFi sharing publishing, the method in the step A2 is operated, and a publisher can independently set various price information of WiFi to be published, and flexible combination of charging modes such as flow, hour, day and the like is supported. Through the flexible and autonomous pricing mode, the sharing enthusiasm of WiFi owners is fully mobilized, and meanwhile, at a consumption end, more choices are provided, so that the connection requirements under different scenes and use amounts are better met. Therefore, the supply and demand relationship of WiFi can be better pulled through by perfecting the price mechanism.

In the step A3, the validity of the WiFi password is ensured by forcibly connecting WiFi before releasing, and the password validity verification is directly carried out. Therefore, the problems of technical difficulty and high cost of manually checking WiFi passwords on the cloud platform are solved.

Meanwhile, in the step A4, when the cloud platform publishes the hotspot, the cloud platform detects the Mac address of WiFi and the regional repeatability of the geographic position, and prohibits others from publishing WiFi with the same information and the same password, so that WiFi is guaranteed not to be embezzled and published by others. The scheme also ensures that the WiFi password needs to be modified to find the WiFi under the condition that the WiFi is stolen, thereby ensuring the validity of a manual-verification-free mechanism.

The method for the WiFi connection request comprises the following steps:

b1, the requester registers identity;

b2, the requester enters a connection information display module of the client, the client acquires the current geographic position, and pulls the connectable WiFi matched with the current geographic position from the cloud service;

b3, after the cloud service end returns data, the client matches the data with the WiFi signals searched locally, binds price information and WiFi passwords to the connectable WiFi, and displays the price information and the WiFi passwords to the requester for selection, wherein the WiFi passwords are invisible and cannot be stored;

b4, clicking the target WiFi to be connected by the requester, entering a WiFi connection page, wherein the page shows detailed information of the WiFi, and if the requester determines to connect the target WiFi; the client will connect using the WiFi password bound in step B3 and start the charging process.

In this flow step, the client in step B2 pulls available WiFi information from the cloud platform based on the obtained geographic location. The step utilizes the regional effectiveness of WiFi, only needs to transmit the geographical position information, and does not need to transmit the WiFi information nearby to the cloud platform for matching. The problem of omission caused by fluctuation of WiFi signals or incomplete search results is solved, and meanwhile uploading flow of users is saved.

Meanwhile, in step B4, the client supports the user to set the automatic connection switch and the price condition of the automatic connection. Therefore, the client can monitor the change of the geographic position, and automatically help the user to connect WiFi after pulling the WiFi available on the cloud platform, so that the convenience of connection is improved.

For, the charging for WiFi usage includes the steps of:

c1, when the WiFi connection request is completed and the WiFi connection is established, the client records the time point of successful connection and the WiFi data transmission quantity of the current system and starts a charging module;

c2, the charging module calls the system interface of the platform corresponding to the client, inquires and currently records the data volume transmitted by WiFi, and calculates the current connection duration and the used flow by comparing the transmission volume and the time point in the step C1;

and C3, synchronizing the data in the step C2 to the cloud server, so that the publisher can check the connection and the use condition of the hotspot in real time and manage the connection, and the cloud server can still store effective connection data if the client is abnormal (such as being forcibly unloaded by a user).

In this flow step, step C1. After the WiFi connection is successful, the client records the current time point. Therefore, the service time of the WiFi can be calculated when the service data is inquired at regular time and the WiFi is disconnected. Meanwhile, in step C2, the client periodically queries the transmission data volume of the WiFi through the operating system interface of the corresponding platform, so that the WiFi usage traffic statistics can be realized.

In step C3, the client will time synchronize usage data to the cloud service. According to the scheme, the problem that when the client loses settlement capacity due to unloading and the like can be solved, the server can still store the latest use condition, know the abnormal condition of the client and supervise the legal use of the user.

The method for WiFi disconnection comprises the following steps:

d1, when the WiFi is disconnected, including the conditions that the user actively disconnects, leaves the WiFi signal range, the publisher deletes the WiFi and other abnormal disconnection, the client starts and stops the charging module process;

d2, after the charging module receives the stop command, inquiring the final WiFi transmission data volume and calculating the final WiFi service duration;

d3, the charging module deletes and stores the WiFi configuration information of the client;

d4, the charging module synchronizes the final use data to the cloud service end, and the cloud service end generates the final connection cost according to the WiFi price information.

In step D3, when the client disconnects, the client deletes the WiFi configuration information stored in the system where the client is located due to the establishment of the WiFi connection. Therefore, the problem that the WiFi usability of sharers is leaked and the like is avoided.

In steps D2 and D4, the client will read the WiFi connection data for the last time when the client disconnects. The scheme can ensure the use amount in the timing query and disconnection, can not generate statistical omission, and ensures the accuracy of charging.

Further, the identity login of step a1 and step B1 of this embodiment is to input an account number and a password at the client, or to complete the login by a third party account authorization.

Further, the client in this embodiment is a program applied to an android, IOS, windows, or MacOS system, and is configured to provide a WiFi connection and sharing display and a corresponding operation function to a user.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. A client-based user autonomous WiFi sharing method is characterized in that: the method comprises the steps of WiFi sharing release, WiFi connection request, WiFi use charging and WiFi disconnection in sequence, wherein the WiFi sharing release, the WiFi connection request, the WiFi use charging and the WiFi disconnection are sequentially included

The WiFi sharing publishing comprises the following steps:

a1, identity login is carried out by a publisher;

a2, a publisher selectively enters a WiFi publishing page, the page displays all available WiFi nearby, a user selects one WiFi, fills in a WiFi password, and charges types and price information of the WiFi, including one or more of flow charging, hourly charging and daily charging, and clicks a publishing button to start to publish hotspots;

a3, the publishing module starts to check the correctness of the WiFi password by connecting WiFi, if the current WiFi is connected to the target WiFi, the current WiFi connection is deleted and reconnected, if the target WiFi is not connected, the connection process is directly started, if the WiFi connection fails, the user is prompted that the password is wrong, the publishing process is terminated, and if the WiFi connection is successful, the next step is carried out;

a4, the client calls the geographic position of the current publisher and the Mac address of the WiFi obtained after connection, and calls a cloud service interface together with the WiFi price information input in the step A2 to try to publish to the server, if the WiFi is not published, the publishing success is returned, otherwise, the failure is returned, the user is prompted that WiFi information conflicts, and the publisher is published again after modifying the password;

the WiFi connection request comprises the steps of:

b1, the requester registers identity;

b2, the requester enters a connection information display module of the client, the client acquires the current geographic position, and pulls the connectable WiFi matched with the current geographic position from the cloud service;

b3, after the cloud service end returns data, the client matches the data with the WiFi signals searched locally, binds price information and WiFi passwords to the connectable WiFi, and displays the price information and the WiFi passwords to the requester for selection, wherein the WiFi passwords are invisible and cannot be stored;

b4, clicking the target WiFi to be connected by the requester, entering a WiFi connection page, wherein the page shows detailed information of the WiFi, and if the requester determines to connect the target WiFi; the client will connect using the WiFi password bound in step B3 and start the charging process.

2. The client-based user-autonomous WiFi sharing method of claim 1, wherein: the WiFi usage charging comprises the following steps:

c1, when the WiFi connection request is completed and the WiFi connection is established, the client records the time point of successful connection and the WiFi data transmission quantity of the current system and starts a charging module;

c2, the charging module calls the system interface of the platform corresponding to the client, inquires and currently records the data volume transmitted by WiFi, and calculates the current connection duration and the used flow by comparing the transmission volume and the time point in the step C1;

and C3, synchronizing the data in the step C2 to the cloud server, so that the publisher can check the connection and the use condition of the hotspot in real time and manage the connection, and the cloud server can still store effective connection data if the client is abnormal.

3. The client-based user-autonomous WiFi sharing method of claim 2, wherein: the WiFi disconnection comprises the following steps:

d1, when the WiFi is disconnected, including the conditions that the user actively disconnects, leaves the WiFi signal range, the publisher deletes the WiFi and other abnormal disconnection, the client starts and stops the charging module process;

d2, after the charging module receives the stop command, inquiring the final WiFi transmission data volume and calculating the final WiFi service duration;

d3, the charging module deletes and stores the WiFi configuration information of the client;

d4, the charging module synchronizes the final use data to the cloud service end, and the cloud service end generates the final connection cost according to the WiFi price information.

4. The client-based user-autonomous WiFi sharing method of claim 1, wherein: the identity login of the step A1 and the step B1 is to input an account number and a password at the client, or to finish login through third party account authorization.

5. The client-based user-autonomous WiFi sharing method of claim 1, wherein: the client is a program applied to an android, IOS, windows and MacOS system and is used for providing WiFi connection and sharing display and corresponding operation functions for the user.

6. The client-based user-autonomous WiFi sharing method of claim 1, wherein: step B4 further includes that, when the requester opens the automatic connection function, the returned WiFi hotspot information includes a hotspot meeting the automatic connection price lower than the user-set automatic connection price.

Images