CN108738105B - Wireless access point sequencing method and device - Google Patents

Abstract

The method comprises the steps that a first query request is sent to network equipment after user equipment acquires all wireless access points near the user equipment, so that the network equipment searches whether each wireless access point has a graphic mark or not according to identifiers of the wireless access points in the first query request, and sorts all the wireless access points according to the graphic mark of at least one wireless access point in the searched wireless access points; the step of sequencing all the wireless access points can be executed by the network device or the user equipment; and finally, displaying all the wireless access points to the user on the user equipment according to the sequencing result, thereby realizing the sequencing of all the wireless access points near the user equipment through the interaction of the user equipment and the network equipment.

Description

Wireless access point sequencing method and device

Technical Field

The present application relates to the field of wireless hotspot connection technologies, and in particular, to a method and an apparatus for ordering wireless access points.

Background

Wireless hotspot connection has become an important way to acquire wireless network resources. In order to improve the rapidness and effectiveness of a user in selecting wireless network resources, reduce data traffic and time waste caused by the fact that the user tries to connect wireless hotspots without passwords, and improve user networking experience, in the prior art, when the user equipment displays the wireless hotspots scanned nearby the user equipment to the network equipment, the wireless access points to be connected are randomly displayed to the user equipment, so that the user does not know how to select proper wireless hotspots from a plurality of wireless hotspots for wireless connection, and a lot of time cost and data traffic waste in the process of selecting the connected wireless hotspots is caused to the user in connection attempt. Therefore, how to improve the efficiency of selecting and connecting wireless hotspots by users becomes an urgent problem to be solved.

Disclosure of Invention

The application provides a method and equipment for sequencing wireless access points, which are used for improving the efficiency of selecting and connecting wireless hotspots by users.

According to an aspect of the present application, there is provided a method for ordering wireless access points, the method comprising: the method comprises the steps that user equipment acquires all wireless access points near the user equipment; in response to the detected preset trigger operation, the user equipment sends a first query request to network equipment, wherein the first query request comprises identifiers of all wireless access points, so that the network equipment locally searches whether the wireless access points corresponding to the identifiers have graphic marks; the user equipment receiving from the network equipment a graphical indicia of at least one of the all wireless access points; and the user equipment sequences all the wireless access points according to the graphic marks of the at least one wireless access point.

In one possible design, the ue may further obtain connection related information of each of the all the wireless access points; accordingly, the user equipment may order all the wireless access points according to the graphical indicia of the at least one wireless access point by: and the user equipment sequences all the wireless access points according to the connection related information of each wireless access point in all the wireless access points and the graphic mark of at least one wireless access point.

In one possible design, the user equipment may rank all the wireless access points according to the graphic mark of the at least one wireless access point, and the ranking may be performed by: the user equipment ranks the at least one wireless access point before other wireless access points of the all wireless access points except the at least one wireless access point.

In one possible design, the method provided by the present aspect may further include: in response to detecting a new wireless access point other than the all wireless access points, the user equipment sending a second query request to the network equipment, the second query request including an identifier of the new wireless access point; the user equipment receives the graphic mark of the newly added wireless access point from the network equipment; and the user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points.

In this design, the ue may further obtain connection related information of the newly added wireless access point; correspondingly, the user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points, and the reordering can be realized by the following modes: and the user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the connection related information of the newly added wireless access points and the graphic marks of the newly added wireless access points.

In one possible design, the user equipment may further display all the wireless access points to the user according to the ranking result. For example, the user equipment may display all the wireless access points and their related information to the user according to the sorting result.

In one possible design, the predetermined triggering operation includes any one of: triggering the operation of a preset key; sliding interfaces, which are used for displaying all acquired wireless access points, on the user equipment according to a preset movement track; and triggering an interface which is used for indicating switching to the user equipment and is used for displaying all the acquired wireless access points.

In one possible design, the user equipment may rank all the wireless access points based on a first preset time interval.

According to another aspect of the present application, there is also provided a method for ordering wireless access points, the method including: a network device receives a first query request from a user device, the first query request including identifiers of respective wireless access points of all wireless access points in the vicinity of the user device; the network equipment locally searches whether the wireless access point corresponding to the identifier has a graphic mark or not and acquires the graphic mark of at least one wireless access point in all the wireless access points; the network device sends the graphical indicia of the at least one wireless access point to the user device to cause the user device to rank all the wireless access points based on the graphical indicia of the at least one wireless access point.

In one possible design, the method provided by the present invention may further include: the network equipment receives a second inquiry request from the user equipment, wherein the second inquiry request comprises identifiers of the newly added wireless access points except all the wireless access points; and the network equipment searches the graphic mark of the newly-added wireless access point locally and sends the graphic mark to the user equipment, so that the user equipment reorders the newly-added wireless access point and the currently scanned wireless access points in all the wireless access points based on the graphic mark of the newly-added wireless access point.

According to another aspect of the present application, there is also provided a method for ordering wireless access points, the method including: the method comprises the steps that user equipment acquires all wireless access points near the user equipment; in response to the detected preset trigger operation, the user equipment sends a third query request to network equipment, wherein the third query request comprises identifiers of all wireless access points, so that the network equipment locally searches whether the wireless access point corresponding to the identifier has a graphic mark or not and obtains the graphic mark of at least one of the all wireless access points, and the all wireless access points are sorted according to the graphic mark of the at least one wireless access point; and the user equipment receives the sequencing results of all the wireless access points from the network equipment.

In one possible design, the ue may further obtain connection related information of each of the all wireless access points; the third query request further includes connection-related information of each of the all wireless access points, so that the network device orders all the wireless access points according to the connection-related information of each of the all wireless access points and the graphical mark of the at least one wireless access point.

In one possible design, the method provided by the present aspect may further include: in response to detecting a new wireless access point other than all the wireless access points, the user equipment sends a fourth query request to the network equipment, wherein the fourth query request comprises an identifier of the new wireless access point, so that the network equipment locally searches for a graphic mark of the new wireless access point, and reorders the new wireless access point and currently scanned wireless access points in all the wireless access points according to the graphic mark of the new wireless access point; and the user equipment receives the new wireless access point and the reordering result of the currently scanned wireless access points in all the wireless access points from the network equipment.

In one possible design, the ue may further obtain connection related information of the newly added wireless access point; the fourth query request further includes connection-related information of the newly added wireless access point, so that the network device reorders the newly added wireless access point and currently scanned wireless access points of all the wireless access points according to the graphic marks of the newly added wireless access point and the connection-related information of the newly added wireless access point.

In one possible design, the user equipment may further display all the wireless access points to a user according to the sorting result. For example, the user equipment may display all the wireless access points and their related information to the user according to the sorting result.

In one possible design, the predetermined triggering operation includes any one of: triggering the operation of a preset key; sliding interfaces, which are used for displaying all acquired wireless access points, on the user equipment according to a preset movement track; and triggering an interface which is used for indicating switching to the user equipment and is used for displaying all the acquired wireless access points.

According to another aspect of the present application, there is also provided a method for ordering wireless access points, the method including: the network equipment receives a third query request from user equipment, wherein the third query request comprises identifiers of all wireless access points nearby the user equipment, and the network equipment locally searches whether the wireless access point corresponding to the identifier has a graphic mark or not and acquires the graphic mark of at least one wireless access point of all the wireless access points; and the network equipment sorts all the wireless access points according to the graphic marks of the at least one wireless access point and sends the sorting result to the user equipment.

In a possible design, the third query request further includes connection-related information of each of the all wireless access points, and accordingly, the network device orders the all wireless access points according to the graphic mark of the at least one wireless access point, which may be implemented by: and the network equipment sequences all the wireless access points according to the connection related information of each wireless access point in all the wireless access points and the graphic marks of at least one wireless access point.

In one possible design, the network device may rank all the wireless access points according to the graphical indicia of the at least one wireless access point by: the network device ranks the at least one wireless access point before other wireless access points of the all wireless access points except the at least one wireless access point.

In one possible design, the method provided by the present aspect may further include: the network equipment receives a fourth query request from the user equipment, wherein the fourth query request comprises an identifier of the newly added wireless access point, and the network equipment searches the graphic mark of the newly added wireless access point locally; and the network equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points and sends the result of the reordering to the user equipment.

In a possible design, the fourth query request further includes connection related information of the new wireless access point, and accordingly, the network device reorders the new wireless access point and currently scanned wireless access points in all the wireless access points according to the graphic marks of the new wireless access point, which may be implemented by: and the network equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points and the connection related information of the newly added wireless access points.

In one possible design, the network device may rank all the wireless access points according to the graphical indicia of the at least one wireless access point by: the network device ranks the all wireless access points based on a second preset time interval.

According to yet another aspect of the present application, there is also provided a computer readable medium having stored thereon computer readable instructions, which, when executed by a processor, cause the processor to implement the method of ordering wireless access points according to any of the above aspects.

According to still another aspect of the present application, there is also provided a user equipment, wherein it includes: one or more processors; a computer readable medium for storing one or more computer readable instructions which, when executed by the one or more processors, cause the one or more processors to implement the method of ordering wireless access points as described above at the user equipment side.

According to another aspect of the present application, there is also provided a network device, wherein it includes: one or more processors; a computer readable medium for storing one or more computer readable instructions, which when executed by the one or more processors, cause the one or more processors to implement the method for ordering wireless access points as described above at the network device side.

Compared with the prior art, the method and the device have the advantages that all wireless access points near the user equipment are obtained at the user equipment; when a user needs to learn the relevant sequencing of all wireless access points in the vicinity of user equipment so as to quickly decide the selection of the wireless access points, the user equipment can execute a predetermined trigger operation, and when the user equipment detects the predetermined trigger operation, the user equipment sends a first query request to network equipment, wherein the first query request comprises identifiers of all the wireless access points in the vicinity of the user equipment, so that after subsequent network equipment receives the first query request from the user equipment, the network equipment locally searches whether the wireless access point corresponding to the identifier in the first query request has a graphic mark or not and obtains the graphic mark of at least one wireless access point in all the wireless access points, and then the network equipment sends the graphic mark of the at least one wireless access point to the user equipment, the user equipment sequences all the wireless access points according to the received graphic mark of at least one wireless access point in all the wireless access points from the network equipment, so that the sequencing of all the wireless access points near the user equipment is realized through the user equipment, a user can conveniently and quickly select one wireless access point from all the wireless access points displayed in sequence at the user equipment terminal, the data flow and time consumption caused by the connection process that the user continuously tries to connect the wireless access points on the user equipment are reduced, and the user networking experience is improved.

Further, the method comprises the steps that all wireless access points near the user equipment are obtained through the user equipment; when a user needs to learn the relevant sequencing of all wireless access points in the vicinity of the user equipment so as to quickly decide the selection of the wireless access points, the user equipment can execute a preset triggering operation, and after the user equipment detects the preset triggering operation, the user equipment can send a third query request to the network equipment, wherein the third query request comprises identifiers of all the wireless access points, so that the network equipment locally searches whether the wireless access point corresponding to the identifier has a graphic mark or not and obtains the graphic mark of at least one of the all the wireless access points, and then the network equipment sequences all the wireless access points according to the graphic mark of the at least one wireless access point and sends the sequencing result to the user equipment, so that the user equipment receives the sequencing result of all the wireless access points from the network equipment, the step of sequencing all the wireless access points near the user equipment is executed through the network equipment, so that the memory resource for sequencing all the wireless access points by the user equipment is saved; meanwhile, the user equipment receives the sequencing results of all the wireless access points nearby the user equipment from the network equipment, so that the user can conveniently and quickly select one wireless access point from all the wireless access points displayed by the user equipment in sequence, the data flow and time consumption caused by the connection process that the user continuously tries to connect the wireless access points on the user equipment are reduced, and the user networking experience is improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a flow chart illustrating a method for ordering wireless access points by a user equipment according to an aspect of the present application;

fig. 2 is a flow chart illustrating a sorting method for wireless access points at a network device side according to another aspect of the present application;

fig. 3 is a flowchart illustrating a ranking method for a wireless access point at a user equipment according to another aspect of the present application;

fig. 4 is a flowchart illustrating a sorting method for a wireless access point at a network device side according to another aspect of the present application.

Fig. 5 shows a schematic structural diagram of a user equipment provided according to another aspect of the present application.

Fig. 6 illustrates a schematic structural diagram of a network device provided according to another aspect of the present application.

Fig. 7 shows a schematic structural diagram of a user equipment provided according to another aspect of the present application.

Fig. 8 illustrates a schematic structural diagram of a network device provided in accordance with another aspect of the present application.

The same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

In a typical configuration of the present application, the terminal, the device serving the network, and the trusted party each include one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.

In the embodiment of the present application, the user equipment may obtain all wireless access points in the vicinity of the user equipment, and when the user needs to learn the relevant ranks of all wireless access points in the vicinity of the user equipment so as to quickly determine which wireless access point is selected for performing a wireless connection attempt or in what order the wireless access points are selected for performing a wireless connection attempt, all wireless access points displayed on the user equipment need to be displayed in order after being ranked. If the requirement of the user on the sequencing accuracy of all the wireless access points is considered, the equipment terminal can be selected to sequence all the wireless access points according to the graphic mark of at least one wireless access point in all the wireless access points and even in combination with the connection related information of each wireless access point; in consideration of factors such as saving of memory resource occupation of the user equipment, the network equipment may select to sort all the wireless access points according to the graphic mark of at least one of all the wireless access points, even in combination with the connection related information of each wireless access point, and the above two cases may both realize the sorting of the wireless access points in the embodiment of the present application, and the following two cases are respectively described in detail.

Case one, the ranking step of ranking all wireless access points in the vicinity of the user equipment is performed by the user equipment to ensure the accuracy of the ranking.

As shown in fig. 1, a method for ranking wireless access points according to an aspect of the present application is applied to a user equipment side in a process of ranking all wireless access points near the user equipment, and the method includes:

step S11, the user equipment acquires all wireless access points near the user equipment; here, all the wireless access points in the vicinity of the user equipment are used to indicate all the wireless access points in the vicinity that can be scanned by the user equipment.

Step S12, in response to the detected preset trigger operation, the user equipment sends a first query request to a network device, wherein the first query request includes identifiers of all the wireless access points, so that the network device locally searches whether the wireless access point corresponding to the identifier has a graphic mark; for example, when a user to which the user equipment side belongs needs to query the correlation ranks of all wireless access points in the vicinity of the user equipment, the user equipment may perform a predetermined trigger operation, and after the user equipment detects the predetermined trigger operation, the user equipment may send a first query request to the network equipment, where the first query request is used to instruct the user equipment to request, from the network equipment, whether each wireless access point in all wireless access points in the vicinity of the user equipment has a graphic mark, so that after receiving the first query request, the network equipment locally searches whether the wireless access point corresponding to the identifier has the graphic mark, and implements a response to the first query request sent by the user equipment.

Here, the predetermined triggering operation may include any operation for triggering the user equipment to send, to the network equipment side, a first query request for requesting whether each of all wireless access points in the vicinity of the user equipment has a graphic mark. In embodiments of the present application, the predetermined trigger operation may include, but is not limited to, any of:

1) triggering the operation of the preset key.

For example, a one-touch query button displayed on an interface of the user device for directly triggering the transmission of the first query request to the network device, or a start button for the user device to open an application that displays all wireless access points in the vicinity of the user device. The operation of triggering the predetermined key may be a triggering operation (for example, a single click, a double click, a long press, or the like) performed by the user selecting the predetermined key.

2) And sliding the interfaces of all the acquired wireless access points on the user equipment according to the preset movement track.

For example, through data output by a sensor in the user equipment, such as an acceleration sensor, a gravity sensor, or the like, it may be determined whether a user performs an operation on list pages of all wireless access points currently displayed on the user equipment to meet an interface of the sliding user equipment of a preset movement trajectory, and then the user equipment is triggered to send a first query request for requesting to query whether all wireless access points near the user equipment have a graphical mark to the network device. In this embodiment, the predetermined motion rule may be used to detect whether the sliding of the user on the list pages of all the wireless access points of the user equipment conforms to a plurality of preset moving trajectories, such as whether the user slides the list pages left or right, whether the user equipment is flicked back and forth on the list pages, whether the list pages are pulled up or down, and the like.

3) And triggering an interface which is used for indicating switching to the user equipment and is used for displaying all the acquired wireless access points.

For example, when a user switches from an interface of a page or a desktop of another application of the user equipment to a switching operation of an interface on the user equipment for displaying all wireless access points, or jumps from a background hidden interface for displaying all wireless access points to a foreground display interface, the user equipment may be triggered to send a first query request for requesting to query whether all wireless access points near the user equipment have a graphical marker to the network equipment.

Through the three predetermined triggering operations, the user equipment can be triggered to send a first query request for requesting to query whether all the wireless access points near the user equipment have the graphic marks to the network equipment, so that the query of the graphic marks of all the wireless access points near the user equipment is achieved through the predetermined triggering operation of the user equipment, and the use convenience of a user is further improved.

The graphic mark of the wireless access point stored in the network device side may be a graphic having a geometric shape (e.g., a triangle, a diamond, etc.), a graphic having a similarity to an object shape (e.g., a key shape, a lock shape, a basketball shape, etc.), or a graphic having a non-geometric shape (e.g., a link shape, a bow-shaped curve shape, a zigzag shape, etc.).

Step S13, the user equipment receiving the graphic mark of at least one of all the wireless access points from the network equipment; here, not every wireless access point in the network device has a graphic mark, after the network device obtains the first query request sent by the user device, it will locally search whether the wireless access point corresponding to each identifier has a graphic mark, and the network device will send the graphic mark of at least one found wireless access point in all the wireless access points to the user device, so that the user device can sort all the wireless access points.

Step S14, the user equipment ranks all the wireless access points according to the graphic marks of the at least one wireless access point, so as to rank all the wireless access points near the user equipment.

Through the steps S11 to S14, all the wireless access points that can be scanned by the user equipment are sorted, so that the user can more conveniently and quickly select one wireless access point from all the wireless access points that are displayed in sequence by the user equipment, which not only reduces data traffic and time consumption caused by the connection process of the user on the user equipment that the user continuously attempts to connect to the wireless access points, but also improves the user experience in networking.

The method for ordering wireless access points provided in an embodiment of the present application further includes:

the user equipment acquires the connection related information of each wireless access point in all the wireless access points; here, the connection related information of the wireless access point is used to reflect all information related to the wireless connection of the wireless access point during the wireless connection, for example, the connection related information of the wireless access point may include, but is not limited to, at least one of the following: the historical connection success rate, the current connection signal strength, whether the history is successfully connected with the user equipment through access information (such as a password or a token) or not, a connection type mark for prompting the type of the wireless access point (such as a cooperative wireless access point cooperating with an application platform for displaying all the wireless access points or a alliance wireless access point having an alliance relationship with the application platform for displaying all the wireless access points or the like), whether the wireless access point is protected by encryption or not, and the like.

After the user equipment acquires the connection related information of each wireless access point in all the wireless access points, the user equipment sorts all the wireless access points according to the graphic marks of at least one wireless access point, and the method comprises the following steps:

the user equipment sequences all the wireless access points according to the connection related information of all the wireless access points and the graphic marks of at least one wireless access point, so that the change of the signal strength of the wireless access points caused by the movement of the user equipment in the process that the user equipment requests the network equipment for whether all the wireless access points in all the wireless access points have the graphic marks is avoided, the consideration of comprehensive sequencing of all the wireless access points in all the wireless access points is also carried out according to the connection related information of all the wireless access points and the graphic marks of at least one wireless access point, and the sequencing accuracy of all the wireless access points near the user equipment is further ensured.

The user equipment ranks the all wireless access points according to the graphic marks of the at least one wireless access point, and the ranking comprises the following steps:

the user equipment ranks the at least one wireless access point before other wireless access points of the all wireless access points except the at least one wireless access point.

For example, when the user equipment sorts all the wireless access points according to the graphic marks of at least one wireless access point in all the wireless access points, the graphic marks of all the wireless access points are considered, and the at least one wireless access point with the graphic marks is arranged in front of other wireless access points except the at least one wireless access point in all the wireless access points near the user equipment, so that a user belonging to a subsequent user equipment can select the wireless access point for wireless connection from the at least one wireless access point with the graphic marks displayed in front, the user can conveniently and quickly select the wireless access point for wireless connection through the graphic marks, and the connection success rate of the wireless access point selected by the user is improved.

As another example, when the user device ranks all wireless access points according to the graphical indicia of at least one of the wireless access points, and further sorting all the wireless access points by combining the connection related information of each wireless access point in all the wireless access points, further considering the connection related information of each wireless access point which is stored by the user equipment historically and/or is acquired currently, so that the sorting of all the wireless access points is more accurate, while also making the ordering of at least one wireless access point with a graphical mark before the other of said all wireless access points more accurate and efficient, so that the user can, in combination with the connection-related information and the graphical marking, select a wireless access point from which a wireless connection is easier to be achieved, therefore, the attempt of wireless connection of the user is reduced, and the success rate of establishing the wireless connection between the wireless access point selected by the user and the user equipment is improved.

In this embodiment, when the user equipment does not have a wireless network, the user equipment may sort all wireless access points near the user according to the locally acquired connection related information of each wireless access point, so as to ensure the sorting of all wireless access points near the user equipment under the condition of no network, and also facilitate the user to select and try out a wireless access point capable of performing wireless connection as soon as possible according to a sorting result under the condition of no network, thereby improving user experience.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes: and the user equipment displays all the wireless access points to the user according to the sequencing result. For example, when the user equipment sorts all the N wireless access points according to the graphic marks of the respective wireless access points of the M wireless access points having the graphic marks, the obtained sorting result is: in order to facilitate the selection of all the wireless access points by a user to which the user equipment belongs, the user equipment displays all the N wireless access points to the user according to the sequencing result of the N wireless access points so that the user can select the wireless access point (such as the selected wireless access point 4) from the wireless access points which are sequenced at the front in the sequence displayed by the user, and tries to perform wireless connection with the selected wireless access point 4; because the graphic marks of the wireless access points and the connection related information of the wireless access points are comprehensively considered by the wireless access points in the front sequence, the connection power of the wireless connection between the user equipment and the selected wireless access point 4 is relatively higher than the success rate of the wireless connection between the user equipment and other wireless access points in the back sequence, so that all the wireless access points are displayed to the user according to the sequencing result, the frequency of the subsequent user for selecting the wireless access points from all the wireless access points to perform the wireless connection is reduced, the time consumption is reduced, and the success rate of the wireless connection between the wireless access points selected by the user and the user equipment is improved.

Next, in the foregoing embodiment of the present application, the displaying, by the user equipment, all the wireless access points to the user according to the sorting result includes:

and the user equipment displays all the wireless access points and the related information thereof to the user according to the sequencing result. Here, the related information of the wireless access point is used to indicate information that the user can intuitively obtain from the user equipment when displaying the wireless access point, for example, the related information may include, but is not limited to, at least any one of the following: the wireless access point identification method comprises the steps of graphic marks of the wireless access points, marks of cooperative or alliance wireless access points, marks of whether historical connection is successful or not, information of merchants to which the wireless access points belong, current signal strength and the like.

In order to facilitate a user to combine the information of the position of the user, the information of a merchant, the signal strength of a wireless access point and the like, the user equipment displays all the wireless access points to the user according to the sequencing result, simultaneously displays all the wireless accesses and the corresponding related information to the user correspondingly, so that the user can combine the sequencing of all the wireless access points and the corresponding related information visually displayed to the user by the user equipment, and can quickly select a proper wireless access point from all the sequentially displayed wireless access points, so that the user equipment corresponding to the user establishes wireless connection with the selected wireless access point, the data flow and time consumption caused by the connection process that the user continuously tries to connect the wireless access points on the user equipment are reduced, and the user networking experience is improved.

In a method for ordering wireless access points provided in an embodiment of the present application, the ordering, by the user equipment, all the wireless access points according to the graphic mark of the at least one wireless access point includes: the user equipment ranks all the wireless access points based on a first preset time interval. Here, the first preset time interval may be an original time interval, which is built in the user equipment and used for sequencing all displayed wireless access points, or may be a time interval, which is set by the user equipment according to a real-time display requirement of the user (for example, when the user is in a fast moving state, a sequencing update time period of the wireless access points is required to be short, or when the user is in a staying state, the wireless access points do not need to be updated too frequently, and the like), so as to meet a requirement of the user for reordering all the wireless access points. For example, in a preferred embodiment of the present application, if the first preset time interval is selected to be 10 seconds, the user equipment reorders all the wireless access points displayed in sequence every 10 second time interval, so that the user equipment can display all the wireless access points to the user according to the reordered sequence, thereby meeting the real-time requirement of the user on the display of all the displayed wireless access points, and further ensuring the accuracy of the ranking of all the wireless access points.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes:

in response to detecting a new wireless access point other than the all wireless access points, the user equipment sending a second query request to the network equipment, the second query request including an identifier of the new wireless access point; here, the new wireless access point is used to indicate a newly scanned wireless access point except for all wireless access points in the vicinity of the user equipment. For example, after the user equipment displays all the wireless access points nearby in sequence, the user equipment detects new wireless access points except all the wireless access points displayed in sequence due to the movement of the user equipment, in order to reorder all the wireless access points (including the new wireless access points and the wireless access points scanned currently from all the wireless access points displayed in sequence) which can be scanned currently by the user equipment in combination with whether the new wireless access points have graphic marks, the user equipment sends a second query request to the network equipment, wherein the second query request is used for instructing the network equipment to request the network equipment whether the new wireless access points scanned by the user equipment have graphic marks or not, so that after the network equipment receives the second query request from the user equipment, the network equipment locally searches whether the new wireless access points have graphic marks or not and displays the graphic marks of the new wireless access points with graphic marks The message is sent to the user equipment, so that the user equipment requests the network equipment for inquiring whether the newly added wireless access point has the graphic mark.

The user equipment receives the graphic mark of the newly added wireless access point from the network equipment; the graphic mark of the newly added wireless access point is the same as or similar to the graphic mark of the wireless access point, and is not repeated herein.

And the user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points, and the newly added wireless access points which can be scanned by the user equipment and the currently scanned wireless access points in all the wireless access points which are displayed in sequence are reordered by the user equipment, so that the accuracy of the ordering of all the wireless access points which can be scanned by the user equipment at present is further ensured.

For example, the user equipment has 10 wireless access points displayed in sequence, which are: the wireless access points 2, 6, 9, 1, 7, 4, 3, 8, 10 and 5 are moved by the user equipment, so that the signal strength between the current user equipment and all the 10 sequentially displayed wireless access points will change, and at the same time, along with the movement of the user equipment, the user equipment may scan the newly added wireless access point or lose the signal strength with one of the 10 sequentially displayed wireless access points, if the wireless access point losing a slight signal with the user equipment is the wireless access point 6 and 9 and the newly added wireless access point is the wireless access point 11 and 12 during the movement of the user equipment, the user equipment receives the signal from the network equipment, The graphic mark of the newly added wireless access point 11 with the graphic mark and the graphic mark of the newly added wireless access point 12 with the graphic mark which are found locally in the network equipment, the new wireless access points 11 and 12 and the wireless access points 1, 2, 3, 4, 5, 7, 8 and 10 which can be scanned by the user equipment currently in the 10 wireless access points are reordered, so that the reordering of all the wireless access points (the wireless access points 1, 2, 3, 4, 5, 7, 8 and 10 and the new wireless access points 11 and 12) which can be scanned by the user equipment currently is realized, the accuracy of the ordering of the wireless access points is ensured, and the instantaneity of the ordering of the wireless access points is also ensured.

For another example, the user equipment has 10 wireless access points displayed in sequence, which are: the wireless access points 2, 6, 9, 1, 7, 4, 3, 8, 10 and 5 are moved by the user equipment, so that the signal strength between the current user equipment and all the 10 sequentially displayed wireless access points will change, and at the same time, along with the movement of the user equipment, the user equipment may scan the newly added wireless access point or lose the signal strength with one of the 10 sequentially displayed wireless access points, if the newly added wireless access points are the wireless access point 11 and the wireless access point 12 in the moving process of the user equipment, and the user equipment is the wireless access point 12 according to the newly added wireless access point with graphic mark received from the network equipment and found locally in the network equipment, the user equipment reorders the newly added wireless access points 11 and 12 and the 10 wireless access points according to the graphic marks of the newly added wireless access point 12, thereby realizing the reordering of all the wireless access points (the wireless access points 1, 2, 3, 4, 5, 7, 8 and 10 and the newly added wireless access points 11 and 12) which can be scanned by the user equipment currently, not only ensuring the accuracy of the ordering of the wireless access points, but also ensuring the instantaneity of the ordering of the wireless access points.

Following the above-described embodiments of the present application, the method further comprises:

the user equipment acquires the connection related information of the newly added wireless access point; here, the connection related information of the newly added wireless access point is the same as or similar to the connection related information of the wireless access point described above, and is not described herein again.

The user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points, and the reordering comprises the following steps:

and the user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the connection related information of the newly added wireless access points and the graphic marks of the newly added wireless access points.

To further ensure the accuracy of the reordering of all wireless access points that the user device is currently able to scan, for example, while the user device receives the graphical indicia of the newly added wireless access point from the network device, all information related to wireless connection of each newly added wireless access point for indicating the newly added wireless access point in the wireless connection process is also acquired, the method and the device have the advantages that the user equipment integrates the graphic marks of the newly-added wireless access points with the graphic marks and the connection related information of each newly-added wireless access point, which are found locally in the network equipment, to reorder the newly-added wireless access points which can be scanned currently by the user equipment and the currently-scanned wireless access points in all the wireless access points which are displayed in sequence, and improve the accuracy of reordering all the wireless access points which can be scanned currently by the user equipment.

As shown in fig. 2, a method for ranking wireless access points according to another aspect of the present application is applied to a network device side in a process of ranking all wireless access points near a user device, and the method includes:

step S21, the network device receives a first query request from the user device, where the first query request includes identifiers of all wireless access points in the vicinity of the user device; here, the first query request is used to instruct the user equipment to request from the network device whether each of all wireless access points in the vicinity of the user equipment has a graphical marker. For example, when a user belonging to the user equipment needs to query the relevant ranks of all wireless access points in the vicinity of the user equipment, the user may perform a predetermined trigger operation, and when the user equipment detects the predetermined trigger operation, the user equipment may request, from the network equipment, whether each of the all wireless access points in the vicinity of the user equipment has a graphic mark.

Step S22, after the network device receives the first query request sent by the user device in step S21, requesting whether each access point in all wireless access points near the user device has a graphic mark, the network device locally searches whether the wireless access point corresponding to the identifier has a graphic mark and obtains the graphic mark of at least one wireless access point in all wireless access points;

step S23, the network device sends the graphic mark of the at least one wireless access point to the user device, so that the user device sorts all the wireless access points based on the graphic mark of the at least one wireless access point, thereby implementing the sorting of all the wireless access points near the user device.

Through the above steps S21 to S23, it is realized that the graphical mark of at least one of all wireless access points in the vicinity of the user equipment is returned to the user equipment by the network equipment, so that the user equipment sorts all the wireless access points according to the graphical mark of at least one wireless access point received from the network equipment, thereby achieving the purpose of sorting all the wireless access points in the vicinity of the user equipment by the interaction between the network equipment and the user equipment.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes:

the network equipment receives a second inquiry request from the user equipment, wherein the second inquiry request comprises identifiers of the newly added wireless access points except all the wireless access points; here, the new wireless access point is used to indicate a newly scanned wireless access point except for all wireless access points in the vicinity of the user equipment. For example, after the user equipment displays all the wireless access points in the vicinity of the user equipment in sequence, the user equipment detects a new wireless access point except for all the wireless access points displayed in sequence due to the movement of the user equipment, and in order to reorder all the wireless access points (including the new wireless access point and the currently scanned wireless access point among all the wireless access points displayed in sequence) which can be currently scanned by the user equipment in combination with whether the new wireless access point has a graphic mark, the user equipment requests the network equipment to inquire whether the new wireless access point has the graphic mark, so that the network equipment receives the second inquiry request sent by the user equipment.

The network equipment locally searches whether the newly-added wireless access point has the graphic mark or not, and sends the searched graphic mark of the newly-added wireless access point to the user equipment, so that the user equipment reorders the newly-added wireless access point and the currently-scanned wireless access points in all the wireless access points based on the graphic mark of the newly-added wireless access point, and the new-added wireless access point which can be currently scanned by the user equipment and the currently-scanned wireless access points in all the wireless access points which are sequentially displayed are reordered through interaction between the user equipment and the network equipment, thereby further ensuring the accuracy of the ordering of all the wireless access points which can be currently scanned by the user equipment.

In a practical application scenario of the ranking method for wireless access points provided in the embodiments of the present application, when the user a enters an actual location scenario P, if the user a needs to know the correlation ranking of all the wireless access points in the vicinity of the user equipment (for example, 10 wireless access points in the vicinity of the user equipment, respectively, wireless access point 1, wireless access point 2, … …, and wireless access point 10) so as to quickly decide which wireless access point to select for wireless connection attempt or in what order to select for wireless connection attempt, user a may perform a predetermined triggering operation (e.g., open an application that may display all wireless access points, trigger a predetermined key, such as a one-touch query key, and switch foreground from background that may display applications for all wireless access points, etc.) to trigger the start of the process of ranking all 10 wireless access points. If the user a triggers the "one-key query key" at this time, after the user equipment detects the triggering operation of the "one-key query key", the user equipment sends a first query request for querying whether each wireless access point of all wireless access points near the user equipment has a graphic mark to the network equipment. Of course, in order to facilitate the network device to distinguish the wireless access points, the first query request includes identifiers of the wireless access points in the 10 wireless access points, so that the network device can locally search, based on the identifiers, whether the wireless access point corresponding to each identifier has a key mark.

After receiving a first query request for querying whether each wireless access point in 10 wireless access points near the user equipment has a key mark from the user equipment, the network equipment locally searches whether the wireless access point corresponding to each identifier has the key mark according to the identifier of each wireless access point, and if the wireless access points which are locally searched by the network equipment and have the key mark are the wireless access point 2, the wireless access point 6 and the wireless access point 9, the network equipment acquires the key marks of the three wireless access points (the wireless access point 2, the wireless access point 6 and the wireless access point 9) and sends the key marks to the user equipment, so that the network equipment can search whether the 10 wireless access points near the user equipment have the key marks.

After the user equipment receives the graphic marks of the wireless access point 2, the wireless access point 6 and the wireless access point 9 of the 10 wireless access points from the network equipment, the user equipment sorts all the 10 wireless access points near the user equipment according to the graphic marks of the three wireless access points (the wireless access point 2, the wireless access point 6 and the wireless access point 9), and the obtained sorting result is: the wireless access points 2, 6, 9, 1, 7, 4, 3, 8, 10 and 5 realize the sequencing of 10 wireless access points near the user equipment through the interaction between the user equipment and the network equipment.

When the user equipment sorts 10 wireless access points, the sorting result of the 10 wireless access points is displayed to the user A, therefore, the user A can more conveniently and quickly select one wireless access point from 10 wireless access points (the wireless access point 2, the wireless access point 6, the wireless access point 9, the wireless access point 1, the wireless access point 7, the wireless access point 4, the wireless access point 3, the wireless access point 8, the wireless access point 10 and the wireless access point 5) displayed on the user equipment in sequence to perform wireless connection attempt or sequentially perform wireless connection attempt according to the sequencing result, the data flow and time consumption caused by the connection process that the user continuously attempts to connect the wireless access points on the user equipment are reduced, the sequence tendency when the user is recommended to perform the selection of the wireless access points is provided, and the user networking experience is improved.

And in the second case, the sequencing step of sequencing all the wireless access points near the user equipment is executed by the network equipment, so that the occupation of the memory resource of the user equipment is saved.

As shown in fig. 3, a method for ranking radio access points according to another aspect of the present application is applied to a user equipment side in a process of ranking all radio access points in the vicinity of the user equipment, and the method includes:

step S31, the user equipment acquires all wireless access points near the user equipment; here, all the wireless access points in the vicinity of the user equipment are used to indicate all the wireless access points in the vicinity that can be scanned by the user equipment.

Step S32, in response to the detected predetermined trigger operation, the user equipment sends a third query request to the network equipment, where the third query request includes identifiers of all the wireless access points, so that the network equipment locally searches whether the wireless access point corresponding to the identifier has a graphic mark and obtains the graphic mark of at least one of the all the wireless access points, and sorts all the wireless access points according to the graphic mark of the at least one wireless access point; for example, when a user to which the user equipment side belongs needs to query the relevant ranks of all wireless access points in the vicinity of the user equipment, the user equipment may perform a predetermined trigger operation, and when the user equipment detects the predetermined trigger operation, the user equipment may send, to the network equipment, a third query request for instructing the user equipment to request, from the network equipment, whether each of all wireless access points in the vicinity of the user equipment has a graphic mark, where the third query request is the same as or similar to the first query request in case one, and is not described here again.

After receiving the third query request from the user equipment, the network equipment locally searches whether the wireless access points corresponding to the identifiers have the graphic marks or not and obtains the graphic marks of at least one of the searched wireless access points, and then sorts all the wireless access points according to the graphic marks of the at least one wireless access point and sends the sorting result to the user equipment, so that the step of sorting all the wireless access points near the user equipment on the network equipment is realized, and the occupation of memory resources for sorting all the wireless access points by the user equipment is omitted.

Step S33, the user equipment receives the sequencing result of all the wireless access points from the network device, so that the user can quickly select one wireless access point from all the wireless access points displayed in sequence by the user equipment for wireless connection, thereby reducing data traffic and time consumption caused by the connection process of the user continuously trying to connect the wireless access points on the user equipment, and improving the user experience during networking.

Through the steps S31 to S33, the network device executes and sorts all the wireless access points that can be scanned near the user device, so that the user device can directly receive the sorted results of all the wireless access points from the network device, the memory resource occupation of the user device for sorting all the wireless access points is saved, the user device can react more smoothly in the using process, and the user networking experience is improved.

In this embodiment, the predetermined trigger operation is the same as the predetermined trigger operation in case one, and is not described herein again; the graphic mark of the wireless access point is the same as the graphic mark of each wireless access point in all the wireless access points near the user equipment in the first case, and is not repeated herein.

The method for ordering wireless access points provided in an embodiment of the present application further includes:

the user equipment acquires the connection related information of each wireless access point in all the wireless access points; here, the connection related information of the wireless access point is used to reflect all information related to wireless connection of the wireless access point in the wireless connection process, and the connection related information of the wireless access point is the same as the connection related information of the wireless access point in the first case, and is not described herein again.

Wherein the third query request further includes connection-related information of each of the all wireless access points, so that the user equipment simultaneously transmits the identifiers of all wireless access points in its vicinity to the network device, the connection related information of each of all the wireless access points is also transmitted to the network device, such that the network device locally looks up whether the wireless access points corresponding to the respective identifiers have a graphical indicia and obtains the graphical indicia of at least one wireless access point having a graphical indicia, and the network equipment comprehensively considers the connection related information of each wireless access point in all the wireless access points and the graphic mark of at least one wireless access point to sequence all the wireless access points, thereby further ensuring the sequencing accuracy of all the wireless access points near the user equipment.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes: and the user equipment displays all the wireless access points to the user according to the sequencing result. For example, when the user equipment sorts all the N wireless access points according to the graphic marks of the respective wireless access points of the M wireless access points having the graphic marks, the obtained sorting result is: in order to facilitate the selection of all the wireless access points by a user to which the user equipment belongs, the user equipment displays all the N wireless access points to the user according to the sequencing result of the N wireless access points so that the user can select the wireless access point (such as the selected wireless access point 4) from the wireless access points which are sequenced at the front in the sequence displayed by the user, and tries to perform wireless connection with the selected wireless access point 4; because the graphic marks of the wireless access points and the connection related information of the wireless access points are comprehensively considered by the wireless access points in the front sequence, the connection power of the wireless connection between the user equipment and the selected wireless access point 4 is relatively higher than the success rate of the wireless connection between the user equipment and other wireless access points in the back sequence, so that all the wireless access points are displayed to the user according to the sequencing result, the frequency of the subsequent user for selecting the wireless access points from all the wireless access points to perform the wireless connection is reduced, the time consumption is reduced, and the success rate of the wireless connection between the wireless access points selected by the user and the user equipment is improved.

In the above embodiment of the present application, the displaying, by the user equipment, the all wireless access points to the user according to the sorting result includes:

and the user equipment displays all the wireless access points and the related information thereof to the user according to the sequencing result. Here, the related information of the wireless access point is used to indicate information that a user can intuitively obtain when the user equipment displays the wireless access point, and the related information of the wireless access point is the same as the related information of the wireless access point in the first case, and is not described herein again.

In order to facilitate the selection of the wireless access point by the user by combining the information of the position of the user, the information of the merchant, the signal strength and the like away from the wireless access point, the user equipment displays all the wireless access points to the user according to the sequencing result, each wireless access and the corresponding related information thereof are correspondingly displayed to the user, so that the user can combine the sequence of each wireless access point intuitively displayed to the user by the user equipment and the corresponding related information, quickly select the proper wireless access point from all the sequentially displayed wireless access points, therefore, the user equipment establishes wireless connection with the selected wireless access point, data flow and time consumption caused by the connection process that the user continuously tries to connect the wireless access point on the user equipment are reduced, and user networking experience is improved.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes:

in response to the detected new wireless access points except for all the wireless access points, the user equipment sends a fourth query request to the network equipment, wherein the fourth query request comprises the identifiers of the new wireless access points, so that the network equipment locally searches the graphic marks of the new wireless access points, and reorders the new wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the new wireless access points; here, the new wireless access point is used to indicate a newly scanned wireless access point except for all wireless access points in the vicinity of the user equipment. For example, after the user equipment displays all the wireless access points nearby in sequence, the user equipment detects new wireless access points except all the wireless access points displayed in sequence due to the movement of the user equipment, in order to reorder all the wireless access points (including the new wireless access points and the wireless access points scanned currently from all the wireless access points displayed in sequence) which can be scanned currently by the user equipment according to whether the new wireless access points have graphic marks, the user equipment requests the network equipment whether the new wireless access points scanned by the user equipment have the graphic marks, so that after the network equipment receives a fourth query request from the user equipment, the network equipment locally searches whether the new wireless access points corresponding to the identifiers have the graphic marks, and performs graphic mark processing on the new wireless access points and the current wireless access points in all the new wireless access points according to the graphic marks of the new wireless access points The scanned wireless access points are reordered, and the reordering result is sent to the user equipment, so that the newly-added wireless access points currently scanned by the user equipment and the wireless access points which can be currently scanned in all the wireless access points displayed in sequence are reordered through the network equipment, and the accuracy of the ordering of the wireless access points which can be scanned nearby the user equipment is further ensured.

The user equipment receives the newly added wireless access points and the reordering results of the currently scanned wireless access points in all the wireless access points from the network equipment, and not only is the timeliness of the ordering of the wireless access points which can be scanned nearby the user equipment satisfied, but also the accuracy of the ordering of the wireless access points is improved through the newly added wireless access points scanned by the user equipment and the reordering of the currently scanned wireless access points in all the wireless access points which are displayed in sequence.

The method for ordering wireless access points provided in an embodiment of the present application further includes:

the user equipment acquires the connection related information of the newly added wireless access point; here, the connection related information of the newly added wireless access point is the same as the connection related information of the wireless access point in the first case, and is not described herein again.

The fourth query request further includes connection-related information of the newly added wireless access point, so that the network device reorders the newly added wireless access point and currently scanned wireless access points of all the wireless access points according to the graphic marks of the newly added wireless access points and the connection-related information of the newly added wireless access points.

For example, in order to further ensure the accuracy of reordering all the wireless access points that can be currently scanned by the user equipment, the user equipment sends a request including an identifier of the newly added wireless access point to the network equipment, and simultaneously sends the connection related information of the newly added wireless access point to the network equipment, so that the network equipment reorders the newly added wireless access point that can be currently scanned by the user equipment and the currently scanned wireless access points among all the wireless access points that can be currently scanned by the user equipment in combination with the connection related information of the newly added wireless access point and the graphic mark of the newly added wireless access point that is locally found by the network equipment, and the accuracy of reordering all the wireless access points that can be currently scanned by the user equipment by the network equipment is improved.

As shown in fig. 4, a method for ranking wireless access points according to another aspect of the present application is applied to a network device side in a process of ranking all wireless access points near a user device, and the method includes:

step S41, the network device receives a third query request from the user device, where the third query request includes identifiers of all wireless access points in the vicinity of the user device, where the third query request is used to instruct the user device to request, from the network device, whether each of all wireless access points in the vicinity of the user device has a graphic mark, and the third query request is the same as the first query request in case one, and is not described herein again. For example, when a user of the user equipment needs to query the relevant ranks of all wireless access points in the vicinity of the user equipment, the user may perform a predetermined trigger operation, and after the user equipment detects the predetermined trigger operation, the user equipment may request, from the network equipment, whether each of all wireless access points in the vicinity of the user equipment has a graphic mark, so that the network equipment receives, from the user equipment, a third query request for querying whether each of all wireless access points in the vicinity of the user equipment has a graphic mark.

Step S42, the network device locally searches whether the wireless access point corresponding to the identifier has a graphic mark and obtains the graphic mark of at least one wireless access point in all the wireless access points;

step S43, the network device sorts all the wireless access points according to the graphic marks of the at least one wireless access point and sends the sorting results to the user device, so that the user device receives the sorting results of all the wireless access points from the network device, thereby implementing the step of sorting all the wireless access points near the user device by the network device, and saving the memory resource occupied by the user device for sorting all the wireless access points; meanwhile, the user equipment receives the sequencing results of all the wireless access points nearby the user equipment from the network equipment, so that the user can more conveniently and quickly select one wireless access point from all the wireless access points displayed by the user equipment in sequence, and the user equipment establishes wireless connection with the selected wireless access point, thereby not only reducing data flow and time consumption caused by the connection process of continuously trying to connect the wireless access points on the user equipment by the user, but also improving the user networking experience.

Next to the foregoing embodiment of the present application, the third query request further includes connection-related information of each wireless access point in all the wireless access points, where the connection-related information of the wireless access point is used to reflect all information related to wireless connection of the wireless access point in a wireless connection process, and the connection-related information of the wireless access point is the same as the connection-related information of the wireless access point in case one, and is not described herein again.

The network device ranks the wireless access points according to the graphical indicia of the at least one wireless access point, including:

the network equipment sequences all the wireless access points according to the connection related information of each wireless access point in all the wireless access points and the graphic mark of at least one wireless access point, realizes that the connection related information of each wireless access point in all the wireless access points and the graphic mark of at least one wireless access point are combined on the network equipment to comprehensively sequence all the wireless access points near the user equipment, achieves the aim of performing the step of sequencing all the wireless access points near the user equipment on the network equipment, further ensures the accuracy of sequencing all the wireless access points near the user equipment, thereby improving the accuracy of directly receiving the sequencing result of sequencing all the wireless access points from the network equipment by the user equipment so that the user can quickly select the wireless access points from all the wireless access points displayed in sequence, and the user equipment establishes wireless connection with the selected wireless access point, so that the occupation of memory resources for sequencing all the wireless access points by the user equipment is saved, the user can conveniently and quickly select the wireless access point for performing wireless connection, and the user networking experience is further improved.

Following the foregoing embodiment of the present application, the network device sorts the all wireless access points according to the graphic marks of the at least one wireless access point, including:

the network equipment arranges the at least one wireless access point in front of other wireless access points except the at least one wireless access point in all the wireless access points, so that a subsequent user can conveniently and quickly select a proper wireless access point from the front wireless access points displayed on the user equipment in sequence, the user equipment is enabled to establish wireless connection with the selected wireless access point, the user can conveniently and quickly select the wireless access point for wireless connection, and the experience of the user in networking and selecting the wireless access point is further improved.

Here, the sorting method in which the network device ranks the at least one wireless access point before the other wireless access points in all the wireless access points is consistent with the sorting method in which the user device ranks the at least one wireless access point before the other wireless access points in all the wireless access points in case one, and details are not repeated here.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes: the network device ranks the wireless access points according to the graphical indicia of the at least one wireless access point, including:

the network device ranks the all wireless access points based on a second preset time interval. Here, the second predetermined time interval is the same as a predetermined time interval in case one, and is not described herein again. For example, in a preferred embodiment of the present application, if the second preset time interval is selected to be 10 seconds, all wireless access points corresponding to identifiers sent to the network device by the user device are reordered on the network device every 10 second time interval, and a reordering result is sent to the network device, so that the user device can display all currently scanned wireless access points to the user according to a reordered sequence, thereby meeting a real-time requirement of the user on display of all displayed wireless access points, and further ensuring accuracy of ranking of all wireless access points.

In a method for ordering wireless access points provided in an embodiment of the present application, the method further includes:

the network device receives a fourth query request from the user equipment, where the fourth query request includes the identifier of the newly added wireless access point, and here, the fourth query request is the same as the second query request in case one, and details are not repeated here.

The network equipment searches the graphic mark of the newly added wireless access point locally;

and the network equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points and sends the result of the reordering to the user equipment.

For example, after the user equipment displays all the wireless access points in the vicinity thereof in sequence, the user equipment detects a new wireless access point except for all the wireless access points displayed in sequence due to the movement of the user equipment, in order to facilitate the network device to reorder all the wireless access points that the user device can currently scan (including the new wireless access point and the currently scanned wireless access point of all the wireless access points displayed in sequence) in combination with whether the new wireless access point has a graphic mark, the user device will send the identifier of the new wireless access point to the network device, so that after receiving the identifier of the newly added wireless access point from the user equipment, the network equipment locally searches whether the newly-added wireless access point has the graphic mark or not and obtains the graphic mark of the newly-added wireless access point with the graphic mark; and then, the network equipment rearranges the newly added wireless access points near the user equipment and the currently scanned wireless access points in all the sequentially displayed wireless access points by combining the graphic marks of the newly added wireless access points and sends the rearrangement result to the user equipment, so that the steps of performing the arrangement on the newly added wireless access points near the user equipment and the currently scanned wireless access points in all the sequentially displayed wireless access points at the network equipment end are realized, the accuracy of the arrangement of all the wireless access points which can be currently scanned by the user equipment by the network equipment is ensured, the arrangement of the wireless access points which can be currently scanned by the user equipment is also avoided, and the occupation of memory resources for arranging all the wireless access points by the user equipment is further saved.

Following the above-described embodiments of the present application, the fourth query request further includes connection-related information of the newly-added wireless access point,

the network device reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points, and the reordering comprises the following steps:

and the network equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points and the connection related information of the newly added wireless access points.

For example, in order to further ensure the accuracy of reordering all the wireless access points that can be currently scanned by the user equipment, the user equipment sends the table identifier of the newly added wireless access point to the network equipment, and also sends the connection related information of each newly added wireless access point, which is used for indicating the newly added wireless access point in the wireless connection process, to the network equipment, so that the network equipment reorders the newly added wireless access points that can be currently scanned by the user equipment and the currently scanned wireless access points among all the wireless access points that are sequentially displayed, in combination with the locally found graphic identifier of the newly added wireless access point with the graphic identifier and the connection related information of each newly added wireless access point, and the accuracy of reordering all the wireless access points that can be currently scanned by the user equipment by the network equipment is improved.

In a practical application scenario of the ranking method for wireless access points provided in the embodiments of the present application, when the user a enters an actual location scenario P, if the user a needs to know the correlation ranking of all the wireless access points in the vicinity of the user equipment (for example, 10 wireless access points in the vicinity of the user equipment, respectively, wireless access point 1, wireless access point 2, … …, and wireless access point 10) so as to quickly decide which wireless access point to select for wireless connection attempt or in what order to select for wireless connection attempt, user a may perform a predetermined triggering operation (e.g., open an application that may display all wireless access points, trigger a predetermined key, such as a one-touch query key, and switch foreground from background that may display applications for all wireless access points, etc.) to trigger the start of the process of ranking all 10 wireless access points. If the user a triggers the "one-key query key" at this time, after the user equipment detects the triggering operation of the "one-key query key", the user equipment sends a third query request including identifiers of wireless access points of all wireless access points in the vicinity of the user equipment to the network equipment, so that when the network equipment queries whether the wireless access points in the vicinity of the user equipment have the graphic marks, the user equipment distinguishes the wireless access points.

After the network device receives the identifier containing the identifier of each wireless access point in 10 wireless access points near the user device from the user device, the network device locally searches whether the wireless access point corresponding to each identifier has a key mark according to the identifier of each wireless access point, and if the wireless access points with the key marks, which are locally searched by the network device, are the wireless access point 2, the wireless access point 6 and the wireless access point 9, the network device obtains the key marks of the three wireless access points (the wireless access point 2, the wireless access point 6 and the wireless access point 9), so that whether the 10 wireless access points near the user device have the key marks in the network device is realized.

Then, the network device sorts all 10 wireless access points near the user device according to the locally searched and obtained graphic marks of the wireless access point 2, the wireless access point 6 and the wireless access point 9 in the 10 wireless access points, and the obtained sorting result is: wireless access points 2, 6, 9, 1, 7, 4, 3, 8, 10 and 5; and then, the network equipment sends the sequencing result to the user equipment, so that the step of sequencing 10 wireless access points nearby the user equipment is executed at the network equipment end, and the occupation of the memory resources of the sequencing of the 10 wireless access points nearby the user equipment by the user equipment is saved.

Finally, after the user equipment receives the ranking results of the 10 wireless access points from the network equipment, the user equipment will perform the ranking on the ranking results of the 10 wireless access points: the wireless access points 2, 6, 9, 1, 7, 4, 3, 8, 10 and 5 are displayed to the user a, so that the user a can more conveniently and quickly select one wireless access point from the 10 wireless access points (2, 6, 9, 1, 7, 4, 3, 8, 10 and 5) displayed on the user equipment in sequence to perform wireless connection attempt or perform wireless connection attempt in sequence according to the sequencing result, which not only reduces the data traffic and time consumption caused by the connection process of the user continuously trying to connect wireless access points on the user equipment, sequential tendencies in suggesting the user for selection of wireless access points are also provided, thereby enhancing the user experience in networking.

Fig. 5 shows a schematic structural diagram of a user equipment according to another aspect of the present application, where the user equipment includes a first obtaining device 11, a first transmitting device 12, a first receiving device 13, and a first sequencing device 14, where:

a first obtaining device 11, configured to obtain, by a user equipment, all wireless access points in the vicinity of the user equipment;

first sending means 12, configured to, in response to a detected predetermined trigger operation, send a first query request to a network device, where the first query request includes identifiers of respective wireless access points in all the wireless access points, so that the network device locally searches whether a wireless access point corresponding to the identifier has a graphical mark;

first receiving means 13 for receiving from the network device a graphical indicia of at least one of the all wireless access points;

a first ordering means 14 for ordering all wireless access points according to the graphical indicia of the at least one wireless access point.

It should be noted that the content executed by the first obtaining device 11, the first sending device 12, the first receiving device 13 and the first sorting device 14 is the same as or corresponding to the content in the above steps S11, S12, S13 and S14, and for brevity, the description is omitted here.

Fig. 6 shows a schematic structural diagram of a network device provided according to another aspect of the present application, the network device includes a second receiving apparatus 21, a first searching apparatus 22, and a second sending apparatus 23, where:

second receiving means 21, configured to receive a first query request from a user equipment, where the first query request includes identifiers of respective wireless access points of all wireless access points in the vicinity of the user equipment;

a first searching device 22, configured to locally search whether the wireless access point corresponding to the identifier has a graphic mark, and obtain a graphic mark of at least one of the all wireless access points;

second sending means 23, configured to send the graphical identifier of the at least one wireless access point to the user equipment, so that the user equipment sorts all the wireless access points based on the graphical identifier of the at least one wireless access point.

It should be noted that the contents executed by the second receiving device 21, the first searching device 22 and the second sending device 23 are respectively the same as or corresponding to the contents executed in the above steps S21, S22 and S23, and for brevity, are not described again here.

Fig. 7 shows a schematic structural diagram of a user equipment according to another aspect of the present application, the user equipment includes a second obtaining device 31, a third sending device 32, and a third receiving device 33, where:

second acquiring means 31, configured to acquire, by a user equipment, all wireless access points in the vicinity of the user equipment;

third sending means 32, configured to, in response to the detected predetermined trigger operation, send a third query request to the network device, where the third query request includes identifiers of all the wireless access points, so that the network device locally searches whether the wireless access point corresponding to the identifier has a graphical marker and obtains the graphical marker of at least one of the all the wireless access points, and sorts all the wireless access points according to the graphical marker of the at least one wireless access point;

third receiving means 33, configured to receive the ranking results of all the wireless access points from the network device;

it should be noted that the content executed by the second obtaining device 31, the third sending device 32, and the third receiving device 33 is the same as or corresponding to the content in the above steps S31, S32, and S33, respectively, and for brevity, the description thereof is omitted here.

Fig. 8 shows a schematic structural diagram of a network device provided according to another aspect of the present application, the network device includes a fourth receiving means 41, a second searching means 42, and a second sorting means 43, where:

a fourth receiving device 41, configured to locally search whether the wireless access point corresponding to the identifier has a graphic mark, and obtain a graphic mark of at least one of the all wireless access points;

second search means 42, configured to, in response to the detected predetermined trigger operation, send a third search request to the network device, where the third search request includes identifiers of all the wireless access points, so that the network device locally searches whether the wireless access point corresponding to the identifier has a graphical mark and obtains the graphical mark of at least one of the all the wireless access points, and sorts all the wireless access points according to the graphical mark of the at least one wireless access point;

a second sorting device 43, configured to, by the network device, sort all the wireless access points according to the graphic mark of the at least one wireless access point, and send a sorting result to the user equipment.

It should be noted that the content executed by the fourth receiving device 41, the second searching device 42, and the second sorting device 43 is the same as or corresponding to the content in the above steps S41, S42, and S43, respectively, and for brevity, the description thereof is omitted here.

According to another aspect of the present application, there is also provided a computer readable medium having stored thereon computer readable instructions, which, when executed by a processor, cause the processor to implement the ordering of wireless access points as described in case one above.

According to another aspect of the present application, there is also provided a user equipment, wherein it includes:

one or more processors;

a computer-readable medium for storing one or more computer-readable instructions,

when executed by the one or more processors, the one or more computer-readable instructions cause the one or more processors to implement the ordering method for the wireless access point at the user equipment side as described in the above scenario.

Here, for details of each embodiment of the user equipment, reference may be specifically made to corresponding parts of the ordering method embodiment for the wireless access point at the user equipment end in the above-mentioned case one, and details are not described here again.

According to another aspect of the present application, there is also provided a network device, wherein it includes:

one or more processors;

a computer-readable medium for storing one or more computer-readable instructions,

when executed by the one or more processors, the one or more computer-readable instructions cause the one or more processors to implement the method for ordering for wireless access points at a network device side as described in the above scenario.

Here, for details of each embodiment of the network device, reference may be specifically made to corresponding parts of the ordering method embodiment for the wireless access point at the user equipment end in the foregoing first case, and details are not described here again.

According to another aspect of the present application, there is also provided a computer readable medium having stored thereon computer readable instructions, which, when executed by a processor, cause the processor to implement the ordering of wireless access points as described in case one above.

According to another aspect of the present application, there is also provided a user equipment, wherein it includes:

one or more processors;

a computer-readable medium for storing one or more computer-readable instructions,

when executed by the one or more processors, the one or more computer-readable instructions cause the one or more processors to implement the method for ordering for wireless access points at the user equipment side as described in case two above.

Here, for details of each embodiment of the user equipment, reference may be specifically made to corresponding parts of the embodiment of the ordering method for the wireless access point at the user equipment end described in the foregoing second scenario, and details are not described here again.

According to another aspect of the present application, there is also provided a network device, wherein it includes:

one or more processors;

a computer-readable medium for storing one or more computer-readable instructions,

when executed by the one or more processors, the one or more computer-readable instructions cause the one or more processors to implement the method for ordering wireless access points at a network device side as described in case two above.

Here, for details of each embodiment of the network device, reference may be specifically made to corresponding parts of the ordering method embodiment for the wireless access point at the user equipment end in the foregoing first case, and details are not described here again.

In summary, the present application obtains all wireless access points near the user equipment through the user equipment; when a user needs to learn the relevant sequencing of all wireless access points in the vicinity of user equipment so as to quickly decide the selection of the wireless access points, the user equipment can execute a predetermined trigger operation, and when the user equipment detects the predetermined trigger operation, the user equipment sends a first query request to network equipment, wherein the first query request comprises identifiers of all the wireless access points in the vicinity of the user equipment, so that after subsequent network equipment receives the first query request from the user equipment, the network equipment locally searches whether the wireless access point corresponding to the identifier in the first query request has a graphic mark or not and obtains the graphic mark of at least one wireless access point in all the wireless access points, and then the network equipment sends the graphic mark of the at least one wireless access point to the user equipment, the user equipment sequences all the wireless access points according to the received graphic mark of at least one wireless access point in all the wireless access points from the network equipment, so that the sequencing of all the wireless access points near the user equipment is realized through the user equipment, a user can conveniently and quickly select one wireless access point from all the wireless access points displayed in sequence at the user equipment terminal, the data flow and time consumption caused by the connection process that the user continuously tries to connect the wireless access points on the user equipment are reduced, and the user networking experience is improved.

Further, the method comprises the steps that all wireless access points near the user equipment are obtained through the user equipment; when a user needs to learn the relevant sequencing of all wireless access points in the vicinity of the user equipment so as to quickly decide the selection of the wireless access points, the user equipment can execute a preset triggering operation, and after the user equipment detects the preset triggering operation, the user equipment can send a third query request to the network equipment, wherein the third query request comprises identifiers of all the wireless access points, so that the network equipment locally searches whether the wireless access point corresponding to the identifier has a graphic mark or not and obtains the graphic mark of at least one of the all the wireless access points, and then the network equipment sequences all the wireless access points according to the graphic mark of the at least one wireless access point and sends the sequencing result to the user equipment, so that the user equipment receives the sequencing result of all the wireless access points from the network equipment, the step of sequencing all the wireless access points near the user equipment is executed through the network equipment, so that the memory resource for sequencing all the wireless access points by the user equipment is saved; meanwhile, the user equipment receives the sequencing results of all the wireless access points nearby the user equipment from the network equipment, so that the user can conveniently and quickly select one wireless access point from all the wireless access points displayed by the user equipment in sequence, the data flow and time consumption caused by the connection process that the user continuously tries to connect the wireless access points on the user equipment are reduced, and the user networking experience is improved.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. Likewise, the software programs (including associated data structures) of the present application may be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Additionally, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Program instructions which invoke the methods of the present application may be stored on a fixed or removable recording medium and/or transmitted via a data stream on a broadcast or other signal-bearing medium and/or stored within a working memory of a computer device operating in accordance with the program instructions. An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims (16)

1. A method for ordering wireless access points, the method comprising:

the method comprises the steps that user equipment acquires all wireless access points near the user equipment;

in response to the detected preset trigger operation, the user equipment sends a first query request to network equipment, wherein the first query request comprises identifiers of all wireless access points, so that the network equipment locally searches whether the wireless access points corresponding to the identifiers have graphic marks or not, and the graphic marks exist in part of the wireless access points in the network equipment;

the user equipment receiving from the network equipment a graphical indicia of at least one of the all wireless access points;

the user equipment sequences all the wireless access points according to the graphic marks of the at least one wireless access point;

wherein the method further comprises:

in response to detecting a new wireless access point other than the all wireless access points, the user equipment sending a second query request to the network equipment, the second query request including an identifier of the new wireless access point;

the user equipment receives the graphic mark of the newly added wireless access point from the network equipment;

and the user equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points.

2. The method of claim 1, further comprising:

the user equipment acquires the connection related information of each wireless access point in all the wireless access points;

the user equipment ranks the all wireless access points according to the graphic marks of the at least one wireless access point, and the ranking comprises the following steps:

and the user equipment sequences all the wireless access points according to the connection related information of each wireless access point in all the wireless access points and the graphic mark of at least one wireless access point.

3. The method according to claim 1 or 2, wherein the user equipment ranks the all wireless access points according to the graphical indicia of the at least one wireless access point, comprising:

the user equipment ranks the at least one wireless access point before other wireless access points of the all wireless access points except the at least one wireless access point.

4. The method according to claim 1 or 2, characterized in that the method further comprises:

and the user equipment displays all the wireless access points to the user according to the sequencing result.

5. The method according to claim 1 or 2, wherein the predetermined trigger operation comprises any one of:

triggering the operation of a preset key;

sliding interfaces, which are used for displaying all acquired wireless access points, on the user equipment according to a preset movement track;

and triggering an interface which is used for indicating switching to the user equipment and is used for displaying all the acquired wireless access points.

6. A method for ordering wireless access points, the method comprising:

a network device receives a first query request from a user device, the first query request including identifiers of respective wireless access points of all wireless access points in the vicinity of the user device;

the network equipment locally searches whether the wireless access points corresponding to the identifiers have graphic marks or not and obtains the graphic marks of at least one wireless access point in all the wireless access points, wherein the graphic marks exist in part of the wireless access points in the network equipment;

the network equipment sends the graphic mark of the at least one wireless access point to the user equipment, so that the user equipment orders all the wireless access points based on the graphic mark of the at least one wireless access point;

wherein the method further comprises:

the network equipment receives a second inquiry request from the user equipment, wherein the second inquiry request comprises identifiers of the newly added wireless access points except all the wireless access points;

and the network equipment searches the graphic mark of the newly-added wireless access point locally and sends the graphic mark to the user equipment, so that the user equipment reorders the newly-added wireless access point and the currently scanned wireless access points in all the wireless access points based on the graphic mark of the newly-added wireless access point.

7. A method for ordering wireless access points, the method comprising:

the method comprises the steps that user equipment acquires all wireless access points near the user equipment;

in response to the detected preset trigger operation, the user equipment sends a third query request to a network device, wherein the third query request comprises identifiers of all wireless access points, so that the network device locally searches whether the wireless access point corresponding to the identifier has a graphic mark and obtains the graphic mark of at least one of the all wireless access points, and sorts all the wireless access points according to the graphic mark of the at least one wireless access point, wherein the graphic mark exists in some wireless access points in the network device;

the user equipment receives the sequencing results of all the wireless access points from the network equipment;

wherein the method further comprises:

in response to detecting a new wireless access point other than all the wireless access points, the user equipment sends a fourth query request to the network equipment, wherein the fourth query request comprises an identifier of the new wireless access point, so that the network equipment locally searches for a graphic mark of the new wireless access point, and reorders the new wireless access point and currently scanned wireless access points in all the wireless access points according to the graphic mark of the new wireless access point;

and the user equipment receives the new wireless access point and the reordering result of the currently scanned wireless access points in all the wireless access points from the network equipment.

8. The method of claim 7, further comprising:

the user equipment acquires the connection related information of each wireless access point in all the wireless access points;

the third query request further includes connection-related information of each of the all wireless access points, so that the network device orders all the wireless access points according to the connection-related information of each of the all wireless access points and the graphical mark of the at least one wireless access point.

9. The method according to claim 7 or 8, characterized in that the method further comprises:

and the user equipment displays all the wireless access points to the user according to the sequencing result.

10. The method according to claim 7 or 8, wherein the predetermined trigger operation comprises any one of:

triggering the operation of a preset key;

sliding interfaces, which are used for displaying all acquired wireless access points, on the user equipment according to a preset movement track;

and triggering an interface which is used for indicating switching to the user equipment and is used for displaying all the acquired wireless access points.

11. A method for ordering wireless access points, the method comprising:

the network device receiving a third query request from the user device, the third query request including identifiers of respective ones of all wireless access points in the vicinity of the user device,

the network equipment locally searches whether the wireless access points corresponding to the identifiers have graphic marks or not and obtains the graphic marks of at least one wireless access point in all the wireless access points, wherein the graphic marks exist in part of the wireless access points in the network equipment;

the network equipment sorts all the wireless access points according to the graphic marks of the at least one wireless access point and sends the sorting result to the user equipment;

wherein the method further comprises:

the network device receiving a fourth query request from the user device, the fourth query request including an identifier of a newly added wireless access point,

the network equipment searches the graphic mark of the newly added wireless access point locally;

and the network equipment reorders the newly added wireless access points and the currently scanned wireless access points in all the wireless access points according to the graphic marks of the newly added wireless access points and sends the result of the reordering to the user equipment.

12. The method according to claim 11, wherein the third query request further includes connection-related information of each of the all wireless access points,

the network device ranks the wireless access points according to the graphical indicia of the at least one wireless access point, including:

and the network equipment sequences all the wireless access points according to the connection related information of each wireless access point in all the wireless access points and the graphic marks of at least one wireless access point.

13. The method of claim 11 or 12, wherein the network device ranks the all wireless access points according to the graphical indicia of the at least one wireless access point, comprising:

the network device ranks the at least one wireless access point before other wireless access points of the all wireless access points except the at least one wireless access point.

14. A computer readable medium having computer readable instructions stored thereon, which, when executed by a processor, cause the processor to implement the method of any one of claims 1 to 13.

15. A user equipment, wherein it comprises:

one or more processors;

a computer-readable medium for storing one or more computer-readable instructions,

when executed by the one or more processors, cause the one or more processors to implement the method of any one of claims 1-5 or 8-10.

16. A network device, wherein it comprises:

one or more processors;

a computer-readable medium for storing one or more computer-readable instructions,

when executed by the one or more processors, cause the one or more processors to implement the method of any one of claims 6 or 11 to 13.

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