CN112669499B - Radio frequency parameter application method, radio frequency parameter pushing method, wearable device, terminal and system - Google Patents

Abstract

The invention discloses a radio frequency parameter application method, which comprises the following steps: initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list; generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal; and the receiving terminal switches the currently applied radio frequency parameters into the radio frequency parameters based on the radio frequency parameters issued by the radio frequency parameter acquisition request so as to start the gate. The invention also discloses a radio frequency parameter pushing method, wearable equipment, a terminal and a system, wherein a plurality of radio frequency parameters are built in the wearable equipment, and new radio frequency parameters are directly obtained from the terminal when the built-in parameters can not open the gate, so that the method for actively improving the card swiping performance of the equipment by the intelligent equipment is realized without applying and issuing through a server, the situation that a user can not process the situation when the gate can not be opened is improved, and the user experience is improved.

Description

Radio frequency parameter application method, radio frequency parameter pushing method, wearable device, terminal and system

Technical Field

The invention relates to the technical field of control of intelligent wearable equipment, in particular to a radio frequency parameter application method, a radio frequency parameter pushing method, wearable equipment, a terminal and a system.

Background

Along with the convenience of intelligent equipment use, bring more and more convenience for people. The realization of NFC simulation access card function wherein can make the user can directly use the NFC function on the intelligent wearable equipment to replace the entity card when passing in and out the cell, nevertheless because present entrance guard gate quality, performance are good and uneven for the gate is discerned the in-process of smart machine and is discerned the failure, the condition such as not opening the door of brushing that appears often promptly causes inconvenience for the user, influences user experience.

At present, a set of general radio frequency parameters is prefabricated in the smart device in advance, when a user cannot swipe a card, the general radio frequency parameters are fed back to an after-sales service center, and then a set of radio frequency parameters is issued to a server through which the user passes, so that the card swiping performance of the smart device of the user is improved.

According to the method for improving the card swiping performance of the intelligent device, the user-the after-sales service center-the mobile phone app-the intelligent device-verifies again, the process is complex, the actual situation of the user under the current situation cannot be solved, the verification result has high uncertainty, if the verification fails, a set of complex process needs to be carried out, great inconvenience is brought to the user, and the user experience is reduced.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a radio frequency parameter application method, a radio frequency parameter pushing method, wearable equipment, a terminal and a system. The method aims to solve the technical problem that the execution flow of the existing scheme for improving the card swiping performance of the intelligent equipment is too complex and influences user experience.

In order to achieve the above object, the present invention provides a radio frequency parameter application method, which includes the following steps:

initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list;

generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal;

and the receiving terminal switches the currently applied radio frequency parameters into the radio frequency parameters based on the radio frequency parameters issued by the radio frequency parameter acquisition request so as to start the gate.

Optionally, before the step of initiating the radio frequency parameter switching instruction through the preset radio frequency parameter list interface, the method further includes:

starting a gate by starting preset radio frequency parameters;

and when the gate opening by the preset radio frequency parameters fails, executing a step of initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list interface.

Optionally, the step of enabling the preset radio frequency parameter to open the gate includes:

confirming the opening state of the gate;

and if the gate is not opened, switching the currently applied preset radio frequency parameters until the gate is opened.

Optionally, the radio frequency parameter application method further includes:

acquiring preset radio frequency parameters, wherein the preset radio frequency parameters comprise one or more radio frequency parameters;

and storing the acquired preset radio frequency parameters to a preset radio frequency parameter list.

In order to achieve the above object, the present invention further provides a radio frequency parameter pushing method, where the radio frequency parameter pushing method includes the following steps:

receiving a radio frequency parameter acquisition request reported by wearable equipment;

analyzing the radio frequency parameter acquisition request, and acquiring the radio frequency parameters to be issued according to the analysis result;

and issuing the acquired radio frequency parameters to the wearable device.

Optionally, the step of analyzing the radio frequency parameter obtaining request and obtaining the radio frequency parameter to be delivered according to the analysis result includes:

extracting radio frequency parameter information from the radio frequency parameter acquisition request;

and acquiring corresponding radio frequency parameters according to the extracted radio frequency parameter information.

Optionally, the radio frequency parameter pushing method further includes:

when the radio frequency parameters to be issued cannot be acquired, reporting radio frequency parameter acquisition information to a server;

and receiving the radio frequency parameters issued by the server based on the radio frequency parameter acquisition information, and issuing the radio frequency parameters to the wearable equipment.

In addition, in order to achieve the above object, the present invention further provides a wearable device, which includes a memory, a processor, and a radio frequency parameter application program stored in the memory and capable of running on the processor, and when executed by the processor, the radio frequency parameter application program implements the steps of the radio frequency parameter application method as described above.

The present invention also provides a terminal, including: the radio frequency parameter pushing method comprises a memory, a processor and a radio frequency parameter pushing program which is stored on the memory and can run on the processor, wherein when the radio frequency parameter pushing program is executed by the processor, the steps of the radio frequency parameter pushing method are realized.

The invention also provides a radio frequency parameter application system which comprises the wearable device and the terminal.

The radio frequency parameter application method provided by the embodiment of the invention initiates a radio frequency parameter switching instruction through a preset radio frequency parameter list; generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal; and the receiving terminal switches the currently applied radio frequency parameters into the radio frequency parameters based on the radio frequency parameters issued by the radio frequency parameter acquisition request so as to start the gate. The technical scheme provided by the invention realizes the method that the intelligent equipment can actively improve the card swiping performance of the equipment, improves the situation that a user cannot handle under the condition that a gate cannot be opened, and improves the user experience.

Drawings

Fig. 1 is a schematic diagram of a terminal \ device structure of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a terminal \ device structure relating to another hardware operating environment according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a first embodiment of a method for RF parameter application according to the present invention;

fig. 4 is a flowchart illustrating a radio frequency parameter pushing method according to a first embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list; generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal; and the receiving terminal switches the currently applied radio frequency parameters into the radio frequency parameters based on the radio frequency parameters issued by the radio frequency parameter acquisition request so as to start the gate.

The execution flow of the existing scheme for improving the card swiping performance of the intelligent equipment is too complex, so that the technical problem of influencing the user experience is solved.

The invention provides a solution, and the provided technical scheme realizes a method for actively improving the card swiping performance of the intelligent equipment, improves the situation that a user cannot handle under the condition that a gate cannot be opened, and improves the user experience.

As shown in fig. 1, fig. 1 is a schematic terminal structure diagram of a hardware operating environment according to an embodiment of the present invention.

The terminal provided by the embodiment of the invention is wearable terminal equipment with a Bluetooth function, such as a sports bracelet, an intelligent watch and the like.

As shown in fig. 1, the terminal may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the terminal structure shown in fig. 1 is not intended to be limiting and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, the memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a radio parameter application program.

In the terminal shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to invoke the rf parameters application stored in the memory 1005 and perform the following operations:

initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list;

generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal;

and the receiving terminal switches the currently applied radio frequency parameters into the radio frequency parameters based on the radio frequency parameters issued by the radio frequency parameter acquisition request so as to start the gate.

Further, the processor 1001 may call the radio frequency parameters application stored in the memory 1005, and further perform the following operations:

starting a gate by using preset radio frequency parameters;

and when the gate opening by the preset radio frequency parameters fails, executing a step of initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list interface.

Further, the processor 1001 may call a radio frequency parameters application stored in the memory 1005, and also perform the following operations:

confirming the opening state of the gate;

and if the gate is not opened, switching the preset radio frequency parameters applied currently until the gate is opened.

Further, the processor 1001 may call the radio frequency parameters application stored in the memory 1005, and further perform the following operations:

acquiring preset radio frequency parameters, wherein the preset radio frequency parameters comprise one or more radio frequency parameters;

and storing the acquired preset radio frequency parameters to a preset radio frequency parameter list.

As shown in fig. 2, fig. 2 is a schematic diagram of a terminal structure relating to another hardware operating environment according to an embodiment of the present invention.

The terminal of the embodiment of the invention can be a mobile terminal device such as a smart phone, a tablet computer and a portable computer.

As shown in fig. 2, the terminal may include: a processor 2001 such as a CPU, a network interface 2004, a user interface 2003, a memory 2005, a communication bus 2002.

As shown in fig. 2, the memory 2005, which is a kind of computer storage medium, may include an operating system, a network communication module, a user interface module, and a radio frequency parameter push program.

In the terminal shown in fig. 2, the network interface 2004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 2003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 2001 may be configured to call the rf parameter pushing program stored in the memory 2005 and perform the following operations:

receiving a radio frequency parameter acquisition request reported by wearable equipment;

analyzing the radio frequency parameter acquisition request, and acquiring the radio frequency parameters to be issued according to the analysis result;

and issuing the acquired radio frequency parameters to the wearable device.

Further, the processor 1001 may call the radio frequency parameter pushing program stored in the memory 1005, and further perform the following operations:

extracting radio frequency parameter information from the radio frequency parameter acquisition request;

and acquiring corresponding radio frequency parameters according to the extracted radio frequency parameter information.

Further, the processor 1001 may call the radio frequency parameter pushing program stored in the memory 1005, and further perform the following operations:

when the radio frequency parameters to be issued cannot be acquired, reporting radio frequency parameter acquisition information to a server;

and receiving the radio frequency parameters issued by the server based on the radio frequency parameter acquisition information, and issuing the radio frequency parameters to the wearable device.

Referring to fig. 3, fig. 3 is a schematic flow chart of a radio frequency parameter application method according to a first embodiment of the present invention, where the radio frequency parameter application method includes:

step S10, initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list;

wearable equipment carried through current user, wearable equipment includes but not limited to wearable equipment that possesses signal transceiver function such as intelligent bracelet, intelligent wrist-watch, intelligent ring, and the user launches radio frequency parameter through the wearable equipment of wearing at present and opens current floodgate machine, promptly before initiating the step of radio frequency parameter switching instruction through preset radio frequency parameter list interface, still include:

starting a gate by using preset radio frequency parameters;

and when the gate opening by the preset radio frequency parameters fails, executing a step of initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list interface.

According to preset radio frequency parameters built in the wearable device, a gate machine which needs to be opened currently is opened according to the preset radio frequency parameters, a signal transmitting function is built in the wearable device, the signal transmitting function executes the preset radio frequency parameters to output an opening signal so as to open the gate machine, when the gate machine is confirmed to be opened unsuccessfully, the preset radio frequency parameters built in currently are determined to be not matched with application parameters of the current gate machine, a radio frequency parameter switching instruction is initiated through a preset radio frequency parameter list interface of the wearable device, so that the wearable device switches the preset radio frequency parameters applied currently to open the gate machine when the preset radio frequency parameters applied currently are switched, and further, when the preset radio frequency parameters built in the wearable device include a plurality of preset radio frequency parameters, the preset radio frequency parameters applied currently are switched to open the gate machine again, namely, the step of starting the preset radio frequency parameter to open the gate machine comprises the following steps:

confirming the opening state of the gate;

and if the gate is not opened, switching the preset radio frequency parameters applied currently until the gate is opened.

The method comprises the steps that an opening signal is sent to a gate according to a preset radio frequency parameter applied currently, the opening state of the gate is confirmed, the wearable device can determine the opening condition of the gate by detecting the execution condition of the opening signal sent currently, the failure of opening the gate is confirmed when the fact that the opening signal initiated based on the preset radio frequency parameter applied currently is not matched with an application signal of the gate is detected, the preset radio frequency parameter applied currently is switched to be the next preset radio frequency parameter in a preset radio frequency parameter list based on a plurality of radio frequency parameters built in and in the preset radio frequency parameter list currently until the switched preset radio frequency parameter can open the gate.

As shown above, in an application mode of opening a gate based on a currently built-in preset radio frequency parameter, if all preset radio frequency parameters built in a current wearable device cannot open the gate, radio frequency parameter update information may be prompted to a user, so that the user initiates a radio frequency parameter switching instruction at a radio frequency parameter switching interface of the wearable device, and in a general case, when an operation of switching a radio frequency parameter in the wearable device is automatic, if the currently applied preset radio frequency parameter is changed to be completed, the radio frequency parameter switching instruction initiated by the user is defined as acquisition information for sending a radio frequency parameter acquisition instruction to a terminal, and therefore, the radio frequency parameter switching instruction is sent to the terminal through the initiated radio frequency parameter switching information.

Based on the preset radio frequency parameters applied by the current wearable device, the currently available preset radio frequency parameters need to be registered based on the radio frequency parameter application function configured by the current wearable device, and therefore, the radio frequency parameter application method further includes:

acquiring preset radio frequency parameters, wherein the preset radio frequency parameters comprise one or more radio frequency parameters;

and storing the acquired preset radio frequency parameters to a preset radio frequency parameter list.

The method comprises the steps of obtaining available preset radio frequency parameters based on wearable equipment according to the gate application function of the wearable equipment, wherein when the available preset radio frequency parameters of the wearable equipment are obtained, the preset radio frequency parameters can be obtained based on the application address range of the wearable equipment, and the obtained preset radio frequency parameters comprise one or more parameters under the condition that the types of a plurality of gates applied in the current position application range possibly exist. And storing the acquired preset radio frequency parameters in a preset radio frequency parameter list, and displaying the preset radio frequency parameters in the preset radio frequency parameter list in a list form. The preset radio frequency parameter list is a pre-established function interface based on the application of the preset radio frequency parameters, and the preset radio frequency parameter list comprises a function of automatically switching the preset radio frequency parameters of the application and a function key of a radio frequency parameter switching instruction, so that a user can automatically switch the preset radio frequency parameters of the application at present, and a radio frequency parameter acquisition instruction is initiated to the terminal.

Step S20, generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal;

according to a radio frequency parameter switching instruction initiated by a current user, obtaining radio frequency parameters of a terminal is involved, in order to improve screening accuracy, a radio frequency parameter obtaining request is generated based on the radio frequency parameter switching instruction and is sent to the terminal, and the terminal is defined as a terminal device which is in communication connection with the wearable device, including but not limited to intelligent terminal devices which have the capacity of being connected with the wearable device, such as a smart phone, a notebook computer and the like. When the radio frequency parameter obtaining request is generated through the radio frequency parameter switching instruction, in order to improve the screening accuracy, the radio frequency parameter obtaining request includes, but is not limited to, preset radio frequency parameter information, wearable device information, user information and position information of a current application radio frequency parameter opening gate stored in the current wearable device, and is used for obtaining a corresponding radio frequency parameter more suitable for the current position information application gate. In addition, when the generated radio frequency parameter acquisition request is sent to a terminal and when the communication connection between the current wearable device and the terminal is determined to be disconnected, the generated radio frequency parameter acquisition request is cached and reminding information of the disconnection of the communication connection is output; or when the wearable device is disconnected from the terminal in communication, the generated radio frequency parameter acquisition request is directly cached to a preset information caching area of the current wearable device, and when the radio frequency parameter acquisition request is detected to be successfully connected with the terminal in communication, the radio frequency parameter acquisition request is sent to the terminal again.

And step S30, the receiving terminal obtains the radio frequency parameters issued by the request based on the radio frequency parameters, and switches the currently applied radio frequency parameters into the radio frequency parameters to open the gate.

The method comprises the steps that after a generated radio frequency parameter acquisition request is sent to a terminal, the radio frequency parameters issued by the terminal based on the radio frequency parameter acquisition request are received, the terminal needs to analyze the radio frequency parameters and then selects corresponding radio frequency parameters to issue to terminal equipment when issuing the radio frequency parameters, the generation mode of the radio frequency parameter acquisition request is related, when selecting the radio frequency parameters to be issued, the terminal needs to avoid preset radio frequency parameters set by the current wearable equipment, the optimal radio frequency parameters are selected to issue based on the application position information of the wearable equipment, and the issued radio frequency parameters possibly comprise parameter information of one or more radio frequency parameters. After receiving the radio frequency parameters issued by the terminal, the wearable device directly switches the current application preset radio frequency parameters of the preset radio frequency parameter list to the radio frequency parameters issued by the terminal for use, and outputs reminding information of successful update of the video parameters to a user.

In this embodiment, in a case that it is ensured that the user cannot swipe the gate, a method that the smart device can actively improve the card swiping performance of the device is implemented, a situation that the user cannot handle the situation that the user cannot swipe the gate is improved, and meanwhile, the same radio frequency parameters can be pushed to the user in the same geographic location through analysis of big data according to the geographic location information of the user, so that user experience is improved.

Further, referring to fig. 4, fig. 4 is a schematic flow chart of a radio frequency parameter pushing method according to a first embodiment of the present invention, where the radio frequency parameter pushing method includes the following steps:

step S40, receiving a radio frequency parameter acquisition request reported by the wearable device;

step S50, analyzing the radio frequency parameter acquisition request, and acquiring the radio frequency parameters to be issued according to the analysis result;

and S60, issuing the acquired radio frequency parameters to the wearable device.

In this embodiment, a radio frequency parameter obtaining request reported by a wearable device is received according to a radio frequency parameter application of a current wearable device, and the radio frequency parameter obtaining request is analyzed to issue a corresponding radio frequency parameter to the wearable device according to an analysis result, where when the radio frequency parameter obtaining request is analyzed, the radio frequency parameter obtaining request is mainly used to perform a screening operation of issuing a radio frequency parameter, and therefore, the step of analyzing the radio frequency parameter obtaining request to obtain a radio frequency parameter to be issued according to an analysis result includes:

extracting radio frequency parameter information from the radio frequency parameter acquisition request;

and acquiring corresponding radio frequency parameters according to the extracted radio frequency parameter information.

The method comprises the steps of analyzing a radio frequency parameter acquisition request according to a radio frequency parameter acquisition request received from wearable equipment at present so as to obtain a screening condition of a radio frequency parameter to be issued, wherein the content of the radio frequency parameter acquisition request comprises but is not limited to preset radio frequency parameter information stored in the wearable equipment at present, wearable equipment information, user information and position information of a current application radio frequency parameter opening gate machine. Further, when the corresponding radio frequency parameters are acquired through the location information, the range of the radio frequency parameters based on the location range application registered by the server may be screened. In practical application, a plurality of pieces of available radio frequency parameter information are stored in the terminal, and when corresponding radio frequency parameters are issued to the wearable device, radio frequency parameter screening only needs to be performed in a preset radio frequency parameter storage area.

In addition, a radio frequency parameter issuing operation based on a server is also provided, namely the radio frequency parameter pushing method further comprises the following steps:

when the radio frequency parameters to be issued cannot be acquired, reporting radio frequency parameter acquisition information to a server;

and receiving the radio frequency parameters issued by the server based on the radio frequency parameter acquisition information, and issuing the radio frequency parameters to the wearable equipment.

Based on the radio frequency parameter information stored by the current terminal, if the radio frequency parameter corresponding to the requirement in the radio frequency parameter acquisition request cannot be acquired in the radio frequency parameter information storage area, the radio frequency parameter acquisition information can be reported to the server, and the server also issues the radio frequency parameter according with the analysis result of the radio frequency parameter acquisition request to the terminal by analyzing the radio frequency parameter acquisition request, so that the terminal forwards the radio frequency parameter issued by the server to the wearable device for application.

In addition, an embodiment of the present invention further provides a radio frequency parameter pushing system, where the radio frequency parameter pushing system implements the radio frequency parameter pushing embodiment and the technical contents of the radio frequency parameter pushing method embodiment.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, pharmaceutical, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

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

Claims (7)

1. A radio frequency parameter application method is characterized by comprising the following steps:

starting a preset radio frequency parameter to start a gate according to the preset radio frequency parameter built in the current wearable device;

when the preset radio frequency parameter gate opening fails, initiating a radio frequency parameter switching instruction through a preset radio frequency parameter list;

generating a radio frequency parameter acquisition request according to the radio frequency parameter switching instruction and sending the radio frequency parameter acquisition request to a terminal;

the receiving terminal acquires the radio frequency parameters issued by the request based on the radio frequency parameters, and switches the currently applied radio frequency parameters into the radio frequency parameters to open the gate;

wherein, the step of starting the preset radio frequency parameters to open the gate comprises the following steps:

confirming the opening state of the gate;

and if the gate is not opened, switching the currently applied preset radio frequency parameters until the gate is opened.

2. The radio frequency parameter application method of claim 1, wherein the radio frequency parameter application method further comprises:

acquiring preset radio frequency parameters, wherein the preset radio frequency parameters comprise one or more radio frequency parameters;

and storing the acquired preset radio frequency parameters to a preset radio frequency parameter list.

3. A radio frequency parameter pushing method is characterized by comprising the following steps:

receiving a radio frequency parameter acquisition request reported by wearable equipment, wherein the radio frequency parameter acquisition request is initiated by a preset radio frequency parameter list after the wearable equipment fails to start a gate by using a built-in preset radio frequency parameter;

analyzing the radio frequency parameter acquisition request, extracting radio frequency parameter information from the radio frequency parameter acquisition request according to an analysis result, and acquiring a corresponding radio frequency parameter by using the extracted radio frequency parameter information;

and issuing the acquired radio frequency parameters to the wearable device so that the wearable device switches the currently applied radio frequency parameters into the radio frequency parameters to start a gate.

4. The radio frequency parameter pushing method according to claim 3, further comprising:

when the radio frequency parameters to be issued cannot be acquired, reporting radio frequency parameter acquisition information to a server;

and receiving the radio frequency parameters issued by the server based on the radio frequency parameter acquisition information, and issuing the radio frequency parameters to the wearable equipment.

5. A wearable device comprising a memory, a processor, and a radio frequency parameters application stored on the memory and executable on the processor, the radio frequency parameters application when executed by the processor implementing the steps of the radio frequency parameters application method of any one of claims 1 to 2.

6. A terminal, characterized in that the terminal comprises: memory, a processor and a radio frequency parameters push program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the radio frequency parameters push method according to any of claims 3 to 4.

7. A radio frequency parameter application system, characterized in that the radio frequency parameter application system comprises the wearable device as claimed in claim 5 and the terminal as claimed in claim 6.

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