CN108233969B - Radio frequency adaptation method, NFC mobile terminal and radio frequency adaptation system - Google Patents

Abstract

The invention discloses a radio frequency adaptation method, a Near Field Communication (NFC) mobile terminal and a radio frequency adaptation system, and relates to the technical field of near field communication. The method comprises the following steps: the NFC mobile terminal receives a radio frequency parameter configuration table sent by the server, wherein the radio frequency parameter configuration table comprises application codes of various applications and radio frequency parameters of a POS (point of sale) terminal; the NFC mobile terminal receives a control command sent by an application, wherein the control command comprises an application code of the application; the NFC mobile terminal determines radio frequency parameters of the applied POS according to the control command and the radio frequency parameter configuration table; and the NFC mobile terminal configures the radio frequency parameters of the NFC mobile terminal according to the radio frequency parameters of the applied POS so that the NFC mobile terminal can carry out NFC communication with the applied POS based on the radio frequency parameters of the applied POS. Therefore, the radio frequency adaptability of the NFC mobile terminal is improved, and the same NFC mobile terminal can be adapted to POS of various applications.

Description

Radio frequency adaptation method, NFC mobile terminal and radio frequency adaptation system

Technical Field

The invention relates to the technical field of near field communication, in particular to a radio frequency adaptation method, an NFC mobile terminal and a radio frequency adaptation system.

Background

NFC, namely "near field communication technology", is a short-range high-Frequency contactless Identification and transmission technology, and is integrated and evolved from a contactless RFID (Radio Frequency Identification) and an interconnection and interworking technology. The NFC working frequency is 13.56MHz, and the communication distance is within 10 centimeters. The NFC has the characteristics of short communication distance, short connection establishment time, low power consumption, high safety, low cost, convenience, easiness in use, strong intuition and the like, and is compatible with the existing non-contact smart card standard. Therefore, the NFC technology is widely applied to the fields of mobile payment, electronic ticketing, intelligent media, identity recognition, social entertainment, and the like.

In the existing NFC mobile phone payment service, a user needs to use an NFC mobile terminal to be close to POS terminal equipment of a related application provider, so that services such as near-field payment and identity recognition are realized. However, in the existing POS terminal devices of NFC application providers, the problems of non-uniform and incomplete POS terminal radio frequency standards, frequency offset, and the like generally exist, so that NFC mobile terminal manufacturers need to perform radio frequency adaptation on different POS terminals applying different applications from a terminal hardware layer, and perform firmware upgrade on the mobile terminals to meet the requirement that end users can use NFC application functions by normal mobile phone swiping. Therefore, the same NFC mobile terminal and different POS terminal devices cannot be compatible in terms of radio frequency, and different POS terminals need to correspond to different NFC mobile terminal versions, which causes increase of operation and maintenance cost of NFC terminal manufacturers, poor improvement of user experience, and inability of scale popularization of NFC services.

Disclosure of Invention

The invention aims to solve the technical problems that: how to improve the radio frequency adaptability of the NFC mobile terminal.

According to an aspect of the embodiments of the present invention, there is provided a radio frequency adaptation method, including: the NFC mobile terminal receives a radio frequency parameter configuration table sent by a server, wherein the radio frequency parameter configuration table comprises application codes of various applications and radio frequency parameters of a POS (point of sale) terminal; the NFC mobile terminal receives a control command sent by an application, wherein the control command comprises an application code of the application; the NFC mobile terminal determines radio frequency parameters of the applied POS according to the control command and the radio frequency parameter configuration table; and the NFC mobile terminal configures the radio frequency parameters of the NFC mobile terminal according to the radio frequency parameters of the applied POS so that the NFC mobile terminal can carry out NFC communication with the applied POS based on the radio frequency parameters of the applied POS.

In one embodiment, the radio frequency parameters include a resonant frequency, a carrier waveform, and an amplitude depth.

In one embodiment, the receiving of the radio frequency parameter configuration table sent by the server by the NFC mobile terminal includes: and the NFC mobile terminal receives the encrypted radio frequency parameter configuration table sent by the server at a system layer.

In one embodiment, the method further comprises: the application acquires a radio frequency parameter configuration table from an NFC mobile terminal or a server; and the application inquires an application code corresponding to the application in the radio frequency parameter configuration table.

In one embodiment, the method further comprises: the method comprises the steps that a server collects radio frequency parameters of POS corresponding to various applications; and the server generates a radio frequency parameter configuration table according to the application codes of various applications and the radio frequency parameters of the POS.

According to another aspect of the embodiments of the present invention, there is provided an NFC mobile terminal including: the radio frequency parameter configuration table receiving module is used for receiving a radio frequency parameter configuration table sent by the server, and the radio frequency parameter configuration table comprises application codes of various applications and radio frequency parameters of the POS; the control command receiving module is used for receiving a control command sent by an application, and the control command comprises an application code of the application; the radio frequency parameter determining module is used for determining the radio frequency parameters of the applied POS according to the control command and the radio frequency parameter configuration table; and the radio frequency parameter configuration module is used for configuring the radio frequency parameters of the NFC mobile terminal according to the radio frequency parameters of the applied POS so that the NFC mobile terminal can carry out NFC communication with the applied POS based on the radio frequency parameters of the applied POS.

In one embodiment, the radio frequency parameters include a resonant frequency, a carrier waveform, and an amplitude depth.

In one embodiment, the rf parameter configuration table receiving module is configured to: and receiving the encrypted radio frequency parameter configuration table sent by the server at the system layer.

According to a further aspect of embodiments of the present invention, there is provided a radio frequency adaptation system, which includes the NFC mobile terminal described above, and further includes an application and/or a server.

In one embodiment, the application includes: the radio frequency parameter configuration table acquisition module is used for acquiring a radio frequency parameter configuration table from the NFC mobile terminal or the server; and the application code query module is used for querying the application code corresponding to the application in the radio frequency parameter configuration table.

In one embodiment, the server comprises: the radio frequency parameter acquisition module is used for acquiring radio frequency parameters of the POS corresponding to various applications; and the radio frequency parameter configuration table generating module is used for generating a radio frequency parameter configuration table according to the application codes of various applications and the radio frequency parameters of the POS.

In the invention, the NFC mobile terminal receives a radio frequency parameter configuration table sent by a server and a control command sent by an application, the NFC mobile terminal configures the radio frequency parameters of the NFC mobile terminal after determining the radio frequency parameters of the applied POS according to the control command and the radio frequency parameter configuration table, and then NFC communication is carried out with the applied POS based on the radio frequency parameters of the applied POS. Therefore, the radio frequency adaptability of the NFC mobile terminal is improved, and the same NFC mobile terminal can be matched with POS of various applications.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 shows a flow diagram of an embodiment of the radio frequency adaptation method of the present invention.

Fig. 2 shows a schematic structural diagram of an embodiment of an NFC mobile terminal according to the present invention.

Fig. 3 shows a schematic structural diagram of an embodiment of the radio frequency adaptation system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of the radio frequency adaptation method of the present invention is described below in conjunction with fig. 1.

Fig. 1 shows a flow diagram of an embodiment of the radio frequency adaptation method of the present invention. As shown in fig. 1, the radio frequency adaptation method in this embodiment includes:

and S102, the server collects radio frequency parameters of the POS corresponding to various applications.

For example, the radio frequency adaptation of the NFC mobile terminal corresponding to various application provider POS terminals is completed on line, and relevant radio frequency parameter information is acquired. The radio frequency parameters include a resonant frequency, a carrier waveform, and an amplitude depth.

And step S104, the server generates a radio frequency parameter configuration table.

The radio frequency parameter configuration table comprises application codes of various applications and radio frequency parameters of the POS terminal.

And step S106, the server sends the radio frequency parameter configuration table to the NFC mobile terminal, and the NFC mobile terminal receives the radio frequency parameter configuration table from the server.

For example, the background server may push or synchronize radio frequency parameter configuration table information to the NFC mobile terminal in real time.

And step S108, the application acquires a radio frequency parameter configuration table from the NFC mobile terminal or the server.

For example, an application module such as an application client may obtain a radio frequency configuration information table supported by the NFC mobile terminal from the NFC mobile terminal system, where the radio frequency configuration information table includes an application code.

Step S110, the application queries an application code corresponding to the application in the radio frequency parameter configuration table.

And step S112, the application sends a control command to the NFC mobile terminal, and the NFC mobile terminal receives the control command sent by the application. Wherein the control command comprises an application code of the application.

For example, a user performs setting according to a user requirement in an application module such as an application client, and the application module such as the application client synchronously sends a control command to the NFC mobile terminal, where the control command includes an application code.

And step S114, the NFC mobile terminal determines the radio frequency parameters of the applied POS according to the control command and the radio frequency parameter configuration table.

For example, the NFC controller chip may determine the radio frequency parameters of the POS of the application according to the control command and the radio frequency parameter configuration table

And step S116, the NFC mobile terminal configures the radio frequency parameters of the NFC mobile terminal according to the applied radio frequency parameters of the POS.

For example, the NFC controller chip may configure corresponding radio frequency parameters according to a received control command containing an application code.

And step S118, the NFC mobile terminal carries out NFC communication with the applied POS based on the radio frequency parameters of the applied POS.

The embodiment is based on NFC radio frequency specifications, radio frequency compatibility processing is carried out by utilizing a radio frequency parameter configuration table, configuration information is pushed through a system and a client, and the NFC mobile terminal side is configured, so that the radio frequency adaptability of the NFC mobile terminal is improved, the same NFC mobile terminal can be matched with POS of various applications, the phenomenon that one NFC terminal version is only matched with one application is eliminated, and the practicability of NFC application is improved. Meanwhile, the radio frequency parameters of the NFC terminal are controlled at the mobile terminal side, and an application person does not need to know the details of the specific parameters and only needs to perform matching setting according to the application code, so that the method is convenient and simple.

Preferably, in step S106, the server may send the radio frequency parameter configuration table to the NFC mobile terminal at the system layer, and the NFC mobile terminal receives the radio frequency parameter configuration table sent by the server at the system layer.

For example, the server may encapsulate the radio frequency parameter configuration table in a system upgrade package, and complete transmission of the radio frequency parameter configuration table while pushing the system upgrade package to the NFC mobile terminal. In addition, the pushed radio frequency parameter configuration table may be in an encrypted form.

In the above embodiment, the server pushes the radio frequency parameter configuration table or the radio frequency parameter configuration table to the NFC mobile terminal in the system layer, and an encryption form is adopted, so that external personnel cannot obtain specific parameters of the radio frequency parameter configuration table, which is convenient for protecting the safety of radio frequency parameter information, and can improve the safety and reliability of sending the radio frequency parameter configuration table.

One embodiment of the NFC mobile terminal of the present invention is described below in conjunction with fig. 2.

Fig. 2 shows a schematic structural diagram of an embodiment of an NFC mobile terminal according to the present invention. As shown in fig. 2, the NFC mobile terminal 20 in this embodiment includes:

a radio frequency parameter configuration table receiving module 202, configured to receive a radio frequency parameter configuration table sent by a server, where the radio frequency parameter configuration table includes application codes of various applications and radio frequency parameters of a POS;

a control command receiving module 204, configured to receive a control command sent by an application, where the control command includes an application code of the application;

a radio frequency parameter determining module 206, configured to determine a radio frequency parameter of the POS application according to the control command and the radio frequency parameter configuration table;

and the radio frequency parameter configuration module 208 is configured to configure the radio frequency parameter of the NFC mobile terminal according to the radio frequency parameter of the applied POS, so that the NFC mobile terminal performs NFC communication with the applied POS based on the radio frequency parameter of the applied POS.

Optionally, the radio frequency parameters include a resonant frequency, a carrier waveform, and an amplitude depth.

The embodiment is based on NFC radio frequency specifications, radio frequency compatibility processing is carried out by utilizing a radio frequency parameter configuration table, configuration information is pushed through a system and a client, and the NFC mobile terminal side is configured, so that the radio frequency adaptability of the NFC mobile terminal is improved, the same NFC mobile terminal can be matched with POS of various applications, the phenomenon that one NFC terminal version is only matched with one application is eliminated, and the practicability of NFC application is improved. Meanwhile, the radio frequency parameters of the NFC terminal are controlled at the mobile terminal side, and an application person does not need to know the details of the specific parameters and only needs to perform matching setting according to the application code, so that the method is convenient and simple.

Optionally, the radio frequency parameter configuration table receiving module is configured to: and receiving the encrypted radio frequency parameter configuration table sent by the server at the system layer.

In the above embodiment, the server pushes the radio frequency parameter configuration table or the radio frequency parameter configuration table to the NFC mobile terminal in the system layer, and an encryption form is adopted, so that external personnel cannot obtain specific parameters of the radio frequency parameter configuration table, which is convenient for protecting the safety of radio frequency parameter information, and can improve the safety and reliability of sending the radio frequency parameter configuration table.

An embodiment of the radio frequency adaptation system of the present invention is described below in conjunction with fig. 3.

Fig. 3 shows a schematic structural diagram of an embodiment of the radio frequency adaptation system of the present invention. As shown in fig. 3, the radio frequency adaptation system 30 in this embodiment includes: NFC mobile terminal 20, application 302, and server 304.

Among them, the application 302 includes:

a radio frequency parameter configuration table obtaining module 3022, configured to obtain a radio frequency parameter configuration table from the NFC mobile terminal 20 or the server 304.

An application code query module 3024, configured to query an application code corresponding to an application in the radio frequency parameter configuration table.

The server 304 includes:

the radio frequency parameter acquiring module 3042 is configured to acquire radio frequency parameters of the POS corresponding to various applications.

The radio frequency parameter configuration table generating module 3044 is configured to generate a radio frequency parameter configuration table according to the application codes of various applications and the radio frequency parameters of the POS.

The embodiment is based on NFC radio frequency specifications, radio frequency compatibility processing is carried out by utilizing a radio frequency parameter configuration table, configuration information is pushed through a system and a client, and the NFC mobile terminal side is configured, so that the radio frequency adaptability of the NFC mobile terminal is improved, the same NFC mobile terminal can be matched with POS of various applications, the phenomenon that one NFC terminal version is only matched with one application is eliminated, and the practicability of NFC application is improved. Meanwhile, the radio frequency parameters of the NFC terminal are controlled at the mobile terminal side, and an application person does not need to know the details of the specific parameters and only needs to perform matching setting according to the application code, so that the method is convenient and simple.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, and the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A method for radio frequency adaptation, the method comprising:

the method comprises the steps that a server collects radio frequency parameters of POS corresponding to various applications;

the server generates a radio frequency parameter configuration table according to the application codes of various applications and the radio frequency parameters of the POS;

the NFC mobile terminal receives a radio frequency parameter configuration table sent by a server, wherein the radio frequency parameter configuration table comprises application codes of various applications and radio frequency parameters of a POS (point of sale) terminal; the radio frequency parameter configuration table sent by the NFC mobile terminal receiving server comprises: the NFC mobile terminal receives an encrypted radio frequency parameter configuration table sent by a server at a system layer, the encrypted radio frequency parameter configuration table is packaged in a system upgrade package by the server, and the NFC mobile terminal receives the radio frequency parameter configuration table while receiving the system upgrade package pushed by the server;

the application acquires a radio frequency parameter configuration table from a Near Field Communication (NFC) mobile terminal or a server;

the application inquires an application code corresponding to the application in a radio frequency parameter configuration table;

the NFC mobile terminal receives a control command sent by an application, wherein the control command comprises an application code of the application;

the NFC mobile terminal determines the radio frequency parameters of the applied POS according to the control command and the radio frequency parameter configuration table;

and the NFC mobile terminal configures the radio frequency parameters of the NFC mobile terminal according to the radio frequency parameters of the applied POS so that the NFC mobile terminal performs NFC communication with the applied POS based on the radio frequency parameters of the applied POS.

2. The method of claim 1, wherein the radio frequency parameters include a resonant frequency, a carrier waveform, and an amplitude depth.

3. A radio frequency adaptation system, characterized in that the system comprises an NFC mobile terminal, an application and a server;

the NFC mobile terminal includes: the system comprises a radio frequency parameter configuration table receiving module, a radio frequency parameter configuration table processing module and a POS (point of sale) module, wherein the radio frequency parameter configuration table receiving module is used for receiving a radio frequency parameter configuration table sent by a server, and the radio frequency parameter configuration table comprises application codes of various applications and radio frequency parameters of the POS; the radio frequency parameter configuration table receiving module is used for receiving an encrypted radio frequency parameter configuration table sent by a server at a system layer, the encrypted radio frequency parameter configuration table is packaged in a system upgrade package by the server, and the radio frequency parameter configuration table receiving module is used for receiving the radio frequency parameter configuration table while receiving the system upgrade package pushed by the server; the control command receiving module is used for receiving a control command sent by an application, and the control command comprises an application code of the application; a radio frequency parameter determining module, configured to determine a radio frequency parameter of the POS of the application according to the control command and the radio frequency parameter configuration table; the radio frequency parameter configuration module is used for configuring the radio frequency parameters of the NFC mobile terminal according to the radio frequency parameters of the applied POS so that the NFC mobile terminal can carry out NFC communication with the applied POS based on the radio frequency parameters of the applied POS;

the application comprises the following steps: the radio frequency parameter configuration table acquisition module is used for acquiring a radio frequency parameter configuration table from the NFC mobile terminal or the server; the application code query module is used for querying an application code corresponding to the application in the radio frequency parameter configuration table;

the server includes: the radio frequency parameter acquisition module is used for acquiring radio frequency parameters of the POS corresponding to various applications; and the radio frequency parameter configuration table generating module is used for generating a radio frequency parameter configuration table according to the application codes of various applications and the radio frequency parameters of the POS.

4. The radio frequency adaptation system of claim 3, wherein the radio frequency parameters include a resonant frequency, a carrier waveform, and an amplitude depth.

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