WO2011116556A1 - Wireless communication terminal in machine to machine network and its application method - Google Patents

Abstract

The present invention discloses a wireless communication terminal in a Machine to Machine (M2M) network and its application method, and said wireless communication terminal comprises: a main control module for connecting with a terminal device corresponding to an M2M network; an application software module for dealing with service data corresponding to the M2M network; a software adaptive interface module for implementing service data transmission between the application software module and the main control module. The technical solution provided by the present invention can better adapt to the original application pattern and provide deeply-customized wireless communication terminals for M2M network industry application provider so that services can be transferred to the wireless communication terminal to be implemented directly and reduce the cost of the industry application terminal.

Description

 TECHNICAL FIELD The present invention relates to the field of communications, and in particular to a wireless communication terminal based on the Internet of Things and an application method thereof. BACKGROUND OF THE INVENTION The arrival of the era of Machine to Machine (M2M) is called another information technology revolution, and its potential application is huge, which will drive the explosion of many related industries. Obviously, the interconnection of communication channels for the Internet of Things is still dominated by existing telecom operators. The following is an example of a data collection and monitoring control system (Supervisory Control And Data Acquisition, SCADA for short). The SCADA system is a typical data collection and real-time control system that covers a wide range of applications, such as power, oil, and urban water supply testing. Figure 1 shows the structure of the SCADA system in the related art. As shown in Figure 1, the SCADA system has been simplified to abstract some common elements. The SCADA system includes: an intranet, an Internet public network, and a collection terminal (the terminal 1 and the terminal 2 · · · terminal N are shown in the figure), wherein the intranet can be composed of the following devices: channel machine, leader Workstation (PC), Maintenance Workstation (PC), Monitoring Workstation (PC), database server, backup server, etc. The Internet public network can be composed of the following devices: a leadership workstation (PC); a monitoring workstation (PC). The collection terminal is connected to the channel machine of the enterprise intranet through the industry communication dedicated channel (for example, optical fiber, carrier, etc.), and the Internet public network transmits data through the firewall and the intranet. As can be seen from Figure 1, the following problems exist in the typical industry SCADA system application:

(1) The basic form of various workstations in the system can only be PC, which is poor in portability, mobility, and high cost. The services cannot be directly completed between various workstations or between terminals, and the service processing capability is weak and needs to be completed by the server. (2) In the environment away from the intranet, the use of industry application services is greatly limited: no internet environment; if a computer in the public network acts as a system terminal or workstation, security There is no reliable guarantee. I want to go to the industry to apply the services at any time. Ground access is more difficult, and costs (for example, due to the addition of firewalls, etc.) are higher. SUMMARY OF THE INVENTION A primary object of the present invention is to provide a wireless communication terminal and an application method thereof to solve at least one of the above problems. According to an aspect of the present invention, an Internet of Things-based wireless communication terminal is provided. The wireless communication terminal according to the present invention includes: a main control module, configured to connect with a terminal device corresponding to the Internet of Things; an application software module, configured to process service data corresponding to the Internet of Things; And a module, configured to implement transmission of service data between the application software module and the main control module. According to another aspect of the present invention, an application method of a wireless communication terminal based on an Internet of Things is provided. The application method of the Internet of things-based wireless communication terminal according to the present invention includes: the wireless communication terminal acquires service data corresponding to the Internet of Things, and processes the service data. Through the above technical solution of the present invention, on the basis of the existing wireless communication terminal software and hardware modules (hereinafter referred to as the main control module), the application software module, the software adaptation interface module and the like are expanded, and a suitable one is designed. The wireless communication terminal of the Internet of Things solves the problems of poor portability and mobility of the Internet of Things in the Internet of Things, and high cost of industrial application terminals, and thus better adapts to the original application mode, providing depth for application developers in the Internet of Things industry. Customized wireless communication terminals, services can be transferred directly on the wireless communication terminal, and the cost of the industry application terminal. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawings: FIG. 1 is a structural diagram of a SCADA system according to the related art; FIG. 2 is a structural block diagram of an Internet of Things-based wireless communication terminal according to an embodiment of the present invention; FIG. 3 is an Internet of Things based on a preferred embodiment of the present invention. Architecture diagram of the wireless communication terminal; 4 is a schematic diagram of application of a wireless communication terminal in a typical industry data collection and real-time control (SCADA) system according to a preferred embodiment of the present invention; FIG. 5 is an application method of a wireless communication terminal based on an Internet of Things according to an embodiment of the present invention; Figure 6 is a flow chart of initialization of an industry application function in accordance with a preferred embodiment of the present invention; Figure 7 is a flow chart of processing (transmission) of M2M industry application data in accordance with a preferred embodiment of the present invention; A flowchart of processing (transmission) of M2M industry application data according to a preferred embodiment 2 of the present invention; FIG. 9 is a flowchart of processing (transmission) of M2M industry application data according to a preferred embodiment 3 of the present invention; Is a flow chart of processing (receiving) of M2M industry application data in accordance with a preferred embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. 2 is a structural block diagram of a wireless communication terminal based on an Internet of Things according to an embodiment of the present invention. As shown in FIG. 2, the wireless communication terminal includes: a main control module 20, an application software module 22, and a software adaptation interface module 24. The main control module 20 is configured to connect with the terminal device corresponding to the Internet of Things; the application software module 22 is configured to process service data corresponding to the Internet of Things; and the software adaptation interface module 24 is configured to implement the application software module and the main control module. The transfer of business data between. In the related art, for the Internet of Things industry, the basic form of various workstations can only be a PC, so portability and mobility are poor, and the implementation cost is high. The above wireless communication terminal can be used in compatibility with the original application mode. Based on the ground, provide deep customization of wireless for IoT industry application developers The communication terminal, the service can be transferred directly on the wireless communication terminal, and the cost of the industrial application terminal is lowered. The wireless communication terminal may be all wireless communication terminal products, for example, a mobile phone (common mobile phone, a function mobile phone, a smart phone, etc.), a data card, a module (netbook), an MID, a home/office information machine, and the like. The above wireless communication terminal can be used as a form of the M2M terminal, or can be used as a general wireless communication terminal (ie, only the main control module is enabled), and has all the functions of the general wireless communication terminal and the application function of the M2M industry, and can be applied to the M2M environment. , can also be applied in the general field of mobile communications. In a preferred implementation, the Internet of Things-based wireless communication terminal according to the embodiment of the present invention may include the following modules: a main control module 20 (ie, an original wireless communication terminal software and a hardware module), used to complete the original wireless A software/hardware module with all functions of the communication terminal. The wireless communication terminal according to an embodiment of the present invention can use all of its functions and hardware. The application software module 22 is a software module for realizing the application function of the M2M industry. The module can implement some functions and all functions, and involves business management, security control, user authentication, process processing, and data processing in the application field of the Internet of Things industry. And the entire process of parsing algorithms. The software adaptation interface module 24 provides a software adaptation interface and an interface specification for industry application functions. The function of this module is described in detail below:

(1) The software adaptation interface module 24 is used to complete the call interface between the software application module and the original wireless communication terminal software module, and is used to complete data communication, flow control, hardware operation and the like with the software application module.

(2) The software adaptation interface module 24 can also have a simple wireless communication terminal function and a soft switch including an application function of the M2M industry.

(3) The interface or interface specification provided by the software adaptation interface module 24 covers the interfaces with various industrial application modules to meet the actual needs of different industry applications.

(4) After the wireless communication terminal according to the embodiment of the present invention completes the processing of the service data corresponding to the Internet of Things, the software adaptation interface module 24 invokes the communication part of the wireless communication terminal, thereby completing the M2M terminal or the M2M platform with other industries or Data communication of the M2M application platform. (5) Preferably, the software adaptation interface module can implement data transmission between the main control modules by using a software manner, wherein the software manner includes: transmitting an AT command mode, a registration callback function mode, a message processing mode, and a terminal processing mode. Preferably, the software adaptation interface module can also implement data transmission between the main control modules by using a hardware manner, wherein the hardware manner includes: transmitting an AT command mode. Through the above various data transmission methods, the data transmission between the main control module and the application software module is linked, and the extension can be extended on the basis of the compatible main control module to form a wireless communication terminal suitable for the development needs of the industry. Preferably, as shown in FIG. 3, the foregoing wireless communication terminal may further include: an application hardware module 26, configured to connect another wireless communication terminal or another main control module (equivalent to another industry application original terminal); The hardware driver adaptation module 28 is configured to drive an application hardware module. The application hardware module 26 described above may provide an interface for communication between the wireless communication terminal of the present invention and other wireless communication terminals suitable for use in the M2M field. The interworking between the wireless communication terminals based on the Internet of Things is realized, thereby facilitating the user to efficiently transmit data and improving the user experience. The application hardware module 26 can include two parts: a hardware unit 260 and a hardware connection interface 262. Preferably, the hardware unit 260 may be a hardware device that senses or collects signals, such as a sensor or the like, or may be other devices. Preferably, the hardware connection interface 262 may include at least one of the following: a Bluetooth interface, a serial interface, a universal serial bus (USB) interface, a pin-to-pin (PIN/PIN), a computer internal bus (PCIE) connected to an external device. ), Universal Asynchronous Receiver Transmitter (UART), General Purpose Input Output Interface (GPIO). The hardware connection interface 262 may provide the wireless communication terminal with the original terminal (ie, the terminal composed of the main control module) or another wireless communication terminal (also the wireless communication terminal according to the embodiment of the present invention). The connection interface entity, the application hardware driver adaptation module 28 can drive the application hardware module 26 to implement data interaction between the wireless communication terminal and an industry application original terminal or other wireless communication terminal. Preferably, as can be seen from FIG. 3, the application hardware driver adaptation module 28 can also directly drive other wireless communication terminals. 4 is a schematic diagram of the application of a wireless communication terminal in a typical industry SCADA (Energy Collection and Control) system in accordance with a preferred embodiment of the present invention. As shown in FIG. 4, the SCADA system architecture shown in FIG. 1 is extended to connect the mobile communication network to the intranet through a wired network or a mobile communication network link, where the mobile communication network includes: an M2M platform and an M2M. Industry application platform. The mobile communication network is connected to one or more monitoring workstations, wherein the monitoring workstation can be a wireless communication terminal (shaded module in the figure) of the embodiment of the present invention. In addition, the terminal of the terminal layer can also be directly connected to the wireless communication terminal of the embodiment of the present invention (the terminal 2 is connected to the wireless communication terminal). As can be seen from Figure 4, on the basis of compatibility with the original system, the application developer of the Internet of Things industry provides a deeply customized wireless communication terminal product, expanding its product range under M2M. In addition, since the integration industry is applied to a wireless communication terminal, the wireless communication terminal can be various communication devices, such as a data card, a (wireless internet module) netbook, a mobile phone, a MID, etc., which greatly enriches the product type of the industrial application terminal. . Overcoming the original terminal is affected by factors such as physical network and network security, and can be accessed to the industrial application service environment at any time and anywhere. That is, in the M2M application mode, strong service data is transmitted between terminals to implement more complicated functions. Therefore, the mobility and portability of the application terminal of the industry can be improved, the product form of the application terminal of the M2M industry is enriched, and the cost of the application terminal of the industry is lowered. A flowchart of an application method of an Internet of Things-based wireless communication terminal according to an embodiment of the present invention. The application method mainly includes the following processing: Step 4: S502: The wireless communication terminal acquires service data corresponding to the Internet of Things; Step S504: The wireless communication terminal processes the service data. Using the above wireless communication terminal, it can provide a deeply customized wireless communication terminal for the application developers of the Internet of Things industry on the basis of compatibility with the original application mode, and the service can be directly implemented on the wireless communication terminal, and the industrial application terminal is reduced. cost. The above wireless communication terminal can refer to the description of FIG. 1 to FIG. 4, and the following describes how to implement the above wireless communication terminal. Specifically, the following processing may be included:

1. Design and implement an application software module adaptation interface and develop an interface specification. The software adaptation interface module can implement data transmission between the main control modules through software, wherein the software mode includes: transmitting an AT command mode, registering a callback function mode, and a message place. Management method, terminal processing method. Alternatively, the software adaptation interface module can also implement data transmission between the main control modules through hardware, wherein the hardware manner includes: transmitting an AT command mode. The specific implementation of the adaptation interface is as follows: (1) Defining the abstract base layer of the adaptation interface, that is, highly abstracting the common interface for different industry applications;

(2) designing and implementing the logic processing process of the adaptation layer based on the abstract base layer of the adaptation interface;

(3) Designing and implementing switching methods or interfaces for adapting interfaces in different industries to complete dynamic switching. 2. Integration (Transplantation) A wireless communication terminal for the Internet of Things industry. According to the function adaptation interface mode or specification, the industrial application function migration is performed, wherein the above migration includes: software function transplantation and hardware function transplantation. Integration of software modules (porting): Integration of multiple methods (porting), including source code forms or third-party software library forms, subject to industry application software module adaptation interfaces (specifications). Integration of hardware modules (porting): Multiple ways of integration (porting), including PIN/PIN, USB,

Different hardware connections such as PCIE and U ART. Or in the form of a system on chip (SOC) chip (industry-specific chip) ^! All the functions of the industry application software and hardware are integrated.

3. Design and implement an industrial application hardware driver adaptation interface on the wireless communication terminal. Through this interface, it can be connected with other industry application M2M terminals (also wireless communication terminals in the embodiments of the present invention) or industrial application original terminals, and complete data communication, control, and information interaction functions. Specifically, the form of the foregoing connection includes, but is not limited to, at least one of the following: a USB interface connection, a serial port connection, and a Bluetooth connection. Preferably, before the wireless communication terminal acquires the service data corresponding to the Internet of Things, the following processing may also be included: (1) the wireless communication terminal enables the Internet of Things application processing function in response to the user operation;

(2) The wireless communication terminal enters the service data processing waiting state corresponding to the Internet of Things. The wireless communication terminal according to the embodiment of the present invention can be used as a form of an M2M terminal, or as a general wireless communication terminal, having all functions of a general wireless communication terminal and an application function of an M2M industry, and can be applied to an M2M scenario. Under, can also be applied to the general communication collar i or. Through the above initialization process, whether the M2M industry application function is enabled or not can be selected, so that the user environment can be selected according to the user's needs, thereby effectively improving the user experience. The above process can be seen in detail in FIG. 6. 6 is a flow diagram of an industry application function initialization in accordance with a preferred embodiment of the present invention. As shown in FIG. 6, the industry application function initial 4 process includes the following processing: Step 4: S602: The wireless communication terminal in the embodiment of the present invention is powered on and started. Step S604: Determine whether the terminal has an M2M industry application function. If the function is available, go to step S606. Otherwise, exit the industry application initialization module. Step S606: Opening means that the terminal has the M2M industry application function identifier (ie, the M2M industry application function is enabled). Step S608: Determine whether the interface with the industry application software needs to be opened. If yes, execute step 4 to gather S610, otherwise, exit the industry application initialization module. Step 4: S610: Open the industry application adapter interface switch identifier. Step S612: Select an industry application adaptation interface instance according to the terminal application industry parameter. Step 4: S614: Start the industry application function. Step S616: Enter the service data processing waiting state, and wait for the arrival of the industry application data. Preferably, the wireless communication terminal includes, but is not limited to: an application software module, a software adaptation interface module, a main control module, an application hardware driver adaptation module, and an application hardware module, where the wireless communication terminal acquires service data, including at least the following One: (1) The application software module obtains the industry from the main control module via the software adaptation interface module. The service data is mainly derived from the data acquired by the main control module. For details, see Figure 7.

(2) The application software module obtains the service data from the application hardware module by using the application hardware driver adaptation module; the service data is mainly derived from the data acquired by the application hardware module. For details, refer to FIG. 8. (3) The application software module acquires service data from other Internet-based wireless communication terminals via the application hardware driver adaptation module; the service data is mainly derived from data acquired by other Internet-based wireless communication terminals, specifically See Figure 9. For service data from different modules, the wireless communication terminal can effectively process and form business data suitable for industry standards. Therefore, the wireless communication terminal is suitable for various application scenarios, and effectively improves the user body-risk. FIG. 7 is a flow chart of transmitting M2M industry application data according to a preferred embodiment of the present invention. The processing of the M2M industry application data includes the following processing: Step S702: The main control module (corresponding to the above-mentioned wireless communication terminal software and hardware module) acquires service data (or is called an event). Step S704: The main control module transmits the service data to the application software module through the software adaptation interface module. Step S706: the application software module processes the service data to form standard industry service data. Step S708: the application software module is adapted by software The interface module sends the processed service data by the main control module. It should be noted that: the local hardware resource of the terminal belongs to the main control module, and the data acquired by the main control module is derived from the protocol stack of the main control module (that is, the M2M platform or other service data sent by the terminal of the present invention through the wireless communication network). Therefore, the data acquired by the local hardware of the terminal is only a small part of the data acquired by the main control module. FIG. 8 is a flow chart of transmitting M2M industry application data according to a preferred embodiment 2 of the present invention. The processing of the M2M industry application data includes the following processing: Step S802: The application hardware module obtains the service data; Step S804: The application hardware module sends the service data to the application software module by using the hardware driver adaptation module. Step S806: the application software module processes the service data to form standard industry service data. Step S808: The application software module is adapted by the software. With the interface module, the main control module sends the processed service data. In the preferred implementation process, after the data is processed, if the data needs to be sent, it should be transmitted through the software adaptation interface, and the main control module (including not only the local hardware resources of the terminal but also the software stack of the main control module). 9 is a flow chart of transmitting M2M industry application data according to a preferred embodiment 3 of the present invention. The process mainly includes the following processing: Step S902: The other Internet-based wireless communication terminal (ie, the wireless communication terminal according to the embodiment of the present invention) or the industry application original terminal acquires the service data; Step S904: The foregoing wireless communication terminal passes the application The hardware driver adaptation module sends the service data to the application software module; Step S906: the application software module processes the service data to form standard industry service data; Step S908: the application software module passes the software adaptation interface module and the main control module The processed business data is sent. 7 to FIG. 9 , the data sources acquired by the wireless communication terminal include, but are not limited to, the above three aspects: (1) a main control module (corresponding to the above-mentioned wireless communication terminal software and hardware module); (2) an M2M industry application Functional hardware modules (ie, application hardware modules); (3) other M2M devices (ie, Internet communication-based wireless communication terminals according to embodiments of the present invention) or industry-use legacy terminals. Preferably, as shown in FIG. 7 to FIG. 9, after performing step S504, the application software module transmits the processed service data via the main control module. Through the above processing, the processed service data can be sent out to meet the user's needs. Preferably, after the wireless communication terminal processes the service data, the following processing is further included: (1) The wireless communication terminal determines whether it is necessary to enable the operation hardware resources for subsequent processing of the service data;

(2) If yes, determine whether to enable the main control module, the application hardware module, and other wireless communication terminals based on the Internet of Things; (3) perform operations corresponding to the judgment results. The preferred embodiment described above is further described below in conjunction with FIG. 10 is a flow diagram of processing (receiving) of M2M industry application data in accordance with a preferred embodiment of the present invention. The process may further include the following processes: Step S1002: The application software module acquires service data; wherein, the application software module adopts a set-adaptive interface format (for example, an AT command mode, a registration callback function mode, a message processing mode, and an interrupt processing). Ways, etc.) to get the data. If the various flags of the initialization process are not set or opened, that is, the initialization fails, the service data is not acquired. Step S1004: The application software module processes the obtained service data, where the processing involves the whole process of the service domain, for example, service management, security control, user authentication, process processing, data processing, and parsing algorithm, etc.; Step S1006 : determining whether the data processing of the service needs to operate the hardware resource; if yes, executing step S 1008, if not, returning directly to the acquiring data phase; Step S1008: selecting different hardware or hardware drivers according to different hardware operation requirements Adapting the interface, determining whether it is necessary to operate the local hardware resources of the terminal; if yes, performing step S1010; otherwise, skipping directly; wherein, the local hardware resources of the terminal, for example, the display screen, usb, uart, etc., also include the hardware Resources are connected to peripherals such as PCs. Step 4: S1010: operating terminal local hardware resources; Step S1012: determining whether it is necessary to control the M2M industry application function hardware module (ie, application hardware module); if yes, executing step S1014, otherwise, skipping directly. Step S1014: operating the M2M industry application function hardware module; Step S1016: It is judged whether it is connected with other M2M devices, and if so, step S 1018 is performed, otherwise, it returns to the acquisition data phase. Step S1018: Control the M2M hardware driver adaptation interface to complete the connection with other M2M devices. It can be seen from the above embodiments that the wireless communication terminal according to the present invention can be applied to various scenarios, and the original terminal is affected by the physical network and network security, and can be accessed at any time and anywhere. Industry application in the monthly environment. That is, in the M2M application mode, strong service data is transmitted between terminals to implement more complicated functions. At the same time, it can meet the security considerations of some M2M industry application developers and directly implement business requirements on the terminal. In summary, with the above embodiments provided by the present invention, an Internet of Things-based wireless communication terminal and an application method thereof are provided. Integrate M2M industry application functions into wireless communication terminals, provide deep-customized wireless communication terminal products suitable for M2M application mode for industry application developers, expand the product form of industrial application terminals in M2M environment; Improve industry terminal mobility , portability; meet industry application developers for security considerations and high development costs; and expand the customer field of wireless communication equipment suppliers (from the communications operator field to the industry application developers field). Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claim

A wireless communication terminal based on the Internet of Things, comprising:

 a main control module, configured to connect with a terminal device corresponding to the Internet of Things; an application software module, configured to process service data corresponding to the Internet of Things; and a software adaptation interface module, configured to implement the application software module and Transmission of service data between the main control modules.

The wireless communication terminal according to claim 1, wherein the application software module implements data transmission between the main control modules by means of software, wherein the software mode comprises: transmitting an AT command mode, Register callback function mode, message processing mode, terminal processing mode.

The wireless communication terminal according to claim 1, wherein the application software module implements data transmission between the main control modules by hardware, wherein the hardware manner comprises: transmitting an AT command mode.

The wireless communication terminal according to any one of claims 1 to 3, further comprising:

 An application hardware module, configured to connect another wireless communication terminal or another main control module;

 The application hardware driver adaptation module is configured to drive the application hardware module.

The wireless communication terminal according to claim 4, wherein the application hardware module comprises a hardware connection interface, and the hardware connection interface comprises at least one of the following:

 Bluetooth interface, serial interface, universal serial bus USB interface, pipe έ 对 ip PIN / PIN, computer internal bus connection to external devices PCIE, universal asynchronous transceiver UART, universal input and output interface GPIO.

An application method of a wireless communication terminal based on the Internet of Things, comprising: the wireless communication terminal acquiring service data corresponding to the Internet of Things, and processing the service data.

The application method according to claim 6, wherein before the wireless communication terminal obtains the service data corresponding to the Internet of Things, the method further includes:

 The wireless communication terminal enables the Internet of Things application processing function in response to a user operation; the wireless communication terminal enters a service data processing waiting state corresponding to the Internet of Things.

The application method according to claim 6, wherein the acquiring, by the wireless communication terminal, the service data comprises at least one of the following:

 The application software module acquires the service data from the main control module via a software adaptation interface module;

 The application software module obtains the service data from the application hardware module via an application hardware driver adaptation module;

 The application software module drives the adaptation module via the application hardware to acquire the service data from other wireless communication terminals based on the Internet of Things;

 The application software module, the software adaptation interface module, the main control module, the application hardware driver adaptation module, and the application hardware module are included in the wireless communication terminal.

The application method according to claim 8, wherein after the wireless communication terminal processes the service data, the method further includes:

 The application software module sends the processed service data to the main control module.

The application method of claim 9, wherein after the wireless communication terminal processes the service data, the method further includes:

 Determining, by the wireless communication terminal, whether an operation hardware resource needs to be enabled for subsequent processing of the service data;

 If yes, determine whether to enable the main control module, the application hardware module, and other wireless communication terminals based on the Internet of Things;

 Execute the operation corresponding to the judgment result.