WO2011153663A1 - Intelligent home service system and operating method thereof - Google Patents

Abstract

An intelligent home service system and operating method thereof are disclosed in this invention, and the system includes the following subsystems managed and controlled by a background integrated service system: an intelligent home subsystem, intelligent medical treatment subsystem, intelligent monitoring and alarming subsystem, intelligent traffic subsystem, intelligent logistics subsystem, intelligent campus subsystem, intelligent relic subsystem, intelligent city subsystem, intelligent environmental protection subsystem, and intelligent business subsystem; Said subsystems are respectively connected to the intelligent home internet of things, hospital internal internet of things, GPS(Global Position System) monitoring internet of things, traffic internet of things, logistics internet of things, campus internet of things, relic internet of things, city internet of things, environmental protection internet of things, and business internet of things. This invention makes a communication connection between each subsystem and internet of things to generate a more intelligent producing and living system, which enables users to really enjoy the overall intelligent home service, and the service can be chosen freely by the users according to needs.

Description

 Intelligent home service system and its working method

 The invention relates to the field of smart homes, in particular to an intelligent home service system and a working method thereof. Background technique

 With the acceleration of social information, people's work, life, communication and information are increasingly closely related. While transforming people's lifestyles and work habits, the information society has also challenged traditional houses. The social, technological, and economic advances have made people's ideas change dramatically. People's demands for homes have long been more than physical space. More concerned is a safe, convenient and comfortable home environment. Home intelligence technology originated in the United States, and it is designed on a home-based platform.

 There are three major problems in the development of smart homes in China at this stage: (1) The system is complex. At present, the smart home platform system is as shown in Figure 1 of the specification. The device integrates system information collection, information input, information output, centralized control, remote control, linkage control and other functions on one terminal. The function is relatively simple. Purely, it usually only has security, three-table collection, simple text information release and simple home appliance control functions. The security, intercom and other subsystems are the original intelligent central controllers. Users need to install several independent subsystems in their homes. This adds complexity to the installation and use. At present, smart homes use wired transmission. Flexibility, mobility and scalability are not available in wired transmission. (2) The price is expensive. At this stage, the intelligent module is only together with the home smart center to form a complete set of smart home solutions. This is often a large and comprehensive system, and the price is relatively expensive. The intelligent modules cannot be used independently from the system, which makes smart homes only a small amount of money. The luxury that people enjoy. (3) Unrealistic. At present, most of the home intelligent terminals are controlled by the embedded system. With the rapid development of the application of the Internet of Things industry, with the continuous increase of new functions and the continuous improvement of performance, the control capabilities and network communication capabilities of the home intelligent terminals are required. It is also constantly improving, and the individual control of the embedded system is far from meeting the requirements.

 At present, the core controller of smart home is embedded system, embedding security alarm system, intelligent home appliance control system, access control system, telephone alarm system, multimedia system, community management system, surveillance camera system and other software into an embedded system. inside. Due to the inherent insufficiency of the embedded system, such as hardware frequency, poor computing power, poor network communication capability, etc., the system response is very slow. Due to the rapid development of computer technology, information technology and Internet technology in today's society, especially the rise of the Internet of Things, the current smart home configuration is not expandable, the interaction with the Internet is not enough, and the information processing capability is poor. Meet the application of the Internet of Things.

In summary, smart home should develop into an industry that spans multiple industries, and its prosperity requires IT. Coordination, work, and efforts in industries such as industry, home appliance industry, mobile equipment industry, service application industry, and entertainment content providers. To realize the smart home service system in the Internet of Things era, we need four major product combinations: home automation, home network, network home appliances, and information appliances. Therefore, in order to make the smart home have a more rapid development, it is necessary to reform the current smart home service system, simplify its structure, reduce its cost, and keep pace with the times. Summary of the invention

 A first object of the present invention is to solve the above-mentioned problems existing in the prior art and to provide an all-round intelligent home service system capable of enjoying Internet value-added of the Internet of Things.

 The technical solution for realizing the first object of the present invention is an intelligent home service system, including a smart home subsystem managed by a back-end integrated service system, an intelligent medical subsystem, an intelligent monitoring and alarm subsystem, an intelligent transportation subsystem, and intelligent logistics. Subsystem, intelligent campus subsystem, intelligent Wenbo subsystem, intelligent city subsystem, intelligent environmental protection subsystem and intelligent business subsystem; the aforementioned subsystems are respectively connected with smart home Internet of things, hospital internal Internet of Things,

GPS monitors the Internet of Things, the transportation of the Internet of Things, the logistics of the Internet of Things, the campus Internet of Things, the Wenbo Internet of Things, the urban Internet of Things, the environmental Internet of Things and the business of the Internet of Things.

 The smart home subsystem includes a wireless intelligent module system and a smart home central controller; the wireless intelligent module system is used for collecting various information and identifying and controlling information, and includes various functional subsystems, namely, an intelligent electrical control subsystem. , wireless security alarm subsystem, camera monitoring subsystem, access control subsystem, telephone alarm subsystem, USB setting subsystem, LCD display subsystem and button setting subsystem; the functions of the foregoing functional subsystems are implemented by hardware modules, hardware modules Including ARM processor, RF wireless control unit, wireless WIFI module and interface unit; ARM processor controls each subsystem through RF wireless control unit and interface unit; wireless intelligent module system communicates with intelligent home central controller through wireless WIFI module, intelligent The home central controller controls the wireless intelligent module system to execute various commands issued by it, and communicates with the background integrated service system to realize function expansion; the intelligent home central controller includes a fanless low power X86 chip, a memory, an input/output device, Interface power Tablet and peripheral circuits.

 The background integrated service system includes a media server, an authentication server, a service logic control server, an accounting server, a mail server, a resource module server, a software switching server, a system monitoring station, a system management station, and a plurality of service application servers; The application servers respectively correspond to the aforementioned subsystems.

The hardware module of the wireless intelligent module system of the smart home subsystem further includes: a telephone remote control module, an RF wireless data acquisition control unit, a GSM control module, an access control module, a camera control module, and a power module; the ARM processor includes ARM embedded chip, SDRAM memory and FLASH memory, for receiving information and sending instructions to control various functional subsystems of the wireless intelligent module system to operate according to requirements; the RF wireless control unit comprises an RF wireless security transceiver module and an RF radio transceiver module For command control by ARM processor The security device and the electrical appliance; the interface unit comprises an LCD display interface, a USB interface, a camera interface, a door control interface and a button interface, and is used for connecting each external device with the ARM processor; the telephone remote control module is used for pressing the ARM The processor's instructions are for telephone remote control and security alarms, which are connected in parallel at both ends of the telephone, including a single-chip DTMF signal transceiver MT8880 with call processing filter, ringing detection circuit, analog pick-up circuit, DTMF audio decoding. The circuit, the voice prompt circuit, the central processing unit, the control circuit and the power supply circuit; the signal transceiver MT8880 receives the DTMF signal, and after the ringing detection circuit determines, the central processing unit controls the analog hook circuit, and the DTMF audio decoding circuit decodes the DTMF signal. The decoded signal is processed by a central processing unit, and the power circuit provides working power for the module; the RF wireless data acquisition control unit includes but is not limited to a wireless security module, a wireless smart switch, a wireless smart socket, and a wireless infrared converter. In the security alarm and electrical signal collection And transmitting the collected information to the ARM processor through the RF wireless control unit; the wireless security module includes but is not limited to a magnetic door device, an infrared sensor, a smoke sensor, a gas leak sensor, and a human body motion sensor; According to the instruction of the ARM processor, the telephone and the SMS alarm are performed; the QR code identifier is built in the access control module, and is used for controlling the electronic lock according to the instruction of the ARM processor; the camera control module has a built-in camera conversion chip for using the ARM The processor's instructions implement local monitoring.

 The telephone remote control module of the wireless intelligent module system of the smart home subsystem communicates with the ARM processor, and controls the wireless intelligent switch, the wireless smart socket and the wireless infrared converter through the RF radio transceiver module to realize the intelligent electrical control subsystem. Remote control function; the wireless security module collects security alarm information, communicates with the 'ARM processor through the RF wireless security transceiver module, and implements the function of the wireless security alarm subsystem through the telephone remote control module; the camera interface is connected to the camera, Communicate with the ARM processor through the camera control module to realize the function of the camera monitoring subsystem; the access control interface collects QR code information, communicates with the ARM processor through the access control module, realizes the function of the access control subsystem; The module, the GSM control module, the camera control module communicate with the ARM processor to implement the function of the telephone alarm subsystem; the external device communicates with the ARM processor through the USB interface to implement the function of the USB setting subsystem; the LCD display Press the key with the key interface communicates via the ARM processor, arranged to realize a key function subsystem; interface in communication with the ARM processor, LCD display subsystem implemented by the LCD display.

 A second object of the present invention is to provide a working method capable of realizing an all-round intelligent home service system. The technical solution for realizing the second object of the present invention is: A working method of an intelligent home service system, and the method for determining the event triggering by the background integrated service system includes the following steps:

 Step 1: System initialization, if it fails, it ends, otherwise it goes to the next step;

 Step 2: Determine if there is time, if there is no event, then go to the next step;

 '.. Step 3: Determine the type of event and enter the corresponding event processing;

Step 4: The event types include: control event processing, database event processing, and timeout event processing; Step 5: After the event processing is completed, return to step 2 through the limited asynchronous state machine.

 The method for the user to log in to each subsystem through the terminal includes the following steps:

 Step 1: The user logs in to each subsystem through the terminal;

 Step 2: The system determines whether the terminal is a system-free authentication terminal, and if yes, proceeds to step 10, and if not, proceeds to the next step;

 Step 3: Enter an account number;

 Step 4: Enter the password;

 Step 5: Determine whether the account is valid and the password is correct. If the account password is correct, go to step 10. If the password is incorrect, go to step 8. If the account is not valid, go to the next step.

 Step 6: Determine whether the number of invalid entries is three times. If it reaches three times, go to step 16. If it does not reach three times, go to the next step.

 Step 7: Prompt "The account does not exist, please re-enter" and return to step three;

 Step 8: Determine whether the number of times the password is entered incorrectly reaches three times. If it reaches three times, it goes to step sixteen. If it does not reach three times, it goes to the next step;

 Step 9: Prompt "The password is incorrect, please re-enter" and return to step four;

 Step 10: Determine the account status. If the account has been logged in, prompt "Your account has been logged in", and then go to step 16. If the account uses an off-site IP login, it will prompt "Your IP address is incorrect, please contact the service center". Then go to step sixteen, if the account status is normal, go to the next step;

 Step 11: Determine the login type. If the E-Smart administrator logs in, enter the E-Smart administrator process. If it is an ordinary user, go to the next step.

 Step 12: Start landing;

 Step 13: Determine whether the login is successful. If it fails, proceed to step 16. If successful, proceed to the next step; Step 14: Database registration;

 Step 15: Enter the general user management process;

 Step 16: Close the login;

 The E-Smart administrator account login method includes the following steps:

 Step 1: E-SMART administrator account login;

 Step 2: Determine the account privilege status. If it is not enabled or has no privilege, it will prompt "This account privilege is lower, please check and log in", and jump to step IX. If it is normal, go to the next step;

 Step 3: Query the blacklist to determine whether the account can be accessed. If it is not accessible, go to step 9. If it can be accessed, go to the next step.

Step 4: Enter the administrator management system; Step 5: User information management;

 Step 6: Store the data;

 Step 7: Determine whether the storage is successful. If not, return to step 6. If successful, go to the next step. Step 8: Determine whether the user needs to log out. If not, return to step 5. If you exit, go to the next step. Step 9: drop out;

 The E-Smart common account login method includes the following steps:

 Step 1: E-SMART common account login;

 Step 2: Determine the account privilege status. If it is not enabled or has no privilege, it will prompt "This account has lower privilege, please log in after logging in" and go to step IX. If it is normal, go to the next step;

 Step 3: Query the blacklist to determine whether the account can be accessed. If it is not accessible, go to step 9. If it can be accessed, go to the next step.

 Step 4: Enter the general user management system;

 Step 5: Determine the user management data type. If the user uploads the data, the process proceeds to step 8. If the user reads the number, the process proceeds to step 10. If the user stores the data, the process proceeds to the next step;

 Step 6: Store the data;

 Step 7: Determine whether the storage is successful. If it is unsuccessful, return to step 6. If successful, proceed to step 12; Step 8: Upload data;

 Step 9: Determine whether the upload is successful. If it is not successful, return to step 8. If successful, proceed to step 12; Step 10: Read the data;

 Step 11: Determine whether the reading is successful. If it is not successful, return to step 10. If it is successful, go to the next step. Step 12: Determine whether the user needs to log out. If not, return to step 5. If you exit, go to the next step. Step 13: Exit.

 The communication method between the wireless intelligent module system of the wireless intelligent module system of the smart home subsystem and the intelligent home central controller includes the following steps: Step 1: The ARM processor detects whether to send a signal or whether to receive a signal;

 Step 2: If the signal is sent, the ARM processor determines the transmission type and sends it to the intelligent home central controller through the wireless WIFI module; if receiving the signal, the ARM processor determines the reception type, triggers the wireless WIFI module from the smart home central controller. Receiving data;

 Step 3: The ARM processor analyzes whether it is a control signal, and if so, sends a control command through the RF wireless control unit.

The remote control method of the intelligent electrical control subsystem of the wireless intelligent module system of the smart home subsystem includes the following steps: Step 1: The telephone remote control module is initialized;

 Step 2: The user dials the telephone number of the external line connected to the remote control module through the remote telephone, and sends a ringing signal to the telephone;

 Step 3: The central processing unit records the number of times the software is started, and judges the number of rings; if the ringing is unanswered six times, the analog pick-up circuit is controlled to perform off-hook; if the ringing is not answered six times, Then return to step 1 initialization state -;

 Step 4: After the analog off-hook, the voice prompt circuit prompts the user to input a password, and the central processing unit determines whether the password is correct; if the password is correct, the voice prompt circuit prompts the user to control the electrical appliance, and the user selects the controlled electrical appliance and opens If the password is incorrect, the central processing unit records the number of times the software is started. If it is not more than three times, the voice prompts to re-enter the password. If the number of software startups exceeds three times, the central processing unit controls the analog hook-up circuit to hang up. , the remote control ends;

 Step 5: The user waits for the ARM processor to control the wireless intelligent switch, the wireless smart socket and the wireless infrared converter to perform the on/off operation of the controlled electric appliance selected by the user through the RF radio transceiver module;

 Step 6: If the voice prompt has completed the on/off operation, the central processing unit determines whether the user presses the "#" key, and if pressed, the central processing unit controls the analog pick-up circuit to hang up, and the remote control ends; If it is not pressed, it will start 45 seconds. If the time is 45 seconds, the central processing unit controls the analog hook circuit to hang up, and the remote control ends. If the 45 seconds time has not arrived, it is judged again whether the user presses the "#" button. , until the "#" key is pressed or 45 seconds is reached, the remote control is ended;

 The wireless security alarm subsystem of the wireless home module system of the smart home subsystem and the alarm data collection and processing method of the telephone alarm subsystem include the following steps:

 Step 1: The RF wireless security transceiver module receives the RF signal of the wireless security module and transmits it to the ARM processor.

 Step 2: The ARM processor analyzes the RF signal to determine whether it is an alarm signal;

 Step 3: If it is an alarm signal, analyze the alarm, generate sound and light, SMS or telephone alarm signal according to the type of alarm, and forward the alarm signal to the telephone alarm subsystem, and send the above alarm signal to the center of the smart home. The controller performs storage;

Step 4: When the GSM control module of the telephone alarm subsystem detects that there is a telephone alarm signal, the alarm number is read, and then the telephone and the short message alarm are performed; the data acquisition of the camera monitoring subsystem of the wireless intelligent module system of the smart home subsystem is collected. The sub-processing method comprises the following steps: the camera control module converts the captured analog signal into a digital picture signal, and the ARM processor determines whether an alarm is needed. If it is an alarm signal, the alarm number is read by the GSM control module, and the picture is sent out. At the same time, the ARM processor analyzes the data type and sends the aforementioned alarm signal to the intelligent home central controller for storage; The data collection and processing method of the access control subsystem comprises the following steps: the access control module detects whether there is an access control signal; if there is an access control signal, the ARM processor determines whether the door opening signal or the door closing signal, respectively, according to the judgment result, respectively sending the door opening signal and closing the door Signal control access control;

 The data collection and processing method of the USB setting subsystem includes the following steps: the ARM processor detects a signal of the USB interface, and analyzes whether the signal is an on signal or an off signal; if the signal is on, the device is connected through the pair ARM processor to set up;

 The data collection and processing method of the button setting subsystem includes the following steps: the ARM processor detects a signal of the button interface, and analyzes whether the signal is an on signal or an off signal; if the signal is on, the button is processed by the ARM. Set up.

 After adopting the above technology, the present invention has the following beneficial effects: (1) The present invention realizes intelligence by connecting all the subsystems with the Internet of Things and connecting all the items to the Internet through the information sensing device. Identification and management, combined with the Internet, enables remote sensing and control of all items, resulting in a more intelligent production and living system. The present invention is larger than the current Internet and can be used for intelligent transportation, environmental protection, government Work, public safety, smart home, smart fire, elderly care, private health and other fields, so that users can truly enjoy a full range of smart home services, and the service can be freely selected by users according to their needs.

(2) The smart home service system of the present invention specifically has the following functions: Intelligent home function: The intelligent home central controller integrates an automatic control system, a computer network system and a network communication technology, and integrates various home devices, such as audio and video equipment. , lighting system, curtain control, air conditioning control, security system, digital cinema system, network home appliances, etc., through the wireless intelligent module system to achieve control, can achieve remote control of home devices. Compared with ordinary smart homes, the intelligent home central controller not only provides a comfortable and high-quality family living space, but also realizes a smarter home security system. It also transforms the home environment from the original passive static structure to a tool with active intelligence. Provide a full range of information interaction functions; Intelligent medical function: The intelligent medical subsystem self-tests the physiological indicators of patients or elderly people in the home with simple and practical home medical sensing equipment, and transmits the generated physiological indicator data to the nursing through the network. People or related medical units. According to customer needs, it also provides related value-added services, such as emergency call assistance services, expert consulting services, and life-long health file management services. The intelligent medical system truly solves the helplessness of the children in the modern society because of the busy work of the elderly, and can express the feelings of the dutiful son at any time. The intelligent monitoring and alarm function: It can realize the precise positioning, tracking and control of moving targets such as people, cars and boats. It has the characteristics of high positioning accuracy, strong stability and good use effect. Intelligent and environmental protection function: The intelligent home central controller can realize real-time continuous monitoring and remote monitoring of water quality and air quality through automatic monitoring of water quality and air quality of household tap water. Keep abreast of the environmental conditions in your home, and control the environment in your home by controlling the water purifier and air purifier; Intelligent traffic function: Intelligent home central controller Unicom intelligent traffic subsystem knows the road conditions through the road video monitoring platform, can know the outside at home The road surface condition effectively meets the various needs of users for vehicle management; Intelligent Logistics Function: Intelligent The home central controller Unicom intelligent logistics subsystem has created a comprehensive logistics information service platform integrating information display, e-commerce, logistics and other functions. The information service platform is based on functional integration and performance integration. It uses e-commerce and online transactions as the main transaction forms to build a high-standard and high-grade comprehensive information service platform. Intelligent campus function: Intelligent home central controller Unicom intelligent campus The subsystem promotes the informationization and intelligence of the campus. The intelligent campus subsystem helps users in the primary and secondary schools to realize the electronic management of students, the paperlessness of teachers' classrooms and the systematic management of school management, so that students, parents and schools can keep communication at all times, so that parents can keep abreast of students' learning and life. Through a thin "school card", it has truly achieved the fine management of the daily behavior of the minors, and finally achieves the students happy, the parents are assured, the school saves the effect; Intelligent Wenbo function: Intelligent home central controller Unicom intelligent The Wenbo subsystem establishes a text, picture, voice, and video introduction database of related navigation scenarios on the server side, and provides an access service specifically for the smart home central controller device in the form of a website. According to the needs of users, you can access the server website and get relevant texts such as text, picture voice or video introduction of the exhibits. Intelligent business functions: Intelligent home central controller Unicom intelligent business subsystem provides users with stable broadband communication platform and software platform. Provide a comprehensive range of life services, including shopping, distribution, housekeeping, entertainment, weather forecasting, information inquiry, voice prompts and alarms; other services include travel, sports, lottery, online information search and consultation.

 (3) The core processing of the smart home subsystem of the present invention is separated from the intelligent control part, and the modularization and high-end of the smart home are realized, and the installation, maintenance and use of each intelligent module are simple and convenient, and no longer depend on the center of the smart home. The system and self-contained system can greatly improve the production efficiency and the stability of product quality, making the smart home suitable for mass production and becoming a popular daily use product.

 (4) The smart home central controller of the smart home subsystem of the present invention is based on the X86 architecture CPU system, and thus has the following advantages: First, it can encode and decode files of different formats; Second, the CPU of the X86 architecture has a comparison Complete application software, low maintenance costs; Third, the X86-based system can be easily shared with PC resources, with stronger data processing capabilities and network communication capabilities.

 (5) The invention utilizes a wireless WIFI module with convenient installation to connect the intelligent home central controller and the wireless intelligent module system, and realizes the modularization of security alarm, intelligent control, telephone alarm and the like by using a low-performance control chip. Transforming the original passive static structure into a tool with active intelligence, simple structure, convenient installation, low cost and low price, making smart home become a popular daily use product, providing people with a full range of information exchange functions, helping families Keep information exchange with the outside, optimize people's lifestyles, help people to arrange time effectively, enhance the safety of home life, and even save money for various energy costs.

(6) The wireless intelligent module system of the invention can realize many functions such as security alarm function, home appliance control function, intelligent lighting management function, remote control function, remote monitoring function and automatic access control, etc., and can provide users with comfortable and convenient home life. . Specifically: The wireless intelligent module system can be connected to various security detectors, such as infrared, Door magnetic, if an alarm occurs, the internal telephone alarm system will send the alarm information to the owner or the relevant responsible person, and the alarm information will also be stored in the intelligent home central controller. The user can also set the automatic alarm capture function and simultaneously send the captured photos to the user by email. When an alarm occurs, the intelligent home central controller will prompt the user where the alarm occurs by text and sound. Users can freely configure and add home appliance control nodes according to their own needs. Both the wireless intelligence module and the smart home central controller can prompt the user how to set up and use the home appliance control function through a fully graphical wizard. Through the learnable wireless infrared converter, users can conveniently realize centralized management of home appliances and remote control of telephone and network without any modification of home appliances. The wireless intelligent module system realizes centralized management and control of wireless intelligent switches, sockets and other modules through wireless means. The wireless intelligent module system centrally manages the electrical appliances and lights in the home, enabling rich management and control functions. Users can preset a variety of scene modes including home appliances, lights, and curtains. They can also turn on timing control programs, temperature control programs, and connect home appliance controls with burglar alarms. Users can remotely control all security detectors in the home, remotely control home appliances, lighting, and curtains by dialing a home phone or logging into the network. Users can monitor the status of the home at any time through the network, and can connect multiple network cameras to achieve remote network monitoring. The user can control the access control through the wireless intelligent module system and the smart home central controller, or can control the access control by dialing a home phone or logging into the network. DRAWINGS

 In order to make the content of the present invention easier to understand, the present invention will be further described in detail below with reference to the accompanying drawings,

 Figure 1 is a block diagram of the prior art.

 Figure 2 is a block diagram showing the structure of the present invention.

 3 is a structural block diagram of a wireless intelligent module system of the smart home subsystem of the present invention.

 4 is a hardware structural diagram of a wireless intelligent module system of the smart home subsystem of the present invention.

 FIG. 5 is a block diagram of a telephone remote control module of the smart home subsystem of the present invention.

 FIG. 6 is a schematic diagram of the working mode of the smart home subsystem of the present invention.

 FIG. 7 is a flowchart of a method for determining an event triggering by a background integrated service system according to the present invention.

 FIG. 8 is a flow chart of a method for a user to log in to each subsystem through a terminal according to the present invention.

 FIG. 9 is a flowchart of a method for logging in an administrator account according to the present invention.

 FIG. 10 is a flowchart of a method for logging in to a general user account according to the present invention.

 11 is a flow chart of a remote control method of the intelligent electric appliance control subsystem of the present invention.

 FIG. 12 is a flowchart of a method for collecting and processing data of a wireless security alarm subsystem according to the present invention.

FIG. 13 is a flowchart of a method for collecting and processing data of a telephone alarm subsystem according to the present invention. 14 is a flow chart of a data acquisition and processing method of the camera monitoring subsystem of the present invention.

 FIG. 15 is a flowchart of a data acquisition and processing method of the access control subsystem of the present invention.

 16 is a flow chart of a data collection and processing method of the USB setting subsystem of the present invention.

 17 is a flow chart of a data collection and processing method of the button setting subsystem of the present invention.

 18 is a flow chart of a communication method between a wireless intelligent module system and a smart home central controller of the present invention. The numbers in the drawings are:

Wireless intelligent module system 1, intelligent electrical control subsystem 1-1, wireless security alarm subsystem 1-2, camera monitoring subsystem 1-3, access control subsystem 1-4, telephone alarm subsystem 1-5, USB settings System 1-6, LCD display subsystem 1-7, button setting subsystem 1-8; ARM processor 2; RF wireless control unit 3; LCD display interface 41, USB interface 42, camera interface 43, access control interface 44, Button interface 45; telephone remote control module 5; RF wireless data acquisition control unit 6, wireless security module 61, magnetic door device 61-1, infrared sensor 61-2, smoke sensor 61-3, gas leak sensor 61-4, human body Mobile sensor 61-5, wireless smart switch 62, wireless smart socket 63, wireless infrared converter 64; GSM control module 7; access control module 8; camera control module 9; wireless WIFI module 10; intelligent home central controller 11; Integrated business system 12; intelligent home subsystem a; intelligent medical subsystem b; intelligent monitoring and alarm subsystem c; intelligent transportation subsystem d; intelligent logistics subsystem _6; intelligent campus subsystem f; intelligent text subsystem g; Subsystem h _; intelligent environmental protection subsystem i; intelligent business subsystem j; smart home Internet of Things A; hospital internal Internet of Things B; GPS monitoring Internet of Things C; transportation Internet of Things D; logistics Internet of Things E; Campus Internet of Things F; Museum of Things Networking G; City Internet of Things H; Environmental Internet of Things I; Business Internet of Things J connection. detailed description

 (Embodiment 1, Intelligent Home Service System)

Referring to FIG. 2, the smart home service system of the embodiment includes a smart home subsystem a and a smart medical subsystem managed and controlled by the back-end integrated service system 12! ), intelligent monitoring and alarm subsystem c, intelligent transportation subsystem d, intelligent logistics subsystem e, intelligent campus subsystem ^ intelligent text subsystem _§ , intelligent city subsystem 11, intelligent environmental subsystem i and intelligent business subsystem j; The aforementioned subsystems are respectively related to smart home Internet of Things A, hospital internal Internet of Things B, GPS monitoring Internet of Things C, traffic Internet of Things D, logistics Internet of Things E, campus Internet of Things F, Wenbo IoT G, urban Internet of Things H, environmental protection IoT I and Business IoT J are connected.

 The smart home service system of the present embodiment specifically includes a smart home function, an intelligent medical function, an intelligent monitoring and alarming function, an intelligent environmental protection function, an intelligent transportation function, an intelligent logistics function, and an intelligent connection by connecting the subsystems to the Internet of Things. Many value-added services such as campus functions, intelligent texts and smart business functions.

As shown in Figure 3, the smart home subsystem a includes the wireless intelligent module system 1 and the smart home central control 11 m τ " =ω / _np ^ ^ ^ points. The 眢 眢 module system 1 is used to collect various information and identify the interest ^! City ¹ ”; 哲廷中央控制器11 controls the wireless intelligent module system 1 It sends out various instructions and connects with the external network to realize function expansion. ''

 Specifically, the wireless intelligent module system 1 includes various functional subsystems, namely, the intelligent electrical control subsystem 1-1, the wireless security alarm subsystem 1-2, the camera monitoring subsystem 1-3, the access control subsystem 1-4, and the telephone alarm. Subsystem 1-5 USB Setting Subsystem 1-6 LCD Display Subsystem 1-7 and Key Setting Subsystem 1-8; The functions of these functional subsystems are implemented by hardware modules, so that they can be selected according to the needs of the user and Add, flexible to use.

 As shown in FIG. 3, FIG. 4 and FIG. 6, the hardware module of the wireless intelligent module system 1 includes an ARM processor 2, an RF wireless control unit 3, an interface unit, and a telephone remote control module. 5 RF wireless data acquisition control unit 6 GSM control module 7 , the access control module 8, the camera control module 9, the power module and the wireless WIFI module 10 ARM processor 2 controls each subsystem through the RF wireless control unit 3 and the interface unit, the ARM processor 2 includes an ARM embedded chip, SDRAM memory and FLASH The memory is configured to receive information and send instructions to control the functional subsystems of the wireless intelligent module system 1 to operate as required. The RF wireless control unit 3 includes an RF wireless security transceiver module and an RF radio transceiver module for controlling security devices and appliances according to the instructions of the ARM processor 2. Specifically, the RF wireless security transceiver module controls the wireless security module 61. The module controls the wireless smart gateway 62, the wireless smart socket 63, and the wireless infrared converter 64. The interface unit includes an LCD display interface 41, a USB interface 42, a camera interface 43, an access control interface 44, and a button interface 45 for connection of each external device to the ARM processor 2. The telephone remote control module 5 is used for remote control and security alarms according to the instructions of the ARM processor 2. The RF wireless data acquisition control unit 6 includes, but is not limited to, the wireless security module 61 shown in FIG. 4, a wireless smart switch 62, a wireless smart socket 63, and a wireless infrared converter 64 for security alarm and electrical signal acquisition, and The collected information is transmitted to the ARM processor 2 through the RF wireless control unit 3. The GSM control module 7 is used to perform telephone and short message alarms according to the instructions of the ARM processor 2. The QR code recognizer is built into the access control module 8 and is used to control the electronic lock in accordance with the instructions of the ARM processor 2. The camera control module 9 has a built-in camera conversion chip for local monitoring in accordance with the instructions of the ARM processor 2. The wireless intelligent module system 1 communicates with the smart home central controller 11 via the wireless WIFI module 10.

Referring to Fig. 6, the wireless intelligent module system 1 of the present invention communicates with the smart home central controller 11 via a WIFI wireless network and is controlled by the smart home central controller 11. Specifically, the ARM processor 2 communicates with the smart home central controller 11 via the wireless WIFI module 10. The ARM processor 2 controls the wireless security module 61, which includes, but is not limited to, the door magnetic device 61-1, the infrared sensor 61-2, the smoke sensor 61-3, the gas leak sensor 61-4, and Human body movement sensor 61-5. The door magnetic device 61-1 is installed on the door and window of the house, and the infrared sensor 61-2 is installed in the main passage and the important room. When there is trespassing, an audible and visual alarm signal is sent, and a text message is sent to inform the family and Sending a signal to the smart home central controller 11, the wisdom of the present invention The ε system can set the level of the alarm device and the sensitivity of the alarm. The smoke-number is converted into an electrical signal to monitor the presence or absence of fire in each room. In the event of a fire, sound and light, text messages and telephone alarms will be sent to inform the family and send a signal to the smart home central controller ι ι. The intelligent module system 1 and the smart home central controller 11 of the present invention can also adjust the sensitivity of the temperature detector and the smoke detector according to whether the person is at home or not at home. The gas leak sensor 61-4 monitors the gas pipeline and the stove has no gas leakage. If there is a gas leak, an audible and visual alarm signal is issued, and the electromagnetic wide on the gas pipeline is closed in parallel, and the family member is sent by SMS or telephone to send a signal to the smart home central controller 11.

 The ARM processor 2 acquires the data of the RF wireless data acquisition control unit 6 through the wireless radio frequency signal; the wireless infrared converter 64 controls the projector, the DVD, the background music, the air conditioner and other appliances through the infrared remote control signal; the wireless smart switch 62 and the wireless smart socket 63 controls dimmable luminaires, non-dimmable luminaires, and power supplies. The ARM processor 2 communicates with the public telephone network via the telephone remote control module 5. The intelligent home central controller 11 is connected to the external network and can be connected to various Internet of Things to provide various extended services for home life.

 As shown in Figure 5, the telephone remote control module 5 is connected in parallel to both ends of the telephone, which does not affect the normal use of the telephone. Including a single-chip DTMF signal transceiver MT8880 with call processing filter, ringing detection circuit, analog pick-up circuit, DTMF audio decoding circuit, voice prompt circuit, central processing unit, control circuit and power supply circuit; signal transceiver MT8880 receiving The DTMF signal is controlled by the central processing unit after being judged by the ringing detection circuit, and the DTMF audio decoding circuit decodes the DTMF signal, and the decoded signal is processed by the central processing unit, and the power circuit provides the working power for the module.

 The functions of the subsystems of the wireless intelligent module system 1 are implemented by the combination of the foregoing hardware modules. Specifically, the telephone remote control module 5 communicates with the ARM processor 2, and controls the wireless smart switch 62 and the wireless smart through the RF radio transceiver module 32. The socket 63 and the wireless infrared converter 64 implement a remote control function of the intelligent appliance control subsystem 11. The wireless security module 61 collects security alarm information, communicates with the ARM processor 2 through the RF wireless security transceiver module, and implements the function of the wireless security alarm subsystem 12 through the telephone remote control module 5. The camera interface 43 is connected to the camera, and communicates with the ARM processor 2 through the camera control module 9 to realize the function of the camera monitoring subsystem 13. The access control interface 44 acquires QR code information and communicates with the ARM processor 2 through the access control module 8 to implement the function of the access control subsystem 14. Telephone remote control module 5. GSM control module 7. The camera control module 9 communicates with the ARM processor 2 to realize the function of the telephone alarm subsystem 15. The external device communicates with the ARM processor 2 via the USB interface 42 to implement the functions of the USB setting subsystem 16. The LCD display communicates with the ARM processor 2 via the LCD display interface 41 to implement the functions of the LCD display subsystem 17; the button communicates with the ARM processor 2 via the button interface 45 to implement the function of the button setting subsystem 18.

The intelligent home central controller 11 includes a fanless low power X86 chip, a memory, an input/output device, and a connection. Circuit chip. The smart home central controller 11 of this embodiment is 1 1 1©

AtomTM Atom processor's fanless smart touch computer. Not only is it cost-effective, it is also a multi-functionality.

(Embodiment 2, working method of intelligent home service system)

 See Figure 7. The background integrated service system determines the event triggering method includes the following steps:

 Step 1: System initialization, if it fails, it ends, otherwise it goes to the next step;

 Step 2: Determine if there is time, if there is no event, then go to the next step;

 Step 3: Determine the type of event and enter the corresponding event processing;

 Step 4: The event types include: control event processing, database event processing, and timeout event processing; Step 5: After the event processing is completed, return to step 2 through the limited asynchronous state machine.

 See Figure 8. The method for users to log in to each subsystem through the terminal includes the following steps:

 Step 1: The user logs in to each subsystem through the terminal;

 Step 2: The system determines whether the terminal is a system-free authentication terminal, and if yes, proceeds to step 10, and if not, proceeds to the next step;

 Step 3: Enter an account number;

 Step 4: Enter the password;

 Step 5: Determine whether the account is valid and the password is correct. If the account password is correct, go to step 10. If the password is incorrect, go to step 8. If the account is not valid, go to the next step.

 Step 6: Determine whether the number of invalid entries is three times. If it reaches three times, go to step 16. If it does not reach three times, go to the next step.

 Step 7: Prompt "The account does not exist, please re-enter" and return to step three;

 Step 8: Determine whether the number of times the password is entered incorrectly reaches three times. If it reaches three times, it goes to step sixteen. If it does not reach three times, it goes to the next step;

 Step 9: Prompt "The password is incorrect, please re-enter" and return to step four;

 Step 10: Determine the account status. If the account is logged in, it prompts "Your account has been logged in", and then proceeds to step 16. If the account uses an off-site IP login, it will prompt "Your IP address is incorrect, please contact the service center". Then go to step sixteen, if the account status is normal, go to the next step;

 Step 11: Determine the login type. If the E-Smart administrator logs in, enter the E-Smart administrator process. If it is an ordinary user, go to the next step.

 Step 12: Start landing;

Step 13: Determine whether the login is successful. If it fails, proceed to step 16. If successful, proceed to the next step; Step 14: Database registration; Step 15: Enter the general user management process;

 Step 16: Close the login;

 See Figure 9. The E-Smart administrator account login method includes the following steps:

 Step 1: E-SMART administrator account login;

 Step 2: Determine the account privilege status. If it is not enabled or has no privilege, it will prompt "This account privilege is lower, please check and log in", and jump to step IX. If it is normal, go to the next step;

 Step 3: Query the blacklist to determine whether the account can be accessed. If it is not accessible, go to step 9. If it can be accessed, go to the next step.

 Step 4: Enter the administrator management system;

 Step 5: User information management;

 Step 6: Store the data;

 Step 7: Determine whether the storage is successful. If not, return to step 6. If successful, go to the next step. Step 8: Determine whether the user needs to log out. If not, return to step 5. If you exit, go to the next step. Step 9: drop out;

 See Figure 10. The E-Smart common account login method includes the following steps:

 Step 1: E-SMART common account login;

 Step 2: Determine the account privilege status. If it is not enabled or has no privilege, it will prompt "This account has lower privilege, please log in after logging in" and go to step IX. If it is normal, go to the next step;

 Step 3: Query the blacklist to determine whether the account can be accessed. If it is not accessible, go to step 9. If it can be accessed, go to the next step.

 Step 4: Enter the general user management system;

 Step 5: Determine the user management data type. If the user uploads the data, the process proceeds to step 8. If the user reads the number, the process proceeds to step 10. If the user stores the data, the process proceeds to the next step;

 Step 6: Store the data;

 Step 7: Determine whether the storage is successful. If not, return to step 6. If successful, proceed to step 12; Step 8: Upload data;

 Step 9: Determine whether the upload is successful. If it is not successful, return to step 8. If successful, proceed to step 12; Step 10: Read the data;

 Step 11: Determine whether the reading is successful. If it is not successful, return to step 10. If it is successful, go to the next step. Step 12: Determine whether the user needs to log out. If not, return to step 5. If you exit, go to the next step. Step 13: Exit.

Referring to FIG. 11, the remote control method of the intelligent electric appliance control subsystem 11 of the smart home service system of Embodiment 1 Tiffi to b:

 Step 1: Telephone remote control module 5 initialization;

 Step 2: The user dials the telephone number of the external line connected to the remote control module 5 through the remote telephone, and sends a ringing signal to the telephone;

 Step 3: The central processing unit records the number of times the software is started, and judges the number of rings; if the ringing is unanswered six times, the analog pick-up circuit is controlled to perform off-hook; if the ringing is not answered six times, Then return to the step 1 initialization state;

 Step 4: After the analog off-hook, the voice prompt circuit prompts the user to input a password, and the central processing unit determines whether the password is correct; if the password is correct, the voice prompt circuit prompts the user to control the electrical appliance, and the user selects the controlled electrical appliance and opens If the password is incorrect, the central processing unit records the number of times the software is started. If it is not more than three times, the voice prompts to re-enter the password. If the number of software startups exceeds three times, the central processing unit controls the analog hook-up circuit to hang up. , the remote control ends;

 Step 5: The user waits for the ARM processor 2 to control the wireless smart switch 62, the wireless smart socket 63 and the wireless infrared converter 64 to perform an on/off operation on the controlled appliance selected by the user through the RF radio transceiver module 32; Step 6: If the voice The prompt has completed the on/off operation, and the central processing unit determines whether the user presses the "#" key. If pressed, the central processing unit controls the analog hook circuit to hang up, and the remote control ends; if not, then Start the 45 second timer. If the 45 second time is up, the central processing unit controls the analog hook circuit to hang up, and the remote control ends. If the 45 seconds time has not expired, it is judged again whether the user presses the "#" key until the "" button is pressed. # "Key or 45 seconds to arrive, end remote control.

 Referring to Figures 12 and 13, the alarm data collection processing method of the wireless security alarm subsystem 12 and the telephone alarm subsystem 15 includes the following steps:

Step 1: The RF wireless security transceiver module 31 receives the RF signal of the wireless security module 61 and transmits it to the ARM processor 2 _;

 Step 2: The ARM processor 2 analyzes the RF signal to determine whether it is an alarm signal;

 Step 3: If it is an alarm signal, analyze the alarm, generate an acousto-optic, short message or telephone alarm signal according to the type of alarm, and forward the alarm signal to the telephone alarm subsystem 15, and send the aforementioned alarm signal to the smart home. The central controller 11 performs storage;

 Step 4: The GSM control module of the telephone alarm subsystem 15 detects the telephone alarm signal, reads the alarm number, and then performs a telephone or SMS alarm.

As shown in FIG. 14, the data acquisition and processing method of the camera monitoring subsystem includes the following steps: The camera control module 9 converts the captured analog signal into a digital picture signal, and the ARM processor 2 determines whether an alarm is needed, and if it is an alarm signal, passes The GSM control module 7 reads the alarm number and sends the picture out, at the same time as the ARM , , , _ , , 2 analyze the data type, and send the aforementioned alarm signal to the smart home central controller 11; see Figure 15, the data collection and processing method of the access control subsystem 14 includes the following steps: The control module 8 detects whether there is an access control signal; if there is an access control signal, the ARM processor 2 determines whether it is a trick signal or a door closing signal, and sends a door opening signal and a door closing signal to control the access control according to the judgment result;

 As shown in FIG. 16, the data collection and processing method of the USB setting subsystem 16 includes the following steps: The ARM processor 2 detects the signal of the USB interface 42 and analyzes whether the signal is a turn-on signal or an open signal; Setting the ARM processor 2 through the connected device;

 As shown in FIG. 17, the data acquisition and processing method of the button setting subsystem 18 includes the following steps: the ARM processor 2 detects the signal of the button interface 45, and analyzes whether the signal is an on signal or an off signal; The ARM processor 2 is set by pressing a button.

 As shown in FIG. 18, the communication method between the wireless intelligent module system 1 and the smart home central controller 11 includes the following steps: Step 1: The ARM processor 2 detects whether a signal is transmitted or whether a signal is received;

 Step 2: If a signal is sent, the ARM processor 2 determines the type of transmission and passes the wireless WIFI module.

10 is sent to the smart home central controller 11; if receiving a signal, the ARM processor 2 determines the reception type, and triggers the wireless WIFI module 10 to receive data from the smart home central controller 11;

 Step 3: The ARM processor 2 analyzes whether it is a control signal, and if so, sends a control command through the RF wireless control unit 3. The above described specific embodiments of the present invention are described in detail, and are not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claim

1. An intelligent home service system, comprising: a smart home subsystem (a), an intelligent medical subsystem (b), an intelligent monitoring and alarm subsystem (c) managed and controlled by a back-end integrated service system (12), Intelligent Transportation Subsystem (d), Intelligent Logistics Subsystem (e), Intelligent Campus Subsystem (f), Intelligent Wenbo Subsystem (g), Intelligent City Subsystem (h), Intelligent Environmental Protection Subsystem (i) and Smart Commerce Subsystem (j); The aforementioned subsystems are respectively connected with the smart home Internet of things (A), the hospital's internal Internet of things (B), the GPS monitoring Internet of Things (C), the transportation Internet of things (D), the logistics Internet of Things (E), Campus Internet of Things (F), Wenbo Internet of Things (G), Urban Internet of Things (H), Environmental Internet of Things

(1) Connect with the Business Internet of Things (J).

 2. The smart home service system according to claim 1, wherein: the smart home subsystem (a) comprises a wireless intelligent module system (1) and a smart home central controller (11); a wireless intelligent module system ( 1) It is used to collect various information and identify and control the information. It includes various functional subsystems, namely intelligent electrical control subsystem (1-1), wireless security alarm subsystem (1-2), camera monitor. System (1-3), access control subsystem (1-4), telephone alarm subsystem (1-5), USB setup subsystem (1-6), LCD display subsystem (1-7) and button setup subsystem (1-8); The functions of the foregoing functional subsystems are implemented by hardware modules, and the hardware modules include ARM processors.

(2) RF wireless control unit (3), wireless WIFI module (10) and interface unit; ARM processor (2) controls each subsystem through RF wireless control unit (3) and interface unit; wireless intelligent module system (1) Communication with the intelligent home central controller (11) via the wireless WIFI module (10), the intelligent home central controller (11) controls the wireless intelligent module system (1) to execute various commands issued by it, and communicates with the background integrated service system , to achieve functional expansion; intelligent home central controller (11) includes fanless low-power X86 chip, memory, input / output devices, interface circuits and peripheral circuit chips.

 3. The intelligent home service system according to claim 2, wherein: the background integrated service system (12) comprises a media server, an authentication server, a service logic control server, an accounting server, a mail server, and a resource module server. The software switching server, the system monitoring station, the system management station, and the plurality of service application servers; the plurality of service application servers respectively correspond to the foregoing subsystems.

4. The smart home service system according to claim 3, wherein: the hardware module of the wireless intelligent module system (1) of the smart home subsystem (a) further comprises: a telephone remote control module (5), RF a wireless data acquisition control unit (6), a GSM control module (7), an access control module (8), an imaging control module (9), and a power module; the ARM processor (2) includes an ARM embedded chip, SDRAM memory, and a FLASH memory for receiving information and transmitting instructions to control each functional subsystem of the wireless intelligent module system (1) to operate as required; the RF wireless control unit (3) includes an RF wireless security transceiver module and an R radio transceiver module, Controlling security devices and appliances according to instructions of the ARM processor (2); the interface unit includes LCD display ^W 3⁄43⁄4Y!3⁄4ft, _USB interface (42), camera interface (43), access control interface ^{P e} 3⁄4 ⁹ port (45), for connection of each external device to the ARM processor (2); the telephone remote control module (5) for remote control and security alarms in accordance with the instructions of the processor (2), which are included at both ends of the telephone, including a single DTMF signal transceiver with a call processing filter. MT8880, ringing detection circuit, analog pick-up circuit, DTMF audio decoding circuit, voice prompt circuit, central processing unit, control circuit and power supply circuit; signal transceiver MT8880 receives DTMF signal, judged by ringing detection circuit and then processed by central processing unit Controlling the analog hook circuit, the DTMF audio decoding circuit decodes the DTMF signal, and the decoded signal is processed by the central processing unit, and the power circuit provides working power for the module; the RF wireless data acquisition control unit (6) includes but is not limited to Wireless security module (61), wireless smart switch (62), wireless smart socket (63) and wireless infrared converter (64) for security alarm and electrical letter Acquisition, and transmitting the collected information to the ARM processor (2) through the RF wireless control unit (3); the wireless security module (61) includes but is not limited to a magnetic door device (61-1), an infrared sensor (61) -2), smoke sensor (61-3), gas leak sensor (61-4) and human body motion sensor (61-5); said GSM control module (7) is used in accordance with the instructions of the ARM processor (2) Telephone, SMS alarm; the access control module (8) has a built-in QR code identifier for controlling the electronic lock according to the instruction of the ARM processor (2); the camera control module (9) has a built-in camera conversion chip for Local monitoring is implemented in accordance with the instructions of the ARM processor (2).

 5. The smart home service system according to claim 4, characterized in that: the telematics remote control module (5) and the ARM processor (2) of the wireless intelligent module system (1) of the smart home subsystem (a) Communicating, controlling the wireless intelligent switch (62), the wireless smart socket (63) and the wireless infrared converter (64) through the RF radio transceiver module (32) to realize the remote control function of the intelligent electrical control subsystem (11); The wireless security module (61) collects security alarm information, communicates with the ARM processor (2) through the RF wireless security transceiver module, and implements the function of the wireless security alarm subsystem (12) through the telephone remote control module (5); The camera interface (43) is connected to the camera, communicates with the ARM processor (2) through the camera control module (9), and realizes the function of the camera monitoring subsystem (13); the access control interface (44) collects QR code information, Communicate with the ARM processor (2) through the access control module (8) to implement the function of the access control subsystem (14); The program control module (5), the GSM control module (7), the camera control module (9) communicate with the ARM processor (2) to implement the function of the telephone alarm subsystem (15); the external device passes through the USB interface (42) Communicating with the ARM processor (2) to implement the functions of the USB setting subsystem (16); the LCD display communicates with the ARM processor (2) through the LCD display interface (41) to implement the LCD display subsystem (17) The function of the button setting subsystem (18) is realized by the button communicating with the ARM processor (2) through the button interface (45).

6. A working method of an intelligent home service system, characterized in that: the background integrated service system judges an event Peng; 3⁄4 of Wanyun includes the following steps:

 Step 1: System initialization, if it fails, it ends, otherwise it goes to the next step;

 Step 2: Determine if there is time, if there is no event, then go to the next step;

 Step 3: Determine the type of event and enter the corresponding event processing;

 Step 4: The event types include: control event processing, database event processing, and timeout event processing; Step 5: After the event processing is completed, return to step 2 through the limited asynchronous state machine.

 7. The working method of the smart home service system according to claim 6, wherein: the method for the user to log in to each subsystem through the terminal comprises the following steps: Step 1 The user logs in to each subsystem through the terminal;

 Step 2: The system determines whether the terminal is a system-free authentication terminal, and if yes, proceeds to step 10, if not, proceeds to the next step.

 Step 3 Enter an account number;

 Step 4 Enter the password;

 Step 5: Determine whether the account is valid and the password is correct. If the account password is correct, go to step 10. If the password is incorrect, go to step 8. If the account is not valid, go to the next step.

 Step 6: Determine whether the number of invalid entries is three times. If it reaches three times, go to step 16. If it does not reach three times, go to the next step.

 Step 7: Prompt "The account does not exist, please re-enter" and return to step three;

 Step 8: Determine whether the number of times the password is entered incorrectly reaches three times. If it reaches three times, it goes to step sixteen. If it does not reach three times, it goes to the next step;

 Step 9: Prompt "The password is incorrect, please re-enter" and return to step four;

 Step 10: Determine the account status. If the account has been logged in, prompt "Your account has been logged in", and then go to step 16. If the account uses different IP login, it will prompt "Your IP address is incorrect, please contact the service center" , then go to step sixteen, if the account status is normal, go to the next step;

 Step 11: Determine the login type. If the E-Smart administrator logs in, enter the E-Smart administrator process. If it is an ordinary user, go to the next step.

 Step 12 Start landing;

 Step 13: Determine whether the login is successful. If it fails, proceed to step 16. If successful, proceed to the next step; Step 14: Database registration;

 Step 15 Enter the general user management process;

 Step 16 Close the login;

8. The method of operating a smart home service system according to claim 7, wherein said E-Smart O 2011/153663 _J3⁄4i „, , PCT/CN2010/000859 The method of losing the official burial includes the following steps:

 Step 1: The E-SMART administrator account is logged in;

 Step 2: Determine the account privilege status. If it is not enabled or has no privilege, it will prompt "This account privilege is lower, please check and log in", and jump to step IX. If you are not ok, go to the next step;

 Step 3: Query the blacklist to determine whether the account can be accessed. If it is not accessible, go to step 9. If it can be accessed, go to the next step.

 Step 4: Enter the administrator management system;

 Step 5: User information management;

 Step 6: Store the data;

 Step 7: Determine whether the storage is successful. If it is not successful, return to step 6. If successful, go to the next step. Step 8: Determine whether the user needs to log out. If not, return to step 5. If you exit, go to the next step. Nine: withdraw;

 The method for logging in the E-Smart common account includes the following steps:

 Step 1: E- SMART common account login;

 Step 2: Determine the account privilege status. If it is not enabled or has no privilege, it will prompt "This account has lower privilege, please log in after logging in" and go to step IX. If it is normal, go to the next step;

 Step 3: Query the blacklist to determine whether the account can be accessed. If it is not accessible, go to step 9. If it can be accessed, go to the next step.

 Step 4: Enter the general user management system;

 Step 5: Determine the user management data type. If the user uploads the data, the process proceeds to step 8. If the user reads the number, the process proceeds to step 10. If the user stores the data, the process proceeds to the next step;

 Step 6: Store the data;

 Step 7: Determine whether the storage is successful. If not, return to step 6. If successful, proceed to step 12; Step 8: Upload data;

 Step 9: Determine whether the upload is successful. If it is not successful, return to step 8. If successful, proceed to step 12; Step 10: Read the data;

 Step 11: Determine whether the reading is successful. If it is not successful, return to step 10. If it is successful, go to the next step. Step 12: Determine whether the user needs to log out. If not, return to step 5. If you exit, go to the next step. Step 13: Exit.

9. The working method of the smart home service system according to claim 8, wherein: the wireless intelligent module system (1) of the wireless intelligent module system (1) of the smart home subsystem (a) and the smart home center The communication method between the controllers (11) includes the following steps: Step 1: The ARM processor (2) detects whether to send a signal or whether to receive a signal;

 Step 2: If a signal is sent, the ARM processor (2) determines the transmission type and sends it to the smart home central controller (11) through the wireless WIFI module (10); if the signal is received, the ARM processor (2) determines the reception. Type, trigger wireless WIFI module (10) Receive data from smart home central controller (11); Step 3: ARM processor (2) analyzes whether it is a control signal, and if so, sends it through RF wireless control unit (3) Control instruction.

 10. The working method of the smart home service system according to claim 9, characterized in that: remote control of the intelligent electrical control subsystem (11) of the wireless intelligent module system (1) of the smart home subsystem (a) The method includes the following steps:

 Step 1: Telephone remote control module (5) initialization;

 Step 2: The user dials the telephone number of the external line connected to the remote control module (.5) through the remote telephone, and sends a ringing signal to the telephone;

 Step 3: The central processing unit records the number of times the software is started, and judges the number of rings; if the ringing is unanswered six times, the analog pick-up circuit is controlled to perform off-hook; if the ringing is not answered six times, Then return to the step 1 initialization state;

 Step 4: After the analog off-hook, the voice prompt circuit prompts the user to input a password, and the central processing unit determines whether the password is correct; if the password is correct, the voice prompt circuit prompts the user to control the electrical appliance, and the user selects the controlled electrical appliance and opens If the password is incorrect, the central processing unit records the number of times the software is started. If it is not more than three times, the voice prompts to re-enter the password. If the number of software startups exceeds three times, the central processing unit controls the analog hook-up circuit to hang up. , the remote control ends;

 Step 5: The user waits for the ARM processor (2) to control the wireless intelligent switch (62), the wireless smart socket (63) and the wireless infrared converter (64) through the RF radio transceiver module (32) to perform the controlled electrical device selected by the user. On/off operation;

 Step 6: If the voice prompt has completed the on/off operation, the central processing unit determines whether the user presses the "#,, key, if the button is pressed, the central processing unit controls the analog hook circuit to hang up, and the remote control ends; If not pressed, the 45 second timer is started. If the 45 second time is up, the central processing unit controls the analog hook circuit to hang up, and the remote control ends; if the 45 second time has not expired, it is judged again whether the user presses "#" Key, until the "#" key is pressed or 45 seconds is reached, the remote control is ended;

 The alarm data collection and processing method of the wireless security alarm subsystem (12) and the telephone alarm subsystem (15) of the wireless intelligent module system (1) of the smart home subsystem (a) includes the following steps:

Step 1: The RF wireless security transceiver module (31) receives the RF signal of the wireless security module (61) and transmits it to the ARM processor (2); ^Step 2: The ARM processor (2) analyzes the RF signal, and judges that it is for the report 1 § loss; Step 3: If it is an alarm signal, analyze the alarm, generate sound and light, SMS or according to the type of alarm Telephone alarm signal, and the alarm signal is forwarded to the telephone alarm subsystem (15), and the foregoing alarm signal is sent to the intelligent home central controller (11) for storage;

 Step 4: The GSM control module (7) of the telephone alarm subsystem (15) reads the alarm number when detecting the telephone alarm signal, and then performs the telephone and short message alarm; the wireless intelligent module of the smart home subsystem (a) The data acquisition and processing method of the camera monitoring subsystem of the system (1) comprises the following steps: The camera control module (9) converts the captured analog signal into a digital picture signal, and the ARM processor (2) determines whether an alarm is required, if The alarm signal, the alarm number is read by the GSM control module (7), and the picture is sent out, and the ARM processor (2) analyzes the data type, and sends the aforementioned alarm signal to the intelligent home central controller (11) for storage. ;

 The data acquisition and processing method of the access control subsystem (14) comprises the following steps: the access control module (8) detects whether there is an access control signal; if there is an access control signal, the ARM processor (2) determines whether to open the door signal or close the door signal, according to The judgment result respectively sends a door opening signal and a door closing signal to control the access control;

 The data collection and processing method of the USB setting subsystem (16) comprises the following steps: an ARM processor (2) detects a signal of the USB interface (42), and analyzes whether the signal is a turn-on signal or a turn-off signal; Pass the signal, then set the ARM processor (2) through the connected device;

 The data collection and processing method of the button setting subsystem (18) comprises the following steps: the ARM processor (2) detects the signal of the button interface (45), and analyzes whether the signal is a turn-on signal or a turn-off signal; When the signal is passed, the ARM processor (2) is set by pressing the button.