CN111145527A - Processing method and system for integrating traditional equipment into intelligent scene - Google Patents

Abstract

The invention discloses a processing method and a system for integrating traditional equipment into an intelligent scene, wherein the method comprises the following steps: setting and storing corresponding code library information at a server side; scanning and determining the adapted infrared band before the user connects the device; a virtual interface arranged in the client controls the equipment; and identifying the equipment through a virtual interface of the client, and accessing the Internet of things. The processing method and the system for integrating the traditional equipment into the intelligent scene adopt the identification and coding processing aiming at the infrared remote control function, so that the traditional equipment can be integrated into the intelligent scene, and various kinds of equipment can be remotely controlled and used only by one virtual infrared remote control, thereby reducing the trouble of remote control use.

Description

Processing method and system for integrating traditional equipment into intelligent scene

Technical Field

The invention relates to a processing method and a processing system for intelligent equipment of the Internet of things, in particular to an improvement of the processing method and the processing system for accessing traditional infrared equipment to an intelligent scene.

Background

The technology of internet of things (aiot) (intelligent awareness of things) in the prior art is continuously developing, and with the updating and marketing of various intelligent internet of things devices, the operation mode of the society is gradually changed in the whole enterprise management and production efficiency and the life of people. Various internet of things intelligent devices are in the endlessly.

However, at present, all smart devices with chips and capable of accessing the internet of things are produced in recent years, and the mode generally includes automatic identification of objects and interconnection and sharing of information by using technologies such as RFID (radio frequency identification), wireless data communication and the like on the basis of the internet. But hardly plays any role in conventional devices, which mostly do not have a critical hardware environment. The traditional equipment is generally internally provided with an infrared control system, but the access problem of the traditional equipment is generally not considered in the existing internet of things communication technology.

With the increasing electronic products in each user's home, more and more remote controllers matched with the user are owned by the user, different remote controllers correspond to different devices, each remote controller and device have a set of independent codes, and if the remote controllers and the devices are not matched, the control is invalid. In daily life, a user can easily take the remote controller by mistake, so that the operation cannot be performed.

Therefore, the prior art has defects and needs to be improved and developed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a processing method and a system for integrating traditional equipment into an intelligent scene, corresponding instruction matching and instruction execution are carried out according to the characteristic that the traditional equipment in the prior art can identify and receive infrared signals, the realized keys on a virtual interface are mapped into the keys of an infrared remote controller in a mode of accessing the infrared signals, the signals are sent out through an infrared module after the virtual keys are pressed down and the instruction codes are carried out, so that the traditional equipment receives the signals and then executes the corresponding instructions through decoding, and the remote control function is achieved.

The technical scheme of the invention is as follows:

a processing method for blending a traditional device into an intelligent scene comprises the following steps:

A. setting and storing corresponding code library information at a server side;

B. scanning and determining the adapted infrared band before the user connects the device;

C. a virtual interface arranged in the client controls the equipment;

D. and identifying the equipment through a virtual interface of the client, and accessing the Internet of things.

The processing method, wherein the step a further includes:

and A1, manually inputting and uploading code library information to the server.

The processing method, wherein the step B further includes:

and B1, manually searching and determining the corresponding infrared coding scheme in the code library information of the server according to the equipment information by the user in the client.

The processing method, wherein the step a further includes:

a2, the client terminal downloads the code library information from the server and updates the code library information at each login.

The processing method comprises the step that the client downloads the code library information from the server through an HTTP request.

The processing method, wherein the step B further includes:

b2, the client provides a series of codes of fuzzy matching, and the corresponding coding scheme is confirmed by user experiments.

The processing method described above, wherein the step D further includes:

d1, triggering an infrared instruction by the client, and forming a string of pulse codes through the virtual interface;

d2, the pulse code is pulse modulated to form a remote control signal, and the remote control signal is transmitted by the infrared transmitter.

The processing method described above, wherein the step D further includes:

d3, an infrared receiver module is arranged in the equipment, and the infrared receiver module demodulates the remote control signal to form a serial binary code;

d4, decoding the binary code and inputting the decoded binary code into the CPU as an executable control instruction.

A system for implementing any of the processing methods, comprising:

the server is used for storing corresponding code library information;

the user client is used for connecting the server through a network, downloading corresponding code library information and connecting a hardware module with an infrared transmitter in a communication way;

the device is internally provided with an infrared receiving module;

and the user client is provided with a virtual interface which is used for scanning and matching the infrared receiving module of the equipment, identifying the equipment through the virtual interface and accessing the Internet of things.

According to the system, the code library information of the server is manually searched and the corresponding infrared coding scheme is determined.

According to the processing method and the system for integrating the traditional equipment into the intelligent scene, the traditional equipment can be integrated into the intelligent scene due to the adoption of the identification and coding processing aiming at the infrared remote control function, and various kinds of equipment can be remotely controlled and used only by one virtual infrared remote control, so that the trouble of remote control use is reduced.

Drawings

Fig. 1 is a schematic diagram of an infrared control principle of a processing method and a system for integrating a conventional device into an intelligent scene in an internet of things system according to a preferred embodiment of the present invention.

Fig. 2 is a schematic flow chart of the processing method and system for integrating the conventional device into the intelligent scene according to the preferred embodiment of the present invention, which is accessed to the internet of things system.

Detailed Description

The following describes in detail preferred embodiments of the present invention.

In the preferred embodiment of the processing method and the system for integrating the traditional equipment into the intelligent scene, the technical problem to be solved is how to integrate the traditional equipment into the intelligent scene, and the traditional equipment is usually internally provided with an infrared receiver module, and an infrared band is matched through an infrared emission module of hardware to form the function of automatically identifying the identity of the equipment, so that the system has the function of accessing the Internet of things.

Firstly, corresponding code library information needs to be preset and stored at a server side, the latest and most complete code library information is obtained from the server side, a user needs to scan equipment in the current environment before accessing traditional equipment, and adaptation infrared bands need to be carried out after the equipment is scanned.

As shown in fig. 1, the processing method for integrating the conventional device into the intelligent scene is arranged between an APP of a client and a server, and firstly, corresponding code library information is stored in the server, a user scans and determines the adapted infrared band and infrared mode before accessing and controlling the device, and the device is controlled on a virtual interface of the client, and after determining to match and control the device, the device is identified and controlled through the virtual interface of the client, and the internet of things is accessed.

Referring to fig. 1, which is a schematic diagram of infrared control in an AIOT system, the present invention requires a hardware device having an infrared transmitter, and when an infrared command is triggered, a series of pulse codes are first formed, and then a remote control signal is formed by pulse modulation and transmitted through an infrared transmitting tube. The hardware device usually employs a universal remote controller or a mobile terminal with an infrared transmitter, and has a corresponding display function for displaying the process and result of the processing, and the like.

An infrared receiver module is generally arranged in the traditional equipment, the infrared receiver receives modulated remote control signals, serial binary codes are formed after demodulation, the binary codes contain infrared emission information of a remote controller, and finally the infrared emission information can be changed into instructions which can be identified by a cpu through decoding operation, so that the infrared signals emitted by an emitting end can be accurately executed.

In a preferred embodiment of the present invention, the step a further includes an input process of the code library information of the server, which may be manually input and uploaded to form updated code library information. And when the user searches the corresponding infrared coding scheme in the code library information of the server according to the equipment information in the client, the user can also manually search and determine the corresponding scheme.

The client of the invention can also download the code library information from the server and update the code library information from the server at each login. Preferably, the client may request downloading of the code library information in an HTTP manner.

As shown in fig. 2, a flowchart of the AIOT system accessing to a conventional intelligent device is shown, specifically, the client software integrates a collection of coding libraries of various manufacturers, and when a background server has an updated coding library, the local coding library information collection is updated, which is to constantly maintain the maximum coding compatibility.

When a user accesses the device for the first time, the device in the environment needs to be scanned, namely the device is generally called 'found', if the infrared device is scanned, the infrared band matching is automatically carried out, and if the device is not found, the process is finished. The matching process is that the client matches the corresponding infrared codes and the corresponding coding modes in all the information according to the equipment information in the current environment. If the infrared code is matched according to the specific machine model, the user can be guided to do a group of test actions, and the matched infrared code mode is selected accurately. This step enhances the accuracy of the screening encoding.

If the automatic distribution network is successful, a user can easily control the traditional equipment, if the automatic distribution network fails, the software of the invention can perform the action of a manual distribution network, automatically screen out three closest codes from the code library, then select a matched infrared code mode by sending a group of simulated infrared signals by the user and the forward feedback of the user, and judge whether the infrared signals of the equipment are matched or not by testing the response of the equipment, thereby realizing the control of the traditional equipment in a mode of combining manual operation and automatic operation.

As shown in fig. 2, in the preferred embodiment of the processing method for blending the conventional device into the intelligent scene, after the program starts, the coding library is obtained from the server segment, and the local library is updated; then judging whether the equipment is found, if not, ending the program; if the network distribution is successful, the infrared control matching is successful, if the automatic network distribution is unsuccessful, the manual network distribution is started, if the manual network distribution is successful, the infrared matching with the equipment is also started, and if the manual network distribution is unsuccessful, the server side is returned to update the code library.

The invention also discloses a processing system for realizing the integration of the traditional equipment into the intelligent scene, which comprises a server end and a server end, wherein the server end is used for storing corresponding code library information; the user client is used for connecting the server through a network, downloading corresponding code library information and connecting a hardware module with an infrared transmitter in a communication way; the device is internally provided with an infrared receiving module; the user client is provided with a virtual interface, namely an operating software program, which is used for scanning and matching the infrared receiving module of the equipment, and the infrared mode of the equipment can be identified through the virtual interface, so that the equipment can be used as an infrared controllable terminal, is displayed on the virtual interface and is accessed to an intelligent network, such as the Internet of things.

According to the processing method and the system for integrating the traditional equipment into the intelligent scene, disclosed by the invention, the infrared mode of the equipment can be controlled to be matched, and a virtual interface convenient for intelligent connection can be formed after matching, so that the Internet of things is accessed, the corresponding equipment is virtually remotely controlled, and the connection and management of the Internet of things on the traditional equipment are facilitated.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. A processing method for blending a traditional device into an intelligent scene comprises the following steps:

A. setting and storing corresponding code library information at a server side;

B. scanning and determining the adapted infrared band before the user connects the device;

C. a virtual interface arranged in the client controls the equipment;

D. and identifying the equipment through a virtual interface of the client, and accessing the Internet of things.

2. The process of claim 1, wherein step a further comprises:

and A1, manually inputting and uploading code library information to the server.

3. The processing method according to claim 2, wherein the step B further comprises:

and B1, manually searching and determining the corresponding infrared coding scheme in the code library information of the server according to the equipment information by the user in the client.

4. The process of claim 3, wherein step A further comprises:

a2, the client terminal downloads the code library information from the server and updates the code library information at each login.

5. The process of claim 4, wherein the client downloads the code library information from the server via an HTTP request.

6. The processing method according to claim 4, wherein the step B further comprises:

b2, the client provides a series of codes of fuzzy matching, and the corresponding coding scheme is confirmed by user experiments.

7. The process of claim 6, wherein said step D further comprises:

d1, triggering an infrared instruction by the client, and forming a string of pulse codes through the virtual interface;

d2, the pulse code is pulse modulated to form a remote control signal, and the remote control signal is transmitted by the infrared transmitter.

8. The process of claim 7, wherein said step D further comprises:

d3, an infrared receiver module is arranged in the equipment, and the infrared receiver module demodulates the remote control signal to form a serial binary code;

d4, decoding the binary code and inputting the decoded binary code into the CPU as an executable control instruction.

9. A system for implementing the processing method of any one of claims 1 to 8, comprising:

the server is used for storing corresponding code library information;

the user client is used for connecting the server through a network, downloading corresponding code library information and connecting a hardware module with an infrared transmitter in a communication way;

the device is internally provided with an infrared receiving module;

and the user client is provided with a virtual interface which is used for scanning and matching the infrared receiving module of the equipment, identifying the equipment through the virtual interface and accessing the Internet of things.

10. The system of claim 9, wherein the code library information of the server is manually searched and determined for the corresponding infrared encoding scheme.

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