CN106557167B - Intelligent glasses and method, system and controller for controlling equipment of intelligent glasses - Google Patents

Abstract

A method, a system and a controller for intelligent glasses and a device control method thereof are provided, wherein the method for the intelligent glasses to control the device comprises the following steps: acquiring identification information of equipment to be controlled watched by a user; calling a control instruction corresponding to the identification information; and sending the called control instruction to the equipment to be controlled according to the identification information of the equipment to be controlled, so that the equipment to be controlled executes corresponding operation after receiving the control instruction. By adopting the scheme, the convenience of equipment control can be improved.

Description

Intelligent glasses and method, system and controller for controlling equipment of intelligent glasses

Technical Field

The invention relates to the technical field of communication, in particular to intelligent glasses, a method and a system for controlling equipment of the intelligent glasses, and a controller.

Background

In daily life, people may touch various devices, and in order to manage and control the devices, some devices are generally equipped with corresponding control devices. For example, a car is equipped with a car key by which the starting and locking of the car can be controlled, the car is started by the equipped car key when in use, and the car can be locked when not in use. As another example, a door lock is equipped with a corresponding key to unlock or lock the door as desired. For some home appliances, it is generally necessary to configure a corresponding remote controller to control the home appliance.

In the control process of the existing equipment, the control device and the corresponding equipment are usually required to be operated manually to realize the control of the corresponding equipment, and the control process is complicated.

Disclosure of Invention

The invention solves the technical problem of how to conveniently control equipment.

In order to solve the above technical problem, an embodiment of the present invention provides a method for controlling a device through smart glasses, including: acquiring identification information of equipment to be controlled watched by a user; calling a control instruction corresponding to the identification information; and sending the called control instruction to the equipment to be controlled according to the identification information of the equipment to be controlled, so that the equipment to be controlled executes corresponding operation after receiving the control instruction.

Optionally, the obtaining identification information of the device to be controlled gazed by the user includes: when the fact that the duration of the eyes of the user watching a certain direction exceeds a preset duration is detected, calculating the visual angle of the user; acquiring an image of the equipment to be controlled corresponding to the visual angle of the user; and acquiring the identification information from the image of the equipment to be controlled.

Optionally, the invoking a control instruction corresponding to the identification information includes: comparing the identification information with information stored in a local database; and when the identification information is stored in the local database, calling a control instruction corresponding to the identification information from the local database.

Optionally, the invoking a control instruction corresponding to the identification information includes: sending the identification information to a cloud server, so that the cloud server inquires whether the identification information is stored after receiving the identification information, and feeds back a control instruction corresponding to the identification information when the identification information is stored; and receiving a control instruction corresponding to the identification information fed back by the cloud server.

Optionally, before sending the called control instruction to the device to be controlled, the method further includes: collecting control authority identification information of the user on the equipment to be controlled; and when the control authority identification information of the user on the equipment to be controlled is the same as the stored control authority identification information of the equipment to be controlled, the called control instruction is sent to the equipment to be controlled.

Optionally, the control authority identification information of the device to be controlled includes at least one of: biometric information, gesture information, and voice command information.

Optionally, the device to be controlled is a vehicle.

Optionally, after receiving the control instruction, the device to be controlled performs a corresponding operation, including: the vehicle receives the control instruction through a whole vehicle diagnosis interface; and the vehicle forwards the control instruction to the corresponding controller, so that the controller controls the corresponding equipment to execute corresponding operation according to the corresponding control instruction.

An embodiment of the present invention further provides a controller for smart glasses, including: the device comprises an acquisition unit, a control unit and a control unit, wherein the acquisition unit is suitable for acquiring identification information of a device to be controlled watched by a user; the calling unit is suitable for calling a control instruction corresponding to the identification information; and the sending unit is suitable for sending the called control instruction to the equipment to be controlled according to the identification information of the equipment to be controlled, so that the equipment to be controlled executes corresponding operation after receiving the control instruction.

An embodiment of the present invention further provides a system for controlling devices of smart glasses, including: intelligent glasses and treat controlgear, wherein: the intelligent glasses are suitable for acquiring identification information of equipment to be controlled watched by a user, calling a control instruction corresponding to the identification information, and sending the called control instruction to the equipment to be controlled according to the identification information of the equipment to be controlled; and the equipment to be controlled is suitable for executing corresponding operation after receiving the control instruction.

Optionally, the system of the smart glasses control device further includes: a cloud server; the intelligent glasses are further suitable for sending the identification information to the cloud server; the cloud server is suitable for inquiring whether the identification information is stored or not after receiving the identification information, and feeding back a control instruction corresponding to the identification information to the intelligent glasses when the identification information is stored.

Optionally, the smart glasses are further adapted to collect control authority identification information of the user on the device to be controlled, and when the control authority identification information of the user on the device to be controlled is the same as the stored control authority identification information of the device to be controlled, send the retrieved control instruction to the device to be controlled.

An embodiment of the present invention further provides an intelligent glasses, including: intelligence glasses body, controller, inboard camera and outside camera, wherein: the inner side camera is arranged on the intelligent glasses body, is coupled with the controller and is suitable for detecting the watching direction of the eyes of the user; the outer side camera is arranged on the intelligent glasses body, is coupled with the controller, is suitable for starting to work after receiving a control signal, and collects images of the equipment to be controlled corresponding to the visual angle of the user according to the control signal; the controller is suitable for and works as the inboard camera detects the length of time of the same direction of gazing of user's eyes exceeds preset length of time, calculates user's visual angle, and generate control signal send to the outside camera acquires the image that the outside camera was gathered, draws the corresponding identification information of treating controlgear in the image that acquires, transfer with the control command that identification information corresponds, and according to treat controlgear's identification information, will the control command who transfers sends to corresponding treating controlgear, makes treat that controlgear receives behind the control command, carry out corresponding operation.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

when adopting intelligent glasses to control equipment, the user only need treat controlgear and watch, can watch according to the user and wait controlgear's that the user gazed identification information, automatic transfer with the control command that identification information corresponds, and according to wait controlgear's identification information, will control command sends to waiting controlgear, makes wait controlgear and receive behind the control command, carry out the operation that corresponds, owing to need not carry out manual operation by the user, can acquire controlgear's identification information to automatic control waits that controlgear carries out corresponding operation, thereby can improve the convenience to equipment control.

Furthermore, the control authority identification information of the user on the device to be controlled is acquired, and the called control instruction is sent to the device to be controlled when the control authority identification information of the user on the device to be controlled is the same as the stored control authority identification information of the device to be controlled, so that the safety of the device to be controlled can be guaranteed.

Drawings

Fig. 1 is a flowchart of a method of controlling a device by smart glasses according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a controller of smart glasses according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a system of a smart glasses control device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a pair of smart glasses according to an embodiment of the present invention.

Detailed Description

In the control process of the existing equipment, the control device and the corresponding equipment are usually required to be operated manually to realize the control of the corresponding equipment, and the control process is complicated.

In the embodiment of the invention, when the intelligent glasses are used for controlling the equipment, a user only needs to watch the equipment to be controlled, namely, a control instruction corresponding to the identification information can be automatically retrieved according to the identification information of the equipment to be controlled watched by the user, and the control instruction is sent to the equipment to be controlled according to the identification information of the equipment to be controlled, so that the equipment to be controlled executes corresponding operation after receiving the control instruction.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, a flowchart of a method for controlling a device according to an embodiment of the present invention is shown, and the following detailed description is provided through specific steps.

In a specific implementation, an inside camera, an outside camera and a controller may be disposed in the smart glasses. In one embodiment of the invention, the inner side camera is arranged on the right side support of the intelligent glasses body, the lens faces to the eyes of the user, and the movement of the eyes of the user can be tracked in real time during working. The outside camera can set up on the right side support of intelligent glasses body, and the camera lens can gather external image in real time towards the external world during operation. The controller can receive the images collected by the inner side camera and the outer side camera and can control the inner side camera and the outer side camera.

In a specific implementation, the inner camera may also be disposed on the left side of the smart glasses, and the outer camera may also be disposed on the left side of the smart glasses. The inner side camera and the outer side camera can be arranged on the brackets on the two sides respectively. For example, the inner camera is disposed on a left side of the smart glasses and the outer camera is disposed on a right side of the smart glasses.

And step S11, acquiring the identification information of the device to be controlled watched by the user.

In specific implementation, before identification information of a device to be controlled watched by a user is acquired, the user can start a control function of the intelligent glasses on the device, and the intelligent glasses can automatically start the control function of the intelligent glasses on the device according to image information conditions collected by the outer side camera.

In specific implementation, a user may open the control function of the smart glasses on the device in various ways, and the following description is provided for the way of opening the control function of the smart glasses on the device:

in an embodiment of the invention, a user can start the control function of the intelligent glasses on the equipment in a voice mode. For example, the user turns on the control function of the smart glasses on the device through voice "device control".

In another embodiment of the invention, the user can start the control function of the smart glasses on the device through a preset action. For example, by drawing a gesture action of "8", the control function of the smart glasses to the device is started; for another example, through continuous blinking actions, blinking is performed twice within a preset time, and the control function of the intelligent glasses on the equipment is started.

In the specific implementation, there are various ways to acquire the identification information of the device to be controlled that the user gazes at, and the following describes in detail the way to acquire the identification information of the device to be controlled that the user gazes at.

In a specific implementation, the following method may be adopted to obtain the identification information of the device to be controlled, which is watched by the user: when the fact that the duration that the eyes of the user watch on a certain direction exceeds the preset duration is detected, the visual angle of the user is calculated, the image of the device to be controlled corresponding to the visual angle of the user is obtained, and the identification information is obtained from the image of the device to be controlled. The identification information of the device to be controlled watched by the user can be acquired in a control instruction mode.

In an embodiment of the present invention, the inner camera of the smart glasses tracks the movement of the eyes of the user in real time, captures the movement information of the eyes of the user, and may send the captured movement information of the eyes of the user to the controller.

After the controller receives the movement information of the eyes of the user, which is sent by the inner side camera, the gazing direction of the eyes of the user can be obtained according to the received movement information of the eyes of the user. And when the fact that the duration that the eyes of the user watch the same direction exceeds the preset duration is detected, calculating the visual angle of the user.

In practical application, the preset time duration may be 1 second, may also be 2 seconds, and may also be other set values. The user can set the preset duration according to the self requirement and the actual application scene, and the specific numerical value of the preset duration is not limited.

The human eye is approximately spherical and is located within the orbit. The eyeball comprises tissues such as the wall of the eyeball, the inner cavity and the content of the eye, nerves, blood vessels and the like. The eyeball wall is mainly divided into an outer layer, a middle layer and an inner layer. The outer layer of the eye wall is composed of the cornea and sclera. The anterior 1/6 layer of the eye wall is the clear cornea, commonly known as the "eyeball", and the remaining 5/6 is the white sclera, commonly known as the "white eye".

In practical application, an eye movement information acquisition sensor can be arranged in the intelligent glasses, the eye parameters of the user are acquired through the preset eye movement information acquisition sensor, and the acquired eye parameters of the user are sent to the controller. In an embodiment of the present invention, the eye parameters of the user may include: the center position of the pupil, the upper/lower white length, and the left/right white length.

The controller can acquire the eye parameters of the user sent by the sensor according to the eye movement information: the center position of the pupil, the length of the upper white eye and the length of the left white eye are combined with the pre-stored corresponding eye parameters when the user is looking straight, and the visual angle of the user is calculated. The controller can also calculate the visual angle of the user according to the center position of the pupil, the length of the upper white of the eye and the length of the right white of the eye, and by combining the pre-stored corresponding eye parameters when the user is looking straight. The controller can also calculate the visual angle of the user according to the center position of the pupil, the upper white length, the lower white length, the left white length and the right white length, and by combining the pre-stored corresponding eye parameters when the user is looking at the eye. It should be noted that the controller may calculate the viewing angle of the user according to the position of the pupil center, at least one of the upper white length and the lower white length, and at least one of the left white and the right white.

After the visual angle of the user is obtained through calculation, the controller in the intelligent glasses can control the outer side camera to start working, and the viewing direction of the outer side camera is controlled to be the direction corresponding to the visual angle of the user.

After the controller acquires the visual angle of the user, a control signal for controlling the outer camera to start working can be generated and sent to the outer camera. And the outer camera starts working after receiving the control signal, collects the image of the equipment to be controlled in the direction corresponding to the visual angle of the user, and sends the collected image to the controller. And the controller acquires the identification information of the equipment to be controlled watched by the user from the received image.

In another embodiment of the invention, the user acquires the identification information of the device to be controlled, which is watched by the user, by means of the control instruction. For example, a user sends a voice command for controlling the outer camera to shoot an image, and after the controller receives the voice control command, the outer camera is controlled to shoot the image of the equipment watched by the user and sent to the controller. And after receiving the image sent by the outer camera, the controller identifies the image and acquires the identification information of the equipment to be controlled.

For example, if a user wants to turn on an in-vehicle music player, the user may look at identification information corresponding to the in-vehicle music player

When the watching time length reaches 2s, the controller starts the outer camera, and the outer camera shoots the image of the watching direction of the user and sends the image to the controller. After receiving the image shot by the outer camera, the controller acquires the identification information corresponding to the vehicle-mounted music player from the image

In specific implementation, the identification information corresponding to the device to be controlled may be set by a user, or some identification information may be provided by a manufacturer of the smart glasses when the manufacturer leaves a factory, and the identification information is associated with the device to be controlled by the user at a later stage. The identification information can be two-dimensional codes, bar codes, images of the equipment to be controlled, some self-defined images or characters and the like, and only needs to be in one-to-one correspondence with the equipment to be controlled.

For example, an image of a license plate is used as identification information for opening a door, and an image of a key shape is used as identification information for starting a vehicle.

For another example, some specific textures are set on the surface of the device to be controlled, and these textures are used as corresponding identification information.

In step S12, a control command corresponding to the identification information is retrieved.

In specific implementation, the control instruction corresponding to each identification information may be pre-stored in a local database of the smart glasses, or the control instruction corresponding to each identification information may be pre-stored in a cloud server associated with the smart glasses. The control instruction corresponding to each identification information can be set by the user as required, or the identification information and the corresponding control instruction can be set by the manufacturer through big data analysis according to the conventional use habit of the user obtained through analysis. The user can directly use the set control instruction in the intelligent glasses, can modify the control instruction according to the requirement and can set the control instruction by himself.

After the identification information of the device to be controlled is acquired, a corresponding control instruction can be called according to the identification information.

In a specific implementation, the acquired identification information may be compared with identification information stored in a local database, and when the identification information is stored in the local database, a control instruction corresponding to the identification information is called from the local database.

For example, identification information stored in a local database

The corresponding control instruction is "turn on the in-vehicle music player". When the identification information acquired by the intelligent glasses is

And if so, calling the control instruction from the local database to turn on the vehicle-mounted music player.

As another example, identification information stored in a local database

The corresponding control command is "turn on air conditioner". When the identification information acquired by the intelligent glasses is

And if so, calling the control instruction from the local database to turn on the air conditioner.

In specific implementation, the acquired identification information may be sent to a cloud server. And after receiving the identification information, the cloud server inquires whether the identification information is stored, and feeds back a control instruction corresponding to the identification information when the identification information is stored.

And step S13, sending the called control instruction to the equipment to be controlled according to the identification information of the equipment to be controlled.

In a specific implementation, after the control instruction corresponding to the identification information is acquired, the retrieved control instruction may be sent to the device to be controlled according to the identification information of the device to be controlled. And after the equipment to be controlled receives the control instruction, executing corresponding operation.

In an embodiment of the present invention, the device to be controlled is a vehicle. The vehicle receives the control instruction through the whole vehicle diagnosis interface, and forwards the received control instruction to the corresponding controller, so that the controller controls the corresponding equipment to execute corresponding operation according to the corresponding control instruction.

For example, when the smart glasses are associated with a vehicle, a control instruction may be sent to the vehicle, which receives the control instruction through a full vehicle diagnostic interface. And after receiving the control instruction, a master controller in the vehicle analyzes the control instruction and forwards the control instruction to a corresponding controller according to an analysis result. And after the controller corresponding to the control instruction receives the control instruction, the corresponding equipment can be controlled to execute corresponding operation.

In concrete implementation, can be equipped with bluetooth communication unit on intelligent glasses and the vehicle respectively, intelligent glasses can the bluetooth with the vehicle pair be connected to communicate. When the intelligent glasses and the vehicle are respectively accessed to the communication network, point-to-point communication is carried out. The smart glasses and the vehicle may also be associated and communicate in other ways.

In another embodiment of the present invention, the device to be controlled is an intelligent door lock, and the identification information may be a two-dimensional code, an image of the intelligent door lock, or other information such as a symbol and an image that have a unique property and can identify the intelligent door lock. When the identification information is the image of the intelligent door lock, specific lines can be arranged on the intelligent door lock for distinguishing from other door locks. The intelligent glasses can send the acquired door lock opening control instruction corresponding to the identification information of the intelligent door lock to the controller in the intelligent door lock, and the controller in the intelligent door lock receives the door lock opening control instruction and then can open the intelligent door lock.

In another embodiment of the present invention, the device to be controlled is a television, the smart television may be provided with startup identification information, shutdown identification information, identification information of a common channel, and the like, and after the smart glasses acquire a certain identification information related to the television, the smart glasses may call a corresponding control instruction according to the acquired identification information, and send the called control instruction to the television controller. And after the television controller receives the control instruction, the television can be controlled to execute corresponding operation.

For example, when a user needs to turn on a television, the smart glasses worn by the user can obtain the startup identification information by watching the startup identification information, then call a corresponding startup instruction from the local database or the cloud server according to the startup identification information, and send the startup instruction to the television controller, and when the television controller receives the startup instruction, the television can be turned on.

In a specific implementation, the device to be controlled may be a device having communication with other devices. For example, intelligent household appliances, intelligent security equipment, automobiles, and the like. Wherein intelligent domestic appliance can include: intelligent air conditioner, intelligent (window) curtain, intelligent refrigerator etc..

By last, when adopting intelligent glasses to control equipment, the user only need treat controlgear and watch, can according to the user watch treat controlgear's that the user gazed identification information, automatic transfer with the control command that identification information corresponds, and according treat controlgear's identification information, will control command sends to treating controlgear, makes treat controlgear and receive behind the control command, carry out the operation that corresponds, owing to need not the user carries out manual operation, can acquire after treating controlgear's identification information to automatic control treats controlgear and carries out corresponding operation, thereby can improve the convenience to equipment control.

In addition, the identification information corresponding to the multiple devices and the control instruction corresponding to the multiple identification information can be stored in the intelligent glasses, so that the multiple devices can be controlled by one intelligent glasses respectively without using control devices corresponding to the devices one to one, and convenience in managing the multiple devices can be improved.

In specific implementation, in order to ensure the safety of the device to be controlled in the process of controlling the device to be controlled by the smart glasses, in an embodiment of the present invention, control authority identification information of the user on the device to be controlled may be further collected, and when the control authority identification information of the user on the device to be controlled is the same as the stored control authority identification information of the device to be controlled, the retrieved control instruction is sent to the device to be controlled.

In a specific implementation, the control authority identification information of the device to be controlled may be stored in advance. The control authority identification information of the device to be controlled can be stored in a local database of the intelligent glasses, and the control authority identification information of the device to be controlled can also be stored in an associated cloud server.

In specific implementation, the control authority identification information of the device to be controlled may be biometric information, gesture information, or voice instruction information, and it is understood that, in order to further improve the security of the device to be controlled, the control authority identification information of the device to be controlled may also be any combination of biometric information, gesture information, and voice instruction information.

The biometric information may include iris information, fingerprint information, retina information, voice information, and the like.

According to the method, before the called control instruction is sent to the device to be controlled, the control authority of the device to be controlled is verified by the user through the control authority identification information of the device to be controlled, and the device to be controlled can be controlled only when the control authority identification information of the device to be controlled and the stored control authority identification information of the device to be controlled are the same, so that the safety of the device to be controlled in the control process can be effectively improved.

Referring to fig. 2, a schematic structural diagram of a controller of smart glasses according to an embodiment of the present invention is shown. The controller 20 of the smart glasses may include: an obtaining unit 21, a retrieving unit 22 and a sending unit 23, wherein:

the obtaining unit 21 is adapted to obtain identification information of a device to be controlled watched by a user;

the calling unit 22 is adapted to call a control instruction corresponding to the identification information;

the sending unit 23 is adapted to send the called control instruction to the device to be controlled according to the identification information of the device to be controlled, so that the device to be controlled executes a corresponding operation after receiving the control instruction.

Referring to fig. 3, a schematic structural diagram of a system of an intelligent glasses control device in an embodiment of the present invention is shown. The system of the intelligent glasses control equipment comprises: smart glasses 31, a device to be controlled 32, wherein:

the smart glasses 31 are adapted to acquire identification information of the device to be controlled 32 gazed by the user, call a control instruction corresponding to the identification information, and send the called control instruction to the device to be controlled 32 according to the identification information of the device to be controlled 32;

and the device to be controlled 32 is adapted to execute corresponding operation after receiving the control instruction.

In a specific implementation, the system of the smart glasses control device may further include: a cloud server 33; the smart glasses 31 are further adapted to send the identification information to the cloud server 33; the cloud server 33 is adapted to query whether the identification information is stored after receiving the identification information, and feed back a control instruction corresponding to the identification information to the smart glasses 31 when the identification information is stored.

In specific implementation, the smart glasses 31 are further adapted to collect control authority identification information of the user on the device to be controlled 32, and when the control authority identification information of the user on the device to be controlled 32 is the same as the stored control authority identification information of the device to be controlled 32, send the retrieved control instruction to the device to be controlled 32.

It should be noted that, for the specific working principle and the working flow of each component in the system of the intelligent glasses control device, reference may be made to the description in the above embodiments of the present invention, and details are not described here again.

Referring to fig. 4, a schematic structural diagram of a pair of smart glasses according to an embodiment of the present invention is shown. Smart eyewear 40, comprising: smart eyewear body 41, controller (not shown), inboard camera (not shown), and outboard camera 42, wherein:

the inner side camera is arranged on the intelligent glasses body 41, is coupled with the controller and is suitable for detecting the watching direction of the eyes of the user;

the outer side camera 42 is arranged on the intelligent glasses body 41, is coupled with the controller, is suitable for starting to work after receiving a control signal, and collects an image of the device to be controlled corresponding to the visual angle of the user according to the control signal;

the controller is suitable for and works as the inboard camera detects the same direction of gazing of user's eyes is long to exceed and predetermine the time length, calculates user's visual angle, and generate control signal sends to outside camera 42, acquires the image that outside camera 42 gathered, draws the corresponding identification information of treating controlgear in the image that acquires, call with the control command that identification information corresponds, and according to treat controlgear's identification information, will the control command who calls arrive send to treat controlgear makes treat controlgear receives behind the control command, carry out corresponding operation.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: ROM, RAM, magnetic or optical disks, and the like.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method of controlling a device with smart glasses, comprising:

acquiring identification information of equipment to be controlled watched by a user;

calling a control instruction corresponding to the identification information;

collecting control authority identification information of the user on the equipment to be controlled; when the control authority identification information of the user on the equipment to be controlled is the same as the stored control authority identification information of the equipment to be controlled, the called control instruction is sent to the equipment to be controlled according to the identification information of the equipment to be controlled, so that the equipment to be controlled executes corresponding operation after receiving the control instruction; the control authority identification information of the device to be controlled comprises at least one of the following information: biometric information, gesture information, and voice command information.

2. The method for controlling the device through the smart glasses according to claim 1, wherein the obtaining of the identification information of the device to be controlled, which is watched by the user, comprises:

when the fact that the duration of the eyes of the user watching a certain direction exceeds a preset duration is detected, calculating the visual angle of the user;

acquiring an image of the equipment to be controlled corresponding to the visual angle of the user;

and acquiring the identification information from the image of the equipment to be controlled.

3. The method of controlling a device according to claim 1, wherein the retrieving the control instruction corresponding to the identification information includes:

comparing the identification information with information stored in a local database;

and when the identification information is stored in the local database, calling a control instruction corresponding to the identification information from the local database.

4. The method of controlling a device according to claim 1, wherein the retrieving the control instruction corresponding to the identification information includes:

sending the identification information to a cloud server, so that the cloud server inquires whether the identification information is stored after receiving the identification information, and feeds back a control instruction corresponding to the identification information when the identification information is stored;

and receiving a control instruction corresponding to the identification information fed back by the cloud server.

5. The method of controlling a device according to claim 1, wherein the device to be controlled is a vehicle.

6. The method for controlling the device according to claim 5, wherein after the device to be controlled receives the control command, the device to be controlled performs corresponding operations, including:

the vehicle receives the control instruction through a whole vehicle diagnosis interface;

and the vehicle forwards the control instruction to the corresponding controller, so that the controller controls the corresponding equipment to execute corresponding operation according to the corresponding control instruction.

7. A controller for smart eyewear, comprising:

the device comprises an acquisition unit, a control unit and a control unit, wherein the acquisition unit is suitable for acquiring identification information of a device to be controlled watched by a user;

the calling unit is suitable for calling a control instruction corresponding to the identification information;

the sending unit is suitable for collecting control authority identification information of the user on the equipment to be controlled; when the control authority identification information of the user on the equipment to be controlled is the same as the stored control authority identification information of the equipment to be controlled, the called control instruction is sent to the equipment to be controlled according to the identification information of the equipment to be controlled, so that the equipment to be controlled executes corresponding operation after receiving the control instruction; the control authority identification information of the device to be controlled comprises at least one of the following information: biometric information, gesture information, and voice command information.

8. A system of intelligent eyewear control devices, comprising: intelligent glasses and treat controlgear, wherein:

the intelligent glasses are suitable for acquiring identification information of equipment to be controlled watched by a user, calling a control instruction corresponding to the identification information, acquiring control authority identification information of the user on the equipment to be controlled, and sending the called control instruction to the equipment to be controlled according to the identification information of the equipment to be controlled when the control authority identification information of the user on the equipment to be controlled is the same as the stored control authority identification information of the equipment to be controlled; the control authority identification information of the device to be controlled comprises at least one of the following information: biometric information, gesture information, and voice command information;

and the equipment to be controlled is suitable for executing corresponding operation after receiving the control instruction.

9. The system of smart eyewear control devices of claim 8, further comprising: a cloud server;

the intelligent glasses are further suitable for sending the identification information to the cloud server;

the cloud server is suitable for inquiring whether the identification information is stored or not after receiving the identification information, and feeding back a control instruction corresponding to the identification information to the intelligent glasses when the identification information is stored.

10. A smart eyewear, comprising: intelligence glasses body, controller, inboard camera and outside camera, wherein:

the inner side camera is arranged on the intelligent glasses body, is coupled with the controller and is suitable for detecting the watching direction of the eyes of the user;

the outer side camera is arranged on the intelligent glasses body, is coupled with the controller, is suitable for starting to work after receiving a control signal, and collects images of the equipment to be controlled corresponding to the visual angle of the user according to the control signal;

the controller is suitable for calculating the visual angle of the user when the inner camera detects that the time length of the user watching the eyes in the same direction exceeds the preset time length, generating the control signal to be sent to the outer camera, acquiring the image acquired by the outer camera, extracting the identification information of the corresponding device to be controlled in the acquired image, calling the control instruction corresponding to the identification information, acquiring the control authority identification information of the device to be controlled by the user, sending the called control instruction to the corresponding device to be controlled according to the identification information of the device to be controlled when the control authority identification information of the device to be controlled by the user is the same as the stored control authority identification information of the device to be controlled, and enabling the device to be controlled to receive the control instruction, executing corresponding operation; the control authority identification information of the device to be controlled comprises at least one of the following information: biometric information, gesture information, and voice command information.

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