WO2017071598A1

WO2017071598A1 - Method and device for controlling with eyes

Info

Publication number: WO2017071598A1
Application number: PCT/CN2016/103450
Authority: WO
Inventors: 石明; 孙梓锋; 刘云; 刘云华; 刘磊
Original assignee: 石明
Priority date: 2015-10-26
Filing date: 2016-10-26
Publication date: 2017-05-04
Also published as: CN105373225B; CN105373225A

Abstract

A method and a device for controlling with eyes. The method comprises: controlling an infrared emitter to emit an infrared ray to the eye reflection region of a user (111); determining whether an infrared ray reflected by an eyelid is received by means of an infrared receiver (112), both the infrared emitter and the infrared receiver being disposed on the holder of an eyeglass frame; if an infrared ray reflected by the eyelid is received, sending to an apparatus to be controlled control information (113), such that the apparatus to be controlled operates according to the control information.

Description

Method and device for controlling with eyes

Technical field

The present application relates to the field of spectacles, and more particularly to a method and apparatus for controlling with an eye.

Background technique

When people need to perform an operation, they usually need to issue instructions through hands or sounds, etc., so that the main body of the machine, equipment, etc. can follow the will of the person. However, for some special groups, such as frozen people, etc., it is not possible to issue instructions through media such as hands or sounds. Or, when people do not give instructions by hand or voice in certain special circumstances, they cannot issue commands to the main body of machines, equipment, etc. to operate.

Summary of the invention

The technical problem to be solved by the present application is to provide a method and apparatus for controlling with an eye, which can provide a new control method.

The present invention provides a method of controlling with an eye, comprising:

Controlling the first infrared emitter to emit infrared light to the eye reflection area of the left eye of the user,

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, or the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver;

Receiving first control information to the device to be controlled if the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver; if the eyelid of the right eye of the user is received by the second infrared ray receiver The reflected infrared rays transmit second control information to the device to be controlled, wherein the first control information and the second control information are any one of switch information, click information, rotation information, and slide information.

The present invention provides a method of controlling with an eye, comprising:

Controlling the infrared emitter to emit infrared light to the eye reflection area of the user;

Determining whether the infrared ray reflected by the eyelid is received by the infrared ray receiver, wherein the infrared ray emitter and the infrared ray receiver are both disposed on the bracket of the eyeglass frame;

If infrared rays reflected by the eyelids are received, control information is transmitted to the device to be controlled such that the device to be controlled operates according to the control information.

Optionally, controlling the infrared emitter to emit infrared light to the eye reflection area of the user is specifically:

Controlling the first infrared emitter to emit infrared light to the eye reflection area of the left eye of the user, and controlling the second infrared emitter to emit infrared light to the eye reflection area of the right eye of the user;

The infrared rays that determine whether or not the eyelids are reflected by the infrared receiver are specifically:

Receiving first control information to the device to be controlled if the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver; if the eyelid of the right eye of the user is received by the second infrared ray receiver The reflected infrared rays send second control information to the device to be controlled.

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, and/or the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver;

If the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, transmitting first control information to the device to be controlled; if passing the second Receiving, by the infrared receiver, infrared rays reflected by the eyelid of the right eye of the user, transmitting second control information to the device to be controlled; if the infrared light reflected by the eyelid of the left eye of the user is received by the first infrared receiver, Sending first control information to the device to be controlled; if the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver, transmitting second control information to the device to be controlled; Receiving, by the infrared receiver, infrared rays reflected by the eyelid of the left eye of the user and infrared rays reflected by the eyelid of the right eye of the user through the second infrared receiver, transmitting third control information to the device to be controlled; The infrared rays reflected by the eyelid of the left eye that has not been received by the first infrared receiver are not transmitted by the second infrared receiver to the infrared rays reflected by the eyelid of the right eye of the user, and are sent to the device to be controlled. Fourth control information.

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver in the first time period, and if yes, sending a control instruction to move the first distance to the left to the smart terminal, where The first time period is proportional to the first distance;

Determining whether the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver in the second time period, and if yes, sending a control instruction to move the second distance to the right to the smart terminal, where The second time period is proportional to the second distance;

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver and the infrared ray reflected by the eyelid of the right eye of the user received by the second infrared ray receiver during the third time period And if yes, sending a control instruction for moving the third distance upward to the smart terminal, wherein the third time period is proportional to the third distance;

Determining whether the infrared ray reflected by the eyelid of the left eye of the user not received by the first infrared ray receiver in the fourth time period is not reflected by the eyelid of the right eye of the user received by the second infrared ray receiver The infrared ray, if yes, sends a control command to the smart terminal to move the fourth distance downward, wherein the fourth time period is proportional to the fourth distance.

Optionally, the control information is any one of switch information, click information, rotation information, and slide information.

The invention provides an apparatus for controlling with an eye, comprising: a control module, a judging module and a sending module,

The control module is configured to control the infrared emitter to emit infrared light to the eye reflection area of the user;

The determining module is configured to determine whether the infrared ray reflected by the eyelid is received by the infrared ray receiver, wherein the infrared ray emitter and the infrared ray receiver are both disposed on the bracket of the eyeglass frame;

The sending module is configured to send control information to the device to be controlled when the infrared rays reflected by the eyelids are received, so that the device to be controlled operates according to the control information.

Optionally, the control module is configured to control the first infrared emitter to emit infrared rays to the eye reflection area of the left eye of the user, and control the second infrared emitter to emit infrared rays to the eye reflection area of the right eye of the user;

The determining module is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray emitter, or is reflected by the eye ray of the right eye of the user received by the second infrared ray emitter infrared;

The sending module is configured to send first control information to the device to be controlled when receiving the infrared rays reflected by the eyelid of the left eye of the user by the first infrared emitter; and receive the second infrared emitter by the second infrared emitter When the infrared rays reflected by the eyelids of the right eye of the user transmit the second control information to the device to be controlled.

The determining module is configured to determine whether the user is received by the first infrared receiver Infrared rays reflected by the eyelids of the left eye, and/or infrared rays reflected by the eyelids of the right eye of the user through the second infrared receiver;

The transmitting module is configured to send first control information to the device to be controlled when receiving the infrared light reflected by the eyelid of the left eye of the user by the first infrared receiver; and receive the first infrared information through the second infrared receiver When the infrared rays reflected by the eyelids of the right eye of the user transmit the second control information to the device to be controlled; when receiving the infrared rays reflected by the eyelids of the left eye of the user through the first infrared receiver, sending the infrared rays reflected by the eyelids of the left eye of the user to the device to be controlled First control information; transmitting, when the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver, second control information to the device to be controlled; receiving at the same time by the first infrared ray receiver When the infrared rays reflected by the eyelids of the left eye of the user and the infrared rays reflected by the eyelids of the right eye of the user are received by the second infrared receiver, the third control information is transmitted to the device to be controlled; The infrared ray reflected by the infrared receiver receiving the eyelid of the user's left eye is also not received by the second infrared receiver. When the infrared rays reflected by the right eye of the eyelid, the device sends a fourth control information to be.

The determining module is configured to determine whether the infrared light reflected by the eyelid of the left eye of the user is received by the first infrared receiver in the first time period;

The sending module is configured to send, to the smart terminal, a control instruction for moving the first distance to the left when receiving the infrared light reflected by the eyelid of the left eye of the user, wherein the first time period is different from the first distance proportion;

The determining module is configured to determine whether the infrared light reflected by the eyelid of the right eye of the user is received by the second infrared receiver in the second time period;

The sending module is configured to send, to the smart terminal, a control instruction for moving the second distance to the right when receiving the infrared light reflected by the eyelid of the right eye of the user, wherein the second time period is different from the second distance proportion;

The determining module is configured to determine whether the infrared rays reflected by the eyelid of the left eye of the user and the passing through the first infrared receiver are simultaneously received in the third time period The second infrared receiver receives the infrared light reflected by the eyelid of the right eye of the user;

The transmitting module is configured to receive infrared rays reflected by an eyelid of a left eye of a user through the first infrared receiver and infrared rays reflected by an eyelid of a right eye of the user through the second infrared receiver, Sending, to the smart terminal, a control instruction for moving the third distance upward, wherein the third time period is proportional to the third distance;

The determining module is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is not received by the first infrared ray receiver in the fourth time period, and the user is not received by the second infrared ray receiver Infrared rays reflected by the eyelids of the right eye,

The transmitting module is configured to receive infrared rays reflected by an eyelid of a left eye of the user through the first infrared receiver and infrared rays reflected by an eyelid of a right eye of the user through the second infrared receiver And transmitting, to the smart terminal, a control instruction for moving the fourth distance downward, wherein the fourth time period is proportional to the fourth distance.

In the present application, infrared rays are emitted to the eye reflection area of the user by controlling the infrared emitter, and when the infrared rays reflected by the eyelids are received, the control information is transmitted to the device to be controlled, thereby causing the device to be controlled to operate according to the control information. In this way, a new control method can be provided, which can provide a method for controlling the device to be controlled for those who are inconvenient to use the hand and sound.

DRAWINGS

1 is a flow chart of a method for controlling with an eye provided by the present invention;

2 is a flow chart of another method for controlling with an eye provided by the present invention;

3 is a flow chart of still another method for controlling with an eye provided by the present invention;

4 is a structural view of an apparatus for controlling with an eye provided by the present invention.

detailed description

In the following description, for purposes of explanation and description, reference, However, the ability It will be apparent to those skilled in the art that the present application can be implemented in other embodiments without these specific details. In other instances, detailed descriptions of well-known devices, circuits, and methods are omitted so as not to obscure the description of the application.

Referring to Figure 1, Figure 1 is a flow chart of a method for controlling with an eye provided by the present invention. The method for controlling with the eye of this embodiment includes:

111: The eyeglass pendant controls the infrared emitter to emit infrared light to the eye reflection area of the user.

The glasses pendant includes an infrared emitter, an infrared receiver, a processor, and a communication module. The communication module may be a Bluetooth module or the like. The eyeglass pendant can be freely mounted on or removed from the eyeglasses. The infrared emitter may be an infrared light emitting diode or the like, wherein the infrared light emitted by the infrared emitter is an electromagnetic wave having a wavelength in the range of 780 to 2526 nm. The infrared emitter is disposed on the bracket of the glasses. For example, the infrared emitter may be disposed on the temple of the glasses, may be disposed on the frame of the glasses, or may be disposed on the nose pad, etc., and the infrared emitter is aligned with the user. An ocular reflex zone, wherein the ocular reflex zone is located at the eyelid when the spectacles are closed. In use, the infrared emitter is controlled to emit infrared light to the eye reflection area of the user. When the eye is closed, the eyelid reflects the infrared light emitted by the infrared emitter. When the eye is opened, the eyeball absorbs the infrared light emitted by the infrared emitter. .

112: The glasses pendant determines whether infrared rays reflected by the eyelids are received through the infrared receiver.

The infrared receiver is disposed on the bracket of the glasses. For example, the infrared receiver may be disposed on the temple of the glasses, may be disposed on the frame of the glasses, or may be disposed on the nose pad or the like. The eyeglass pendant determines whether infrared rays reflected by the eyelids are received through the infrared receiver. If the result of the determination is YES, the process proceeds to step 113, and if the result of the determination is negative, no operation is performed.

113: The glasses pendant sends control information to the device to be controlled, so that the device to be controlled operates according to the control information.

If infrared rays reflected by the eyelids are received, control information is transmitted to the device to be controlled. The glasses pendant and the device to be controlled can communicate by wire or wirelessly. For example, communication via a serial port, a print port, a USB, or the like, or through a blue Teeth, Wi-Fi, GPRS, Zibee, etc. are wired for communication. The device to be controlled is any control device with communication functions, for example, smart lamps, smart home appliances, smart phones, smart robots, smart access devices, computers, and the like. The control information is information that informs the device to be controlled of what kind of operation, and may be, for example, any one of switch information, click information, rotation information, slide information, and the like. After receiving the control information sent by the glasses pendant, the device to be controlled performs corresponding operations according to the control information. For example, when the smart light fixture receives the switch information sent by the eyeglass pendant, the switch operation is performed according to the switch information, or when the computer receives the click information sent by the eyeglass pendant, the "** miner" game is played according to the click information, and the like.

In this embodiment, the infrared ray emitter is controlled to emit infrared rays to the eye reflection area of the user, and when the infrared rays reflected by the eyelids are received, the control information is transmitted to the device to be controlled, thereby causing the device to be controlled to operate according to the control information. In this way, a new control method can be provided, which can provide a method for controlling the device to be controlled for those who are inconvenient to use the hand and sound.

Please refer to FIG. 2. FIG. 2 is a flow chart of another method for controlling with an eye provided by the present invention. The method for controlling with the eye of this embodiment includes:

211: The glasses pendant controls the infrared emitter to emit infrared rays to the eye reflection area of the user.

The eyeglass pendant includes an infrared emitter (which may be an infrared emitter or two infrared emitters), a first infrared receiver, a second infrared receiver, a processor, and a communication module. The communication module may be a Bluetooth module or the like. The eyeglass pendant can be freely mounted on or removed from the eyeglasses. The infrared emitter may be an infrared light emitting diode or the like, wherein the infrared light emitted by the infrared emitter is an electromagnetic wave having a wavelength in the range of 780 to 2526 nm. The infrared emitter is disposed on the bracket of the glasses. For example, the infrared emitter may be disposed on the temple of the glasses, may be disposed on the frame of the glasses, or may be disposed on the nose pad, etc., and the infrared emitter is aligned with the user. An ocular reflex zone, wherein the ocular reflex zone is located at the eyelid when the spectacles are closed. In use, the infrared emitter is controlled to emit infrared light to the eye reflection area of the user. When the eye is closed, the eyelid reflects the infrared light emitted by the infrared emitter. When the eye is opened, the eyeball absorbs the infrared light emitted by the infrared emitter. .

212: The glasses pendant determines whether infrared rays reflected by the eyelids are received through the infrared receiver.

The first infrared receiver and the second infrared receiver are disposed on the bracket of the glasses. For example, the infrared receiver may be disposed on the temple of the glasses, may be disposed on the frame of the glasses, or may be disposed on the nose pad or the like. Wherein, the first infrared receiver is for receiving infrared rays reflected by the eye of the left eye, and the second infrared receiver is for receiving the infrared receiver of the eyelid reflection of the right eye. The eyeglass pendant is determined to receive infrared rays reflected by the eyelids of the left eye through the first infrared receiver or infrared rays reflected by the eyelids of the right eye through the second infrared receiver. If the result of the determination is that the infrared ray reflected by the eye of the left eye is received by the first infrared ray receiver, the process proceeds to step 213, and if the result of the determination is that the infrared ray reflected by the eye of the right eye is received by the second infrared ray receiver, the process proceeds to step 214.

213: The glasses pendant sends the first control information to the device to be controlled, so that the device to be controlled operates according to the first control information.

The glasses pendant and the device to be controlled can communicate by wire or wirelessly. For example, communication via a serial port, a print port, a USB, or the like, or a wired connection via Bluetooth, Wi-Fi, GPRS, Zibee, and the like. The device to be controlled is any control device with communication functions, for example, smart lamps, smart home appliances, smart phones, smart robots, smart access devices, computers, and the like. The first control information is information for notifying the device to be controlled of what kind of operation, for example, may be any one of switch information, click information, rotation information, slide information, and the like. After receiving the first control information sent by the glasses pendant, the device to be controlled performs corresponding operations according to the first control information. For example, the first control information may be an opening information, and the smart light fixture turns on the smart light fixture after receiving the opening information.

It can be understood that the eye pendant can also send the first control information to one device to be controlled, and send the second control information to another device to be controlled, so as to implement control on different devices to be controlled.

In this embodiment, according to different infrared receivers, infrared rays reflected by eyelids of different eyes can be received, thereby issuing two different control information, performing two different control on the same control device, or separately for two different The device to be controlled is controlled.

Referring to FIG. 3, FIG. 3 is a flow of still another method for controlling with an eye provided by the present invention. Cheng Tu. The method for controlling with the eye of this embodiment includes:

311: The glasses pendant controls the infrared emitter to emit infrared rays to the eye reflection area of the user.

312: The glasses pendant determines whether infrared rays reflected by the eyelids are received through the infrared receiver.

The first infrared receiver and the second infrared receiver are disposed on the bracket of the glasses. For example, the infrared receiver may be disposed on the temple of the glasses, may be disposed on the frame of the glasses, or may be disposed on the nose pad or the like. Wherein, the first infrared receiver is for receiving infrared rays reflected by the eye of the left eye, and the second infrared receiver is for receiving the infrared receiver of the eyelid reflection of the right eye. The eyeglass pendant is determined to receive infrared rays reflected by the eyelids of the left eye through the first infrared receiver or infrared rays reflected by the eyelids of the right eye through the second infrared receiver. If the result of the determination is that the infrared ray reflected by the eye of the left eye is received by the first infrared ray receiver, the process proceeds to step 313. If the result of the determination is that the infrared ray reflected by the eye of the right eye is received by the second infrared ray receiver, the process proceeds to step 314. If the result of the determination is that the infrared rays reflected by the eyelids of the left and right eyes are received by the first infrared receiver and the second infrared receiver at the same time, the process proceeds to step 315, and if the result of the determination is that none of the first infrared receiver and the second infrared receiver are passed. Upon receiving the infrared rays reflected by the eyelids of the left and right eyes, the process proceeds to step 316.

313: The glasses pendant sends the first control information to the device to be controlled, so that the device to be controlled operates according to the first control information.

The glasses pendant and the device to be controlled can communicate by wire or wirelessly. For example, communication via a serial port, a print port, a USB, or the like, or a wired connection via Bluetooth, Wi-Fi, GPRS, Zibee, and the like. The device to be controlled is any control device with communication functions, for example, smart lamps, smart home appliances, smart phones, smart robots, smart access devices, computers, and the like. The first control information is information for notifying the device to be controlled of what kind of operation, for example, may be any one of switch information, click information, rotation information, slide information, and the like. After receiving the first control information sent by the glasses pendant, the device to be controlled performs corresponding operations according to the first control information. For example, the first control information may be a channel plus one information, and the smart TV adds one channel of the smart TV after receiving the channel plus one information.

314: The glasses pendant sends second control information to the device to be controlled, so that the device to be controlled operates according to the second control information.

The second control information is information for notifying the device to be controlled of what kind of operation, for example, may be any one of switch information, click information, rotation information, slide information, and the like. After receiving the second control information sent by the glasses pendant, the device to be controlled performs corresponding operations according to the second control information. For example, the second control information may be a channel minus one information, and the smart TV reduces the channel of the smart TV by one after receiving the channel minus one information.

315: The glasses pendant sends third control information to the device to be controlled, so that the device to be controlled operates according to the third control information.

The third control information is information for notifying the device to be controlled of what kind of operation, for example, may be any one of switch information, click information, rotation information, slide information, and the like. After receiving the third control information sent by the glasses pendant, the device to be controlled performs corresponding operations according to the third control information. For example, the third control information may be a sound plus one information, and the smart TV adds one to the sound of the smart TV after receiving the sound plus one information.

316: The glasses pendant sends fourth control information to the device to be controlled, so that the device to be controlled operates according to the fourth control information.

The fourth control information is information for notifying the device to be controlled of what kind of operation, for example, may be any one of switch information, click information, rotation information, slide information, and the like. After receiving the fourth control information sent by the glasses pendant, the device to be controlled performs corresponding operations according to the fourth control information. For example, the fourth control information may be a sound minus one information, and the smart television reduces the sound of the smart television by one after receiving the sound minus one information.

It can be understood that the eye pendant can also send the first control information to the first device to be controlled, the second control information to the second device to be controlled, and the third control information to the third device to be controlled. The fourth device to be controlled sends the fourth control information to implement control on different devices to be controlled.

In this embodiment, infrared rays reflected by the eyelids of different eyes can be received according to different infrared receivers, thereby issuing different control information, performing different control on the same control device, or separately controlling different devices to be controlled.

In this embodiment, according to different infrared receivers, infrared rays reflected by eyelids of different eyes can be received, thereby issuing four different control information, performing four different control on the same control device, or respectively for four different types. The device to be controlled is controlled.

Steps 312 to 316 may also be replaced by: determining whether the infrared rays reflected by the eyelids of the left eye of the user are received by the first infrared emitter during the first time period, and if yes, sending the directions to the smart terminal Moving a control command of the first distance to the left, wherein the first time period is proportional to the first distance; determining whether the infrared light reflected by the eyelid of the right eye of the user is received by the second infrared emitter during the second time period, if If yes, the control terminal sends a control command to move the second distance to the right, wherein the second time period is proportional to the second distance; and determining whether the user is received by the first infrared emitter simultaneously in the third time period. Infrared rays reflected by the eyelids of the left eye and infrared rays reflected by the eyelids of the right eye of the user received by the second infrared emitter, if yes, a control command for moving the third distance upward is sent to the smart terminal, wherein, the third The time period is proportional to the third distance; determining whether the user is not received by the first infrared emitter during the fourth time period The infrared rays reflected by the eyelids of the eye also do not receive the infrared rays reflected by the eyelids of the right eye of the user through the second infrared emitter, and if so, send a control command to move the fourth distance downward to the smart terminal, wherein, the fourth The time period is proportional to the fourth distance. The length of the first time period to the fourth time period may be set as needed, and is not specifically limited in the present invention. Moreover, the proportional relationship between the time period and the distance may be a proportional ratio, an inverse ratio, and the like, and may be specifically set as needed.

Therefore, by the above method, it is possible to simulate the up, down, left and right movement of the mouse, providing more possibilities for the eye to control the device to be controlled.

Referring to FIG. 4, FIG. 4 is a structural diagram of an apparatus for controlling with an eye according to the present invention. The apparatus for controlling by the eye of the embodiment includes: a control module 410, a judging module 420, and a sending module 430.

The control module 410 is configured to control the infrared emitter to emit infrared light to the eye reflection area of the user;

The determining module 420 is configured to determine whether the infrared ray reflected by the eyelid is received by the infrared ray receiver, wherein the infrared ray emitter and the infrared ray receiver are both disposed on the bracket of the eyeglass frame;

The sending module 430 is configured to send control information to the device to be controlled when the infrared rays reflected by the eyelids are received, so that the device to be controlled operates according to the control information.

Optionally, the control module 410 is configured to control the first infrared emitter to emit infrared rays to the eye reflection area of the left eye of the user, and control the second infrared emitter to emit infrared rays to the eye reflection area of the right eye of the user;

The determining module 420 is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, or is reflected by the eyelid of the right eye of the user received by the second infrared ray receiver Infrared

The sending module 430 is configured to send first control information to the device to be controlled when receiving the infrared light reflected by the eyelid of the left eye of the user by the first infrared receiver; and receive the second infrared receiver by the second infrared receiver When the infrared rays reflected by the eyelids of the right eye of the user are transmitted, the second control information is transmitted to the device to be controlled.

The determining module 420 is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, and/or the eyelid of the right eye of the user is received by the second infrared ray receiver Reflected infrared light;

The sending module 430 is configured to receive by the first infrared receiver When the infrared rays reflected by the eyelids of the left eye of the user transmit the first control information to the device to be controlled; when receiving the infrared rays reflected by the eyelids of the right eye of the user through the second infrared receiver, send the infrared rays to the device to be controlled Second control information; transmitting first control information to the device to be controlled when the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver; receiving the user at the second infrared ray receiver When the infrared rays reflected by the eyelids of the right eye transmit the second control information to the device to be controlled; at the same time, the infrared rays reflected by the eyelids of the left eye of the user are received by the first infrared receiver and the second infrared rays are passed through Receiving the infrared light reflected by the eyelid of the right eye of the user, the receiver transmits the third control information to the device to be controlled; and the infrared light reflected by the eyelid of the left eye of the user that is not received by the first infrared receiver is also Sending the first to the device to be controlled when the infrared ray reflected by the eyelid of the right eye of the user is not received by the second infrared ray receiver Control information.

The determining module 420 is configured to determine whether the infrared light reflected by the eyelid of the left eye of the user is received by the first infrared receiver in the first time period;

The sending module 430 is configured to send, to the smart terminal, a control instruction for moving the first distance to the left when receiving the infrared light reflected by the eyelid of the left eye of the user, wherein the first time period and the first distance are Proportional

The determining module 420 is configured to determine whether the infrared light reflected by the eyelid of the right eye of the user is received by the second infrared receiver in the second time period;

The sending module 430 is configured to send, to the smart terminal, a control instruction for moving the second distance to the right when receiving the infrared light reflected by the eyelid of the right eye of the user, where the second time period and the second distance are Proportional

The determining module 420 is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver during the third time period, and the right of the user is received by the second infrared ray receiver Infrared rays reflected by the eyelids of the eye;

The sending module 430 is configured to receive infrared rays reflected by an eyelid of a left eye of a user through the first infrared receiver and receive the second infrared light through the first infrared receiver. Receiving infrared rays reflected by the eyelid of the right eye of the user, and transmitting a control instruction for moving the third distance upward to the smart terminal, wherein the third time period is proportional to the third distance;

The determining module 420 is configured to determine whether the infrared light reflected by the eyelid of the left eye of the user is not received by the first infrared receiver or the user is not received by the second infrared receiver in the fourth time period The infrared rays reflected by the eyelids of the right eye,

The transmitting module 430 is configured to transmit infrared rays reflected by the eyelid of the left eye of the user not received by the first infrared receiver or by the eyelid of the right eye of the user received by the second infrared receiver. In the case of infrared rays, a control command for moving the fourth distance downward is transmitted to the smart terminal, wherein the fourth time period is proportional to the fourth distance.

For details, please refer to FIG. 1 to FIG. 3 and related descriptions, and details are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus, and method may be implemented in other manners. For example, the device implementations described above are merely illustrative. For example, the division of the modules or units is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be used. Combinations can be integrated into another system, or some features can be ignored or not executed. In addition, the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be in an electrical, mechanical or other form.

The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the present embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application, in essence or the contribution to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium. A number of instructions are included to cause a computer device (which may be a personal computer, server, or network device, etc.) or a processor to perform all or part of the steps of the methods described in various embodiments of the present application. The foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like. .

Claims

A method for controlling with an eye, comprising:

Controlling the first infrared emitter to emit infrared light to the eye reflection area of the left eye of the user,

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, or the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver;

Receiving first control information to the device to be controlled if the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver; if the eyelid of the right eye of the user is received by the second infrared ray receiver The reflected infrared rays transmit second control information to the device to be controlled, wherein the first control information and the second control information are any one of switch information, click information, rotation information, and slide information.
A method for controlling with an eye, comprising:

Controlling the infrared emitter to emit infrared light to the eye reflection area of the user;

Determining whether the infrared ray reflected by the eyelid is received by the infrared ray receiver, wherein the infrared ray emitter and the infrared ray receiver are both disposed on the bracket of the eyeglass frame;

If infrared rays reflected by the eyelids are received, control information is transmitted to the device to be controlled such that the device to be controlled operates according to the control information.
The method according to claim 2, wherein controlling the infrared emitter to emit infrared light to the eye reflection area of the user is specifically:

Controlling the first infrared emitter to emit infrared light to the eye reflection area of the left eye of the user, and controlling the second infrared emitter to emit infrared light to the eye reflection area of the right eye of the user;

The infrared rays that determine whether or not the eyelids are reflected by the infrared receiver are specifically:

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, or the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver;

Receiving first control information to the device to be controlled if the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver; if the eyelid of the right eye of the user is received by the second infrared ray receiver The reflected infrared rays send second control information to the device to be controlled.
The method of claim 2 wherein the infrared emitter is controlled The infrared radiation emitted by the user's eye reflection area is specifically as follows:

Controlling the first infrared emitter to emit infrared light to the eye reflection area of the left eye of the user, and controlling the second infrared emitter to emit infrared light to the eye reflection area of the right eye of the user;

The infrared rays that determine whether or not the eyelids are reflected by the infrared receiver are specifically:

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, and/or the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver;

Receiving first control information to the device to be controlled if the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver; if the eyelid of the right eye of the user is received by the second infrared ray receiver The reflected infrared ray sends second control information to the device to be controlled; if the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, the first control information is sent to the device to be controlled; Receiving, by the second infrared receiver, infrared rays reflected by the eyelid of the right eye of the user, transmitting second control information to the device to be controlled; if the eyelid of the left eye of the user is received through the first infrared receiver at the same time; The reflected infrared ray and the infrared ray reflected by the eyelid of the right eye of the user received by the second infrared ray receiver transmit third control information to the device to be controlled; if not received by the first infrared ray receiver The infrared rays reflected by the eyelids of the user's left eye are also not received by the second infrared receiver. Eyelid reflected infrared eye, the fourth control apparatus transmits the control message to be.
The method according to claim 2, wherein controlling the infrared emitter to emit infrared light to the eye reflection area of the user is specifically:

Controlling the first infrared emitter to emit infrared light to the eye reflection area of the left eye of the user, and controlling the second infrared emitter to emit infrared light to the eye reflection area of the right eye of the user;

The infrared rays that determine whether or not the eyelids are reflected by the infrared receiver are specifically:

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver in the first time period, and if yes, sending a control instruction to move the first distance to the left to the smart terminal, where The first time period is proportional to the first distance;

Determining whether the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver in the second time period, and if yes, sending a control instruction to move the second distance to the right to the smart terminal, where The second time period is proportional to the second distance;

Determining whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver and the infrared ray reflected by the eyelid of the right eye of the user received by the second infrared ray receiver during the third time period And if yes, sending a control instruction for moving the third distance upward to the smart terminal, wherein the third time period is proportional to the third distance;

Determining whether the infrared ray reflected by the eyelid of the left eye of the user not received by the first infrared ray receiver in the fourth time period is not reflected by the eyelid of the right eye of the user received by the second infrared ray receiver The infrared ray, if yes, sends a control command to the smart terminal to move the fourth distance downward, wherein the fourth time period is proportional to the fourth distance.
The method according to any one of claims 2 to 5, wherein the control information is any one of switch information, click information, rotation information, and slide information.
An apparatus for controlling by an eye, comprising: a control module, a judging module, and a sending module,

The control module is configured to control the infrared emitter to emit infrared light to the eye reflection area of the user;

The determining module is configured to determine whether the infrared ray reflected by the eyelid is received by the infrared ray receiver, wherein the infrared ray emitter and the infrared ray receiver are both disposed on the bracket of the eyeglass frame;

The sending module is configured to send control information to the device to be controlled when the infrared rays reflected by the eyelids are received, so that the device to be controlled operates according to the control information.
The device of claim 7 wherein:

The control module is configured to control the first infrared emitter to emit infrared rays to the eye reflection area of the left eye of the user, and control the second infrared emitter to emit infrared rays to the eye reflection area of the right eye of the user;

The determining module is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray emitter, or is reflected by the eye ray of the right eye of the user received by the second infrared ray emitter infrared;

The sending module is configured to send first control information to the device to be controlled when receiving the infrared rays reflected by the eyelid of the left eye of the user by the first infrared emitter; and receive the second infrared emitter by the second infrared emitter When the infrared rays reflected by the eyelids of the right eye of the user transmit the second control information to the device to be controlled.
The device of claim 7 wherein:

The control module is configured to control the first infrared emitter to emit infrared rays to the eye reflection area of the left eye of the user, and control the second infrared emitter to emit infrared rays to the eye reflection area of the right eye of the user;

The determining module is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver, and/or is reflected by the eyelid of the right eye of the user received by the second infrared ray receiver infrared;

The transmitting module is configured to send first control information to the device to be controlled when receiving the infrared light reflected by the eyelid of the left eye of the user by the first infrared receiver; and receive the first infrared information through the second infrared receiver When the infrared rays reflected by the eyelids of the right eye of the user transmit the second control information to the device to be controlled; when receiving the infrared rays reflected by the eyelids of the left eye of the user through the first infrared receiver, sending the infrared rays reflected by the eyelids of the left eye of the user to the device to be controlled First control information; transmitting, when the infrared ray reflected by the eyelid of the right eye of the user is received by the second infrared ray receiver, second control information to the device to be controlled; receiving at the same time by the first infrared ray receiver When the infrared rays reflected by the eyelids of the left eye of the user and the infrared rays reflected by the eyelids of the right eye of the user are received by the second infrared receiver, the third control information is transmitted to the device to be controlled; The infrared ray reflected by the infrared receiver receiving the eyelid of the user's left eye is also not received by the second infrared receiver. When the infrared rays reflected by the right eye of the eyelid, the device sends a fourth control information to be.
The device of claim 7 wherein:

The control module is configured to control the first infrared emitter to emit infrared rays to the eye reflection area of the left eye of the user, and control the second infrared emitter to emit infrared rays to the eye reflection area of the right eye of the user;

The determining module is configured to determine whether the infrared light reflected by the eyelid of the left eye of the user is received by the first infrared receiver in the first time period;

The sending module is configured to send, to the smart terminal, a control instruction for moving the first distance to the left when receiving the infrared light reflected by the eyelid of the left eye of the user, wherein the first time period is different from the first distance proportion;

The determining module is configured to determine whether the infrared light reflected by the eyelid of the right eye of the user is received by the second infrared receiver in the second time period;

The sending module is configured to send, to the smart terminal, a control instruction for moving the second distance to the right when receiving the infrared light reflected by the eyelid of the right eye of the user, wherein the second time period is different from the second distance proportion;

The determining module is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is received by the first infrared ray receiver during the third time period, and the right eye of the user is received by the second infrared ray receiver Infrared rays reflected by the eyelids;

The transmitting module is configured to receive infrared rays reflected by an eyelid of a left eye of a user through the first infrared receiver and infrared rays reflected by an eyelid of a right eye of the user through the second infrared receiver, Sending, to the smart terminal, a control instruction for moving the third distance upward, wherein the third time period is proportional to the third distance;

The determining module is configured to determine whether the infrared ray reflected by the eyelid of the left eye of the user is not received by the first infrared ray receiver in the fourth time period, and the user is not received by the second infrared ray receiver Infrared rays reflected by the eyelids of the right eye,

The transmitting module is configured to receive infrared rays reflected by an eyelid of a left eye of the user through the first infrared receiver and infrared rays reflected by an eyelid of a right eye of the user through the second infrared receiver And transmitting, to the smart terminal, a control instruction for moving the fourth distance downward, wherein the fourth time period is proportional to the fourth distance.
The apparatus according to any one of claims 7-9, wherein the control information is any one of switch information, click information, rotation information, and slide information.