CN115252279A - Control method, device, equipment and storage medium of intelligent eyeshade - Google Patents

Abstract

The application relates to a control method, a control device, control equipment and a storage medium of an intelligent eyeshade, wherein the method comprises the following steps: the method comprises the steps that the eye opening and closing state of a target user is obtained through a biosensor of an intelligent eye patch, the ambient light intensity information is obtained through an optical sensor of the intelligent eye patch, the target screen mode is determined according to the eye opening and closing state, and the light transmission coefficient of a display screen of the intelligent eye patch is adjusted in a gradual changing mode according to the target screen mode and the ambient light intensity information; when the eyes are detected to be opened, the light transmission coefficient of the display screen is adjusted in a gradual change mode by combining with the ambient light intensity information, so that the light received by the eyes is gradually switched from a dark state to a state synchronous with ambient light, a gradual change type sight line expansion experience is provided for a user, and the use experience of the user is improved.

Description

Control method, device, equipment and storage medium of intelligent eyeshade

Technical Field

The application relates to the technical field of intelligent eyepatches, in particular to a control method, a control device, control equipment and a storage medium of an intelligent eyepatch.

Background

At present, the eye shield appearing in the market mainly has the function of shielding light, creates a comfortable sleeping environment for people sensitive to the light and provides sleeping quality.

The operation is worn to current eye shade needs the manual work usually in the use, if the manual work is worn the eye shade after shading, takes off and resumes eyes normal field of vision after the eye shade, eyes are to the impression of light or the shading of dark, or direct receiving ambient light. Because eyes can not adapt to strong light in a short time, under the strong light environment, very uncomfortable sensory experience such as dazzling is easily generated at the moment that a user takes off the eyeshade, and the crowd who is photophobic also can generate obvious unsafe feeling psychologically, so that the user experience is poor.

Disclosure of Invention

The application provides a control method, a control device, control equipment and a storage medium of an intelligent eyeshade, and aims to solve the problem that eyes are prone to generating uncomfortable sensory experience due to the fact that a user directly takes off the eyeshade under a highlight environment in the existing eyeshade, and improve the use experience of the user.

In a first aspect, the present application provides a method for controlling an intelligent eyewear, comprising:

acquiring the eye opening and closing state of a target user through a biosensor of an intelligent eyeshade;

acquiring ambient light intensity information through a light sensor of an intelligent eyeshade;

determining a target screen mode according to the eye opening and closing state;

and gradually adjusting the light transmission coefficient of the display screen of the intelligent eye shield according to the target screen mode and the ambient light intensity information.

In a second aspect, the present application provides a control device for an intelligent eye mask, comprising:

the eye opening and closing state acquisition module is used for acquiring the eye opening and closing state of a target user through a biosensor of the intelligent eyeshade;

the environment light intensity information acquisition module is used for acquiring environment light intensity information through an optical sensor of the intelligent eyeshade;

the target screen mode determining module is used for determining a target screen mode according to the eye opening and closing state;

and the display screen light transmission coefficient adjusting module is used for adjusting the display screen light transmission coefficient of the intelligent eye patch in a gradual change mode according to the target screen mode and the ambient light intensity information.

In a third aspect, the present application provides an intelligent eyewear device, comprising a processor, a communication interface, a memory and a communication bus, wherein the processor, the communication interface and the memory complete communication with each other through the communication bus;

a memory for storing a computer program;

a processor for implementing the steps of the method for controlling the intelligent eyewear according to any of the embodiments of the first aspect when executing the program stored in the memory.

In a fourth aspect, the present application provides a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method of controlling a smart eyewear according to any of the embodiments of the first aspect.

The intelligent eyeshade acquires the eye opening and closing state of a target user through the biosensor, acquires environmental light intensity information through the optical sensor, determines a target screen mode according to the eye opening and closing state, and gradually adjusts the light transmission coefficient of the display screen of the intelligent eyeshade according to the target screen mode and the environmental light intensity information, so that after the eyes are detected to be closed, the light transmission coefficient of the display screen of the intelligent eyeshade is gradually adjusted by combining the environmental light intensity information, the display screen is switched from the light transmission mode to the light shielding mode, and the user is helped to quickly shield light and fall asleep; when the eyes are detected to be opened, the light transmittance of the display screen is adjusted in a gradual changing mode by combining with the ambient light intensity information, so that the light received by the eyes is gradually switched from a dark state to a state synchronous with ambient light, a gradual visual line expansion experience is provided for a user, and the use experience of the user is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and, together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic flowchart of a control method for an intelligent eyeshade according to an embodiment of the present application;

FIG. 2 is a flowchart illustrating steps in a method for controlling an intelligent eyewear, in accordance with an alternative embodiment of the present application;

FIG. 3 is a diagram of biosensor placement for an intelligent eyewear platform according to an alternative embodiment of the present application;

FIG. 4 is a schematic diagram of an intelligent eyewear configuration according to an alternative embodiment of the present application;

FIG. 5 is a diagram of an ambient light sensor location for an intelligent eye shield according to an alternative embodiment of the present application;

FIG. 6 is a flowchart illustrating steps in a method for controlling an intelligent eyewear according to an alternative embodiment of the present application;

fig. 7 is a block diagram illustrating a control apparatus for an intelligent eyeshade according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an intelligent eyewear device provided in an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making creative efforts shall fall within the protection scope of the present application.

For the purpose of facilitating understanding of the embodiments of the present application, the following description will be further explained with reference to the accompanying drawings and specific embodiments, which are not intended to limit the embodiments of the present application.

Fig. 1 is a schematic flowchart of a control method of an intelligent eyeshade according to an embodiment of the present application. As shown in fig. 1, the method for controlling an intelligent eyeshade provided by the present application may specifically include the following steps:

and 110, acquiring the eye opening and closing state of the target user through a biosensor of the intelligent eyeshade.

Specifically, the user wearing the intelligent eyeshade can be determined as the target user. The eye-opening state of the target user may include an eye-opening state and an eye-closing state, which is not limited by the embodiment of the present application. Specifically, the intelligent eye patch in the embodiment of the present application may be provided with a biosensor, and the intelligent eye patch may detect the eye opening and closing state of the target user in real time through the biosensor to acquire sensor data corresponding to the eye opening and closing state, and may use the sensor data as the biosensor data, so that the eye opening and closing state of the target user may be determined according to the biosensor data, for example, the eye opening and closing state or the eye closing state of the target user may be determined according to the biosensor data, and the eye opening and closing state of the target user may be obtained through the biosensor.

And step 120, acquiring ambient light intensity information through a light sensor of the intelligent eyeshade.

Specifically, the ambient light intensity information may include a light intensity index of the ambient light, and the light intensity index of the ambient light may be used to determine the maximum brightness of the ambient light, which is not limited in this embodiment of the application. In particular, the smart eyewear may be provided with a light sensor, which may include an ambient light sensor. The intelligent eyeshade can detect the ambient light through the optical sensor to obtain the light intensity index of the ambient light, the light intensity index of the ambient light can be determined as ambient light intensity information, and the light transmittance of the display screen of the intelligent eyeshade can be adjusted in a gradual changing mode subsequently according to the ambient light intensity information.

And step 130, determining a target screen mode according to the eye opening and closing state.

Specifically, the target screen mode may include a light-transmitting mode and a light-shielding mode, which is not limited in the embodiments of the present application. According to the method and the device, the screen mode which needs to be set currently by the intelligent eyeshade can be determined according to the eye opening and closing state of the target user, and the screen mode which needs to be set currently by the intelligent eyeshade can be determined as the target screen mode corresponding to the eye opening and closing state. For example, the corresponding screen mode may be set in advance according to different eye opening and closing states, for example, the screen mode corresponding to the eye opening state may be set as a light transmission mode, and the screen mode corresponding to the eye closing state may be set as a light shielding mode, which is not limited in this example. When the eye opening and closing state of the target user is the eye opening state, the light transmission mode corresponding to the eye opening state can be determined as the target screen mode; when the eye opening and closing state of the target user is the eye closing state, the shading mode corresponding to the eye closing state can be determined as the target screen mode.

And 140, gradually adjusting the light transmission coefficient of the display screen of the intelligent eye patch according to the target screen mode and the ambient light intensity information.

The light transmission coefficient of the display screen can comprise a light transmission index, the light transmission index can be used for determining the display brightness of the intelligent eyeshade, the display brightness of the display screen can be adjusted by adjusting the light transmission index of the display screen, and the display brightness is not limited by the embodiment of the application. Particularly, this application embodiment can be according to target screen mode and ambient light intensity information, the display screen light transmittance of gradual change formula adjustment intelligent eye-shade, thereby can the gradual change formula adjust the display luminance of intelligent eye-shade display screen, display screen light transmittance through gradual change formula adjustment intelligent eye-shade, make the light that target user's eyes received progressively switch to with the synchronous state of ambient light from the dark state, thereby solved current eye shade because under the highlight environment the user directly takes off the problem that the eyes that the eye shade leads to produced very uncomfortable sense organ experience easily, the sight that provides a gradual change formula for the user develops, promote user's sense organ experience.

In a specific implementation, the intelligent eyeshade in the embodiment of the present application may preset a corresponding light transmittance coefficient for a target screen mode, where the light transmittance coefficient may be used to determine the maximum brightness that the intelligent eyeshade can adjust in a current target screen mode, for example, when the target screen mode is a light transmittance mode, a target user may preset a corresponding light transmittance coefficient for the light transmittance mode; when the target screen mode is the shading mode, the target user may also preset a corresponding light transmission coefficient for the shading mode. When the intelligence eye-shade was at dynamic adjustment display screen light transmission coefficient, can be according to the ambient light intensity information that detects, with the display screen light transmission coefficient dynamic adjustment of intelligence eye-shade to the light transmission coefficient that this target screen mode corresponds, realized predetermineeing corresponding luminance threshold value according to user's actual demand adjustment target screen mode, in order when the user need not too bright ambient light or too dark ambient light, according to the display screen light transmission coefficient of the corresponding luminance threshold value dynamic adjustment intelligence eye-shade of the target screen mode that the user predetermines, promote user's perception experience.

As an example, the intelligent eye patch may preset an adjustment duration, and the intelligent eye patch may gradually adjust the transmittance of the display screen within the adjustment duration, for example, gradually increase the transmittance of the display screen within the adjustment duration, that is, gradually increase the display brightness of the display screen, or gradually decrease the transmittance of the display screen within the adjustment duration, that is, gradually decrease the display brightness of the display screen, so as to gradually adjust the transmittance of the display screen, that is, gradually adjust the display brightness of the display screen, and improve the viewing experience of the user. Specifically, when the target screen mode is the light transmission mode, the intelligent eyeshade can determine the maximum brightness of the ambient light according to the detected ambient light intensity information, and can determine the maximum display brightness set by the user for the light transmission mode according to the light transmission coefficient corresponding to the light transmission mode. Then, whether the maximum display brightness threshold value corresponding to the light transmission mode is greater than the maximum ambient light brightness or not can be determined, when the brightness threshold value corresponding to the light transmission mode is greater than the maximum ambient light brightness, the intelligent eyeshade can gradually adjust the light transmission coefficient of the display screen within the adjustment duration, namely, the display brightness of the display screen of the intelligent eyeshade is gradually improved within the adjustment duration until the display brightness of the display screen reaches the maximum display brightness corresponding to the light transmission mode; when the brightness threshold value corresponding to the light transmission mode is smaller than the maximum brightness of the ambient light, the intelligent eyeshade can gradually increase the light transmission coefficient of the display screen within the adjustment duration until the display brightness of the display screen reaches the maximum brightness of the ambient light, so that the light transmission coefficient of the display screen is adjusted in a gradual change mode.

Similarly, when the target screen mode is a shading mode, and the user needs to shade light and fall asleep, the intelligent eyeshade can gradually reduce the light transmission coefficient of the display screen within the adjustment time, so that the display brightness of the display screen is smaller and smaller until the light transmission coefficient of the display screen reaches the light transmission coefficient corresponding to the shading mode, and the light transmission coefficient of the display screen is adjusted in a gradual change mode under the shading mode.

It is thus clear that, the embodiment of the application acquires target user's eyes open and shut state through the biosensor of intelligence eye-shade, acquire ambient light intensity information through the light sensor of intelligence eye-shade, confirm target screen mode according to eyes open and shut state, according to target screen mode and ambient light intensity information, the display screen light transmission coefficient of intelligence eye-shade is adjusted to the gradual change formula, in order to adjust the demonstration light transmission coefficient of intelligence eye-shade through the gradual change formula, make the light that target user's eyes received progressively switch to the state synchronous with ambient light from the dark state, thereby solved current eye-shade because the user directly takes off the eye-shade under the highlight environment and lead to the problem that eyes easily produce very uncomfortable sensory experience, avoided uncomfortable sensory experience such as highlight dazzling, can effectively improve the psychological sense of security of crowd who is afraid.

Referring to fig. 2, a flowchart illustrating steps of a method for controlling an intelligent eyewear provided in an alternative embodiment of the present application is shown. The control method of the intelligent eye mask specifically comprises the following steps:

and step 210, acquiring the eye opening and closing state of the target user through a biosensor of the intelligent eyeshade.

In specific implementation, the intelligent eyeshade in the embodiment of the present application may be provided with a display screen, which may be a flexible display screen, such as a see-through screen, and the display screen may include a display screen, such as a display screen including two display screens, where the positions of the two display screens may correspond to the positions of the left eye and the right eye of the target user, and a plurality of sensors may be installed around the display screen, such as a biosensor and the like may be installed, which is not limited in this embodiment of the present application. Specifically, the intelligent eyeshade may be provided with at least two biosensors, which may be used as a biosensor set and may be respectively installed around the display screen of the intelligent eyeshade, so as to respectively detect the eye opening and closing state of the left eye and the eye opening and closing state of the right eye of the target user, and obtain the biosensor data, thereby determining the eye opening and closing state of the target user according to the biosensor data.

In an optional embodiment, the acquiring, by the biosensor of the smart eyeshade, the eye opening and closing state of the target user may specifically include: detecting the eyes of the target user through at least two biosensors to obtain detection data of each biosensor; determining a state distance value according to the detection data of the biosensor; and determining the preset state corresponding to the state distance value as the eye opening and closing state of the target user. The state distance value may include a distance value from the eyelid of the eye of the target user detected by the biosensor, and the preset state corresponding to the state distance value may include an eye opening state and an eye closing state, which is not limited in this embodiment of the present application.

Specifically, in the embodiment of the present application, the intelligent eyeshade may be provided with at least two biosensors, and the biosensors may include a distance sensor (P-sensor) disposed around a display screen of the intelligent eyeshade, and the biosensor may detect the eyes of the target user, for example, may detect an eyelid of the eyes of the target user, so as to obtain detection data of the biosensors, and then determine an eye opening and closing state of the target user according to the detection data.

As an example, the eyelid states of the eyes of the target user may include an eyelid open state and an eyelid closed state, the eye opening state corresponding to the eyelid open state may be an eye opening state, and the eye opening state corresponding to the eyelid closed state may be an eye closing state, which is not limited in this example. The state distance value corresponding to the eyelid opening state and the state distance value corresponding to the eyelid closing state of the target user eyes detected by the biosensor may be different, for example, the state distance value when the eyelid is in the opening state may be greater than the state distance value when the eyelid is in the closing state, so the eye opening and closing state may be preset for different state distance values to serve as the preset state corresponding to the state distance value. Specifically, the distance to the eyelid of the eye of the target user can be detected by the plurality of biosensors, and the detection data of the plurality of biosensors can be obtained. And then, a state distance value can be extracted from the detection data of the biosensors, and a preset state corresponding to the state distance value can be determined as the eye opening and closing state of the target user, so that the eye opening and closing state of the target user can be judged through the biosensor data of the biosensors, multi-point sampling is realized, and the detection precision of the eye opening and closing state is improved.

In actual processing, a target user may blink, and at this time, the smart eyeshade may detect that the eye opening/closing state of the target user changes between the eye opening state and the eye closing state in a short time, and the target screen mode corresponding to the eye opening/closing state also changes accordingly. In order to improve the detection precision of the eye opening and closing state of the target user and avoid the problem of frequent change of the target screen mode, the embodiment of the application can determine the detection time of the detection data after the detection data of the biosensor is obtained, and determine the duration corresponding to the state distance value according to the detection time of the detection data, so that the eye opening and closing state of the target user can be judged according to the duration, thereby solving the problem of frequent change of the target screen mode caused by blinking of the target user and improving the detection precision of the eye opening and closing state.

In an optional embodiment, the determining, by the embodiment of the present application, the preset state corresponding to the state distance value as the eye opening and closing state of the target user may specifically include: determining the duration corresponding to the state distance value based on the detection time of the detection data; and under the condition that the duration time reaches a preset time threshold value, determining the preset state as the eye opening and closing state of the target user.

Specifically, a time threshold may be preset, and after determining the duration, it may be determined whether the duration reaches the preset time threshold. If the duration time reaches the preset time threshold, determining that the eye opening and closing state of the target user does not change within the preset time threshold, and determining the preset state as the eye opening and closing state of the target user; if the duration time does not reach the preset time threshold, the target user may blink, the preset state may not be determined as the eye opening and closing state of the target user, whether the target user blinks or not is judged according to the preset time threshold, and the sampling eye opening and closing state may not be determined as the eye opening and closing state of the target user under the condition that the target user blinks is determined, so that the problem that the target screen mode is frequently switched due to the blinking action of the target user can be solved.

As an example, referring to fig. 3, a plurality of biosensors may be respectively installed around a screen of the smart eye patch, for example, 5 biosensors may be respectively installed around screens of a left screen and a right screen, each of the biosensors may be configured to detect eyes of a target user to obtain biosensor data corresponding to the eyes of the target user, and further determine an eye opening and closing state of the target user according to the biosensor data of the biosensors to implement multi-point sampling, and determine the eye opening and closing state of the target user according to the biosensor data obtained by the multi-point sampling, thereby improving detection accuracy of the eye opening and closing state.

Further, in the embodiment of the application, after the biosensor detects the biosensor data, the biosensor data can be processed through a preset algorithm, so that the opening and closing state of the sampling eye can be determined. For example, referring to fig. 4, the smart eye patch may be provided with a Micro Control Unit (MCU) and a Bluetooth Low Energy (BLE) master controller, where the MCU may be configured to control each sensor to perform data acquisition, for example, the MCU may control the biosensor to monitor the eye opening/closing state of the target user, so as to acquire the biosensor data corresponding to the eye of the target user, and then the MCU may process the biosensor data through a built-in algorithm according to the biosensor data to determine the duration corresponding to the state distance value, and then may determine the preset state corresponding to the state distance value as the eye opening/closing state of the target user when the duration reaches a preset time threshold.

And step 220, acquiring ambient light intensity information through an optical sensor of the intelligent eyeshade.

Specifically, the smart eyewear may detect a light intensity index of ambient light in real time by an ambient light sensor, and may use the light intensity index of the ambient light as ambient light intensity information.

Step 230, when the eye opening and closing state is the eye opening state, determining the light transmission mode corresponding to the eye opening state as the target screen mode.

Specifically, in the embodiment of the application, when the eye opening and closing state is the eye opening state, the light transmission mode corresponding to the eye opening state may be determined as the target screen mode, and subsequently, when the target screen mode is the light transmission mode, the display light transmission coefficient of the intelligent eye patch may be gradually adjusted according to the ambient light intensity information detected by the intelligent eye patch.

And 240, when the eye opening and closing state is the eye closing state, determining a shading mode corresponding to the eye closing state as the target screen mode.

Specifically, this application embodiment can be when eyes open and shut the state and be eyes closed state, the shading mode that corresponds eyes closed state is confirmed to be target screen mode, thereby can be under the shading mode, the demonstration transmittance of gradual change formula adjustment intelligence eye-shade, make the light that eyes accepted can progressively switch to the dark state, the realization is according to eyes open and shut the state, confirm the target screen mode that eyes open and shut the state and correspond, on the basis of guaranteeing original eye-shade shading characteristic, the demonstration transmittance of gradual change formula adjustment intelligence eye-shade under the target screen mode, promote user's perception experience.

And 250, gradually adjusting the light transmission coefficient of the display screen of the intelligent eyeshade according to the target screen mode and the ambient light intensity information.

In concrete realization, under the condition that the target screen mode is the printing opacity mode, the demonstration printing opacity coefficient of intelligence eye-shade is adjusted to the intelligence eye-shade according to ambient light intensity information to the gradual change formula, until the demonstration luminance of intelligence eye-shade reaches the luminance threshold value that the printing opacity mode corresponds, make the light that target user's eyes accepted gradually switch to the state synchronous with ambient light from the dark state, the sight that provides a gradual change formula for the user expandes the experience, provide stronger psychological security sense when providing more comfortable more natural use experience for the user.

Optionally, in the embodiment of the present application, when the light transmittance of the display screen includes the light transmittance index of the display screen, the dynamically adjusting the light transmittance index of the display screen of the intelligent eyeshade according to the ambient light intensity information detected by the intelligent eyeshade may specifically include the following sub-steps:

and a substep 2501 of determining a light transmittance index threshold value corresponding to the ambient light intensity information.

Specifically, the transmittance index threshold may be used to determine the maximum brightness of the ambient light, which is not limited in this embodiment of the application. Specifically, in the embodiment of the application, after the intelligent eyeshade detects the ambient light intensity information of the ambient light through the ambient light sensor, the light transmittance index threshold corresponding to the ambient light intensity information can be determined.

As an example, referring to fig. 5, the ambient light sensor of the intelligent eyeshade may be disposed at a position on the upper side between the two display screens, and this example does not limit the installation position of the ambient light sensor, so that the ambient light sensor can rapidly detect the light intensity index of the ambient light, the detected light intensity index of the ambient light is used as the ambient light intensity information, and the light transmittance index of the display screen of the intelligent eyeshade may be gradually adjusted according to the light transmittance index threshold corresponding to the ambient light intensity information.

In the substep 2502, if the transmittance index threshold is greater than the transmittance index of the display screen, based on the target screen mode, the transmittance index is gradually adjusted by combining a preset transmittance coefficient until the adjusted transmittance index reaches the transmittance index threshold.

Specifically, the light transmittance index may be used to determine the display brightness of the intelligent eye mask, for example, the display brightness of the current display screen may be determined, which is not limited in the embodiment of the present application. The preset light transmission coefficient can be used for determining a brightness threshold corresponding to the target screen mode, for example, when the target screen mode is the light transmission mode, the preset light transmission coefficient can be used for determining a brightness threshold corresponding to the display screen of the intelligent eyeshade, the preset light transmission coefficient can be set by a user, and also can be factory-set by the intelligent eyeshade, if the target user can set the light transmission coefficient according to actual requirements, the light transmission coefficient set by the user can be used as the preset light transmission coefficient by the intelligent eyeshade, of course, under the condition that the user does not set the light transmission coefficient, the light transmission coefficient set by the factory can also be used as the preset light transmission coefficient by the intelligent eyeshade, and the preset light transmission coefficient is not limited by the embodiment of the application. Specifically, after determining the transmittance index threshold corresponding to the ambient light intensity information, it may be determined whether the transmittance index threshold corresponding to the ambient light intensity information is greater than the transmittance index of the display screen, for example, it may be determined whether the maximum ambient light brightness corresponding to the ambient light intensity information is greater than the display brightness of the display screen, so that when the transmittance index threshold is greater than the transmittance index of the display screen, that is, the maximum ambient light brightness is greater than the display brightness of the display screen, the transmittance index of the display screen is gradually adjusted in combination with a preset transmittance coefficient, for example, the transmittance index of the display screen is slowly adjusted (that is, the display brightness of the display screen is gradually adjusted), until the adjusted transmittance index reaches the transmittance index threshold (that is, the display brightness of the display screen reaches the maximum ambient light brightness); when the light transmittance index threshold value is not larger than the light transmittance index of the display screen, the maximum ambient light brightness is determined to be not larger than the display brightness of the current display screen, and the display brightness of the display screen can not be adjusted in a gradual change mode. Thereby realize detecting the back that target user's eyes are opened, combine the luminous intensity index of ambient light, the printing opacity index of gradual change adjustment display screen for the light that eyes accepted progressively switches to the state synchronous with ambient light from the dark state, solved current eye shade because the user directly takes off the problem that the eyes that eye shade leads to produce very uncomfortable sense organ experience easily under the highlight environment, for the user provides the sight of a gradual change and expands experience, provide stronger psychological security sense when providing more comfortable more natural use experience for the user.

In a specific implementation, after the transmittance index threshold is determined, it may be determined whether the brightness corresponding to the preset transmittance coefficient is greater than the maximum ambient light brightness corresponding to the transmittance index threshold. If the brightness corresponding to the preset light transmission coefficient is not greater than the maximum ambient light brightness, the intelligent eyeshade can adjust the display brightness corresponding to the display screen to the brightness corresponding to the preset light transmission coefficient when the light transmission index of the display screen is adjusted in a gradual change mode, so that the priority set by a user is ensured, the user can adjust the light transmission coefficient according to personal preference, and the sensory experience of the user is improved; if the brightness corresponding to the preset light transmission coefficient is larger than the maximum ambient light brightness, the intelligent eyeshade can adjust the display brightness corresponding to the display screen to the maximum ambient light brightness corresponding to the light transmission index threshold value when the light transmission index of the display screen is adjusted in a gradual change mode.

In an optional embodiment, the method for controlling an intelligent eyeshade provided in the embodiment of the present application may further include: acquiring a light transmission adjusting operation of a target user for the intelligent eyeshade; determining a user light transmission coefficient according to the light transmission adjusting operation; and taking the user light transmission coefficient as a preset light transmission coefficient. Particularly, the intelligent eyeshade can determine the light transmission coefficient of a user according to the light transmission adjusting operation of a target user, and the light transmission coefficient of the user can be used as a preset light transmission coefficient, so that the user can adjust the light transmission coefficient according to personal preference, and the sensory experience of the user is improved.

As an example, referring to fig. 4, the smart eyewear may be provided with a knob through which a target user may adjust a light transmittance of the smart eyewear, and an ambient light sensor, and the MCU may record the light transmittance set by the target user in real time as a preset light transmittance. Specifically, the MCU may determine an eye opening/closing state of the target user based on a preset state corresponding to the state distance value, determine a light transmittance mode corresponding to the eye opening state as a target screen mode when the eye opening/closing state of the target user is the eye opening state, then the MCU may acquire ambient light intensity information detected by the ambient light sensor, determine a light transmittance index threshold corresponding to the ambient light intensity information, and further acquire a light transmittance index of the current display screen, determine whether the light transmittance index threshold is greater than the light transmittance index of the display screen, so that when the light transmittance index threshold is greater than the light transmittance index of the display screen, the light transmittance index of the display screen is gradually adjusted by combining the preset light transmittance coefficient, for example, the light transmittance index of the screen-L and the light transmittance index of the smart eyewear may be gradually adjusted by using the screen driver, until the adjusted light transmittance index reaches the light transmittance index threshold, that at this time, the light intensity sensed by the target user through the smart eyewear is the same as the light intensity of the ambient light.

In summary, the intelligent eyeshade of the application acquires the eye opening and closing state of a target user through a biosensor, acquires the ambient light intensity information through an optical sensor, determines a target screen mode according to the eye opening and closing state, and gradually adjusts the light transmission coefficient of the display screen of the intelligent eyeshade according to the target screen mode and the ambient light intensity information, so that after the eyes are detected to be closed, the light transmission coefficient of the display screen of the intelligent eyeshade is gradually adjusted by combining the ambient light intensity information, the display screen is switched from the light transmission mode to the shading mode, and the user is helped to quickly shade light and fall asleep; when the eyes are detected to be opened, the light transmission coefficient of the display screen is adjusted in a gradual change mode by combining with the ambient light intensity information, so that the light received by the eyes is gradually switched from a dark state to a state synchronous with ambient light, a gradual change type sight line expansion experience is provided for a user, and the use experience of the user is improved.

Referring to fig. 6, a flowchart illustrating steps of a method for controlling an intelligent eyewear according to an alternative embodiment of the present application is shown. The control method of the intelligent eye mask specifically comprises the following steps

And step 610, acquiring the eye opening and closing state of the target user through a biosensor of the intelligent eyeshade.

And step 620, acquiring ambient light intensity information through a light sensor of the intelligent eyeshade.

Step 630, determining a target screen mode according to the eye opening and closing state.

And step 640, if the target screen mode is a shading mode, collecting sleep state monitoring data corresponding to the target user.

Specifically, the sleep state detection data may include body movement data of the target user, which is not limited in this embodiment of the present application. Specifically, when the target screen mode is the shading mode, the sleep state monitoring data corresponding to the target user may be collected, so that the sleep state, the sleep posture, and the like of the target user may be determined according to the sleep state monitoring data, where the sleep state may be used to determine whether the target user enters deep sleep.

As an example, referring to fig. 4, the smart eyewear may be provided with an acceleration sensor (G-sensor), and when it is determined that the target screen mode is the shading mode, it may be determined that the target user enters a sleep state, and then the MCU may control the acceleration sensor to collect body movement data of the sleep state of the user as sleep state monitoring data, and then the sleep state monitoring data may be analyzed and processed using a preset sleep monitoring algorithm to determine the sleep state and the sleep posture of the target user, for example, a difference change between the body movement data may be analyzed by the sleep monitoring algorithm to determine whether the target user enters a deep sleep state and a current sleep posture of the target user.

And 650, sending a sleep detection result to the intelligent associated equipment of the target user according to the sleep state monitoring data.

The intelligent associated equipment is used for playing the designated audio data preset by the target user based on the sleep detection result.

Specifically, the intelligent associated device may be a device associated with the intelligent eyeshade, and the intelligent associated device may include a mobile phone, an intelligent watch, an intelligent bracelet, a bluetooth headset, and other intelligent devices. After the sleep state monitoring data is determined, the sleep state, the sleep posture and the like of the target user can be determined based on the sleep state monitoring data, the sleep detection result can be generated based on the sleep state and the sleep posture of the target user, then the sleep detection result can be sent to the intelligent associated equipment of the target user, and after the intelligent associated equipment receives the sleep detection result, designated audio data preset by the target user can be played based on the sleep detection result, and if the designated audio data can contain sleep-aid music and the like, the method is not limited by the embodiment of the application.

As an example, referring to fig. 4, the smart eyewear may be provided with bluetooth low energy and a speaker, the smart eyewear may be associated with the smart associated device of the target user through the bluetooth low energy, for example, the bluetooth of the smart associated device may be associated with the bluetooth low energy of the smart eyewear through an Application (App), and the target user may also set one or more sleep-assisting audio data through the App to serve as the preset designated audio data of the target user. Specifically, after determining the sleep detection result of the target user, the intelligent eye patch may send the sleep detection result to the intelligent associated device of the target user through the BLE master control, so that the intelligent associated device may play the specified audio data preset by the target user based on the received sleep detection result of the target user. Particularly, intelligence associated equipment can be through bluetooth low energy to the appointed audio data that target user predetermines of intelligence eye-shade transmission, and this appointed audio data can be received through bluetooth low energy to intelligence eye-shade, and MCU or BLE master control in the intelligence eye-shade can control this appointed audio data of loudspeaker broadcast of intelligence eye-shade afterwards to can provide good sleep environment for the user, realize more intelligent human-computer interaction, reinforcing user's use is experienced.

And 660, receiving alarm clock information sent by the intelligent associated equipment.

Specifically, the alarm clock information may include a user wake-up time, a user wake-up ring, and the like, which is not limited in the embodiment of the present application. Specifically, the target user can set alarm clock information in advance through the intelligent association device, if the wake-up time, the wake-up ring and the like can be set, the intelligent association device can acquire the current time in real time, and can generate the alarm clock information based on the wake-up time, the wake-up ring and the like set by the target user when the current time reaches the wake-up time, and then the alarm clock information can be sent to the intelligent eyeshade, so that the target user can be waken up according to the alarm clock information, and the user wake-up function is achieved.

And step 670, determining the user wake-up time based on the alarm clock information.

In specific implementation, after the intelligent eyeshade receives the alarm clock information, the user awakening time can be determined based on the alarm clock information, whether the current time reaches the user awakening time or not can be judged, and when the current time reaches the user awakening time, the target screen mode is switched to the light transmission mode from the shading mode based on the user awakening time.

Step 680, based on the user wake-up time, switching the target screen mode from the light shielding mode to the light transmitting mode.

Specifically, this application embodiment can be based on user wake-up time, switch over the target screen mode to the printing opacity mode from the shading mode, thereby can be under the printing opacity mode, the printing opacity index of gradual change formula adjustment display screen, make the light that target user's eyes accepted progressively switch to the state synchronous with ambient light from the dark state, thereby solved current eye shade because the user directly takes off the problem that the eyes that eye shade leads to produce very uncomfortable sense organ experience under the highlight environment, make user's eyes can adapt to the highlight gradually, uncomfortable sense organ experience such as highlight dazzling has been avoided, can effectively improve photophobic crowd's the sense of security in mind.

In a specific implementation, after the intelligent eyeshade receives the alarm clock information, the user awakening time can be determined based on the alarm clock information, and then when the current time reaches the user awakening time, or when the current time reaches the previous moment of the user awakening time, or when the current time reaches the next moment of the user awakening time, the user awakening ringtone contained in the alarm clock information is played through the built-in loudspeaker, and the user is awakened through the ringtone.

Furthermore, in the embodiment of the application, the intelligent eyeshade can automatically switch the target screen mode of the intelligent eyeshade from the shading mode to the light transmission mode at the moment before or after the user awakens the ringtone, and can gradually adjust the light transmission index of the display screen of the intelligent eyeshade in the light transmission mode, so that the user awakens the intelligent eyeshade through sound and light intensity changes.

Further, the intelligent eyewear in the embodiments of the present application may be provided with a vibration motor. For example, referring to fig. 4, when the intelligent eyeshade plays a user wake-up ring included in the alarm clock information through a built-in speaker, the intelligent eyeshade can also vibrate through a vibration motor, so that the user can be woken up through vibration.

In summary, according to the embodiment of the application, the eye opening and closing state of a target user is obtained through a biosensor of an intelligent eyeshade, environmental light intensity information is obtained through an optical sensor of the intelligent eyeshade, then the target screen mode is determined according to the eye opening and closing state, when the target screen mode corresponding to the eye opening and closing state is a shading mode, sleep state monitoring data corresponding to the target user are collected, according to the sleep state monitoring data, a sleep detection result is sent to intelligent associated equipment of the target user, designated audio data preset by the target user are played through the intelligent associated equipment, and therefore a good sleep environment can be provided for the user.

It should be noted that for simplicity of description, the method embodiments are described as a series of acts, but those skilled in the art should understand that the embodiments are not limited by the described order of acts, as some steps can be performed in other orders or simultaneously according to the embodiments.

As shown in fig. 7, an embodiment of the present application further provides a control apparatus 700 for an intelligent eyeshade, including:

an eye opening and closing state acquisition module 710, configured to acquire an eye opening and closing state of a target user through a biosensor of an intelligent eyeshade;

an ambient light intensity information obtaining module 720, configured to obtain ambient light intensity information through an optical sensor of the intelligent eye patch;

a target screen mode determining module 730, configured to determine a target screen mode according to the eye opening and closing state;

and the display screen light transmission coefficient adjusting module 740 is used for adjusting the display screen light transmission coefficient of the intelligent eyeshade in a gradual change manner according to the target screen mode and the ambient light intensity information.

Optionally, the module for acquiring the opening and closing state of the eye includes:

the detection data determination sub-module is used for detecting the eyes of the target user through at least two biosensors to obtain the detection data of each biosensor;

the state distance value determining submodule is used for determining a state distance value according to the detection data of the biosensor;

and the eye opening and closing state determining submodule is used for determining the preset state corresponding to the state distance value as the eye opening and closing state of the target user.

Optionally, the eye opening and closing state determining submodule includes:

a duration determining unit, configured to determine a duration corresponding to the state distance value based on a detection time of the detection data;

and the eye opening and closing state determining unit is used for determining the preset state as the eye opening and closing state of the target user under the condition that the duration time reaches a preset time threshold value.

Optionally, the target screen mode determining module includes:

the light transmission mode determining submodule is used for determining the light transmission mode corresponding to the eye opening state as the target screen mode when the eye opening and closing state is the eye opening state;

and the shading mode determining submodule is used for determining the shading mode corresponding to the eye closing state as the target screen mode when the eye opening and closing state is the eye closing state.

Optionally, the display screen transmittance adjusting module includes:

a light transmittance index threshold value determining submodule for determining a light transmittance index threshold value corresponding to the ambient light intensity information;

and the gradual change type adjusting module is used for gradually adjusting the light transmittance index based on a target screen mode by combining a preset light transmittance coefficient when the light transmittance index threshold is larger than the light transmittance index of the display screen until the adjusted light transmittance index reaches the light transmittance index threshold.

Optionally, the control device for the intelligent eyeshade further comprises:

the sleep state monitoring data collection module is used for collecting the sleep state monitoring data corresponding to the target user when the target screen mode is a shading mode;

and the sleep detection result sending module is used for sending a sleep detection result to the intelligent associated equipment of the target user according to the sleep state monitoring data, and the intelligent associated equipment is used for playing the preset designated audio data of the target user based on the sleep detection result.

Optionally, the control device for the intelligent eyeshade further comprises:

the alarm clock information receiving module is used for receiving alarm clock information sent by the intelligent associated equipment;

the user wake-up time determining module is used for determining the user wake-up time based on the alarm clock information;

and the mode switching module is used for switching the target screen mode from the light shading mode to the light transmitting mode based on the user awakening time.

Optionally, the control device for the intelligent eyeshade further comprises:

the light transmission adjusting operation acquisition module is used for acquiring light transmission adjusting operation of a target user for the intelligent eyeshade;

the user light transmission coefficient determining module is used for determining a user light transmission coefficient according to the light transmission adjusting operation;

and the preset light transmission coefficient determining module is used for taking the user light transmission coefficient as a preset light transmission coefficient.

The control device for the intelligent eyeshade provided by the embodiment of the application can execute the control method for the intelligent eyeshade provided by any embodiment of the application, and has the corresponding functions and beneficial effects of executing the control method for the intelligent eyeshade.

In a specific implementation, the control device of the intelligent eyeshade can be integrated in a device, so that the device can determine a target screen mode according to the data of the biosensor, and then gradually adjust the light transmission coefficient of the display screen of the intelligent eyeshade based on the target screen mode and the ambient light intensity information, so as to serve as the intelligent eyeshade device, and realize dynamic adjustment of the shading and light transmission modes of the intelligent eyeshade according to the eye opening and closing states. The intelligent eye-shield device may be composed of two or more physical entities, or may be composed of one physical entity, for example, the intelligent eye-shield device may be a Personal Computer (PC), a Computer, a server, or the like, which is not particularly limited in the embodiments of the present application.

As shown in fig. 8, the present embodiment provides an intelligent eyewear device, which includes a processor 111, a communication interface 112, a memory 113 and a communication bus 114, wherein the processor 111, the communication interface 112 and the memory 113 complete communication with each other through the communication bus 114; a memory 113 for storing a computer program; the processor 111 is configured to implement the steps of the control method for the intelligent eyeshade provided by any one of the foregoing method embodiments when executing the program stored in the memory 113. Illustratively, the steps of the control method of the intelligent eyeshade may include the steps of: acquiring the eye opening and closing state of a target user through a biosensor of an intelligent eyeshade; acquiring ambient light intensity information through a light sensor of an intelligent eyeshade; determining a target screen mode according to the eye opening and closing state; and gradually adjusting the light transmission coefficient of the display screen of the intelligent eye shield according to the target screen mode and the ambient light intensity information.

The present application further provides a computer readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to implement the steps of the control method of the intelligent eyewear provided in any of the foregoing method embodiments.

It is noted that, in this document, relational terms such as "first" and "second," and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. A control method of an intelligent eyeshade is characterized by comprising the following steps:

acquiring the eye opening and closing state of a target user through a biosensor of an intelligent eyeshade;

acquiring ambient light intensity information through a light sensor of an intelligent eyeshade;

determining a target screen mode according to the eye opening and closing state;

and gradually adjusting the light transmission coefficient of the display screen of the intelligent eye shield according to the target screen mode and the ambient light intensity information.

2. The method of claim 1, wherein the obtaining of the eye opening and closing state of the target user through the biosensor of the smart eyewear comprises:

detecting the eyes of the target user through at least two biosensors to obtain detection data of each biosensor;

determining a state distance value according to the detection data of the biosensor;

and determining the preset state corresponding to the state distance value as the eye opening and closing state of the target user.

3. The method according to claim 2, wherein the determining the preset state corresponding to the state distance value as the eye opening and closing state of the target user comprises:

determining the duration corresponding to the state distance value based on the detection time of the detection data;

and under the condition that the duration time reaches a preset time threshold value, determining the preset state as the eye opening and closing state of the target user.

4. The method of claim 1, wherein determining a target screen mode based on the eye-closing state comprises:

when the eye opening and closing state is an eye opening state, determining a light transmission mode corresponding to the eye opening state as the target screen mode;

and when the eye opening and closing state is the eye closing state, determining a shading mode corresponding to the eye closing state as the target screen mode.

5. The method of claim 1, wherein the display screen transmittance comprises a display screen transmittance index, and wherein the step of gradually adjusting the display screen transmittance of the intelligent eyewear according to the target screen mode and the ambient light intensity information comprises:

determining a light transmittance index threshold value corresponding to the ambient light intensity information;

if the light transmittance index threshold is larger than the light transmittance index of the display screen, based on a target screen mode, combining a preset light transmittance coefficient to carry out gradual change type adjustment on the light transmittance index until the adjusted light transmittance index reaches the light transmittance index threshold.

6. The method of claim 1, further comprising:

if the target screen mode is a shading mode, collecting sleep state monitoring data corresponding to the target user;

and sending a sleep detection result to intelligent associated equipment of the target user according to the sleep state monitoring data, wherein the intelligent associated equipment is used for playing designated audio data preset by the target user based on the sleep detection result.

7. The method of claim 6, wherein after sending the sleep detection result to the smart associated device of the target user, further comprising:

receiving alarm clock information sent by the intelligent associated equipment;

determining a user wake-up time based on the alarm clock information;

switching the target screen mode from the light blocking mode to the light transmitting mode based on the user wake-up time.

8. The method according to any one of claims 1 to 5, further comprising:

acquiring a light transmission adjusting operation of a target user aiming at the intelligent eyeshade;

determining a user light transmission coefficient according to the light transmission adjusting operation;

and taking the user light transmission coefficient as a preset light transmission coefficient.

9. A control device for an intelligent eye shield, comprising:

the eye opening and closing state acquisition module is used for acquiring the eye opening and closing state of a target user through a biosensor of the intelligent eyeshade;

the environment light intensity information acquisition module is used for acquiring environment light intensity information through an optical sensor of the intelligent eyeshade;

the target screen mode determining module is used for determining a target screen mode according to the eye opening and closing state;

and the display screen light transmission coefficient adjusting module is used for adjusting the display screen light transmission coefficient of the intelligent eye patch in a gradual change mode according to the target screen mode and the ambient light intensity information.

10. The intelligent eyeshade equipment is characterized by comprising a processor, a communication interface, a memory and a communication bus, wherein the processor and the communication interface are used for realizing mutual communication through the communication bus;

a memory for storing a computer program;

a processor for implementing the steps of the method of controlling the intelligent eyewear of any of claims 1-8 when executing the program stored in the memory.

11. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method for controlling a smart eyewear according to any one of claims 1 to 8.

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