CN106445164A - Adjusting method and device of intelligent glasses - Google Patents

Abstract

The present disclosure relates to a method and device for adjusting smart glasses. The method includes: collecting the user's first blinking action through a camera, starting a glasses adjustment mode corresponding to the first blinking action according to the first blinking action, and adjusting the glasses In this mode, the camera collects the user's second blinking action, and adjusts the parameters of the smart glasses according to the second blinking action. In this method, the user only needs to blink to complete the adjustment of the parameters of the smart glasses, which is convenient for adjustment and brings better experience to the user.

Description

Adjustment method and device for smart glasses

technical field

The present disclosure relates to smart device technology, and in particular to a method and device for adjusting smart glasses.

Background technique

Smart glasses, like smartphones, have an independent operating system. Users can install software, games and other programs provided by software service providers. They can complete adding schedules, map navigation, interacting with friends, taking photos and videos, etc. through voice or motion control. It can carry out functions such as video calls with friends, and can realize wireless network access through the mobile communication network. At present, most smart glasses do not have myopia and hyperopia functions. Even if they have myopia and hyperopia functions, users need to manually adjust the degrees of myopia and hyperopia.

Contents of the invention

In order to overcome the problems existing in related technologies, the present disclosure provides a method and device for adjusting smart glasses.

According to a first aspect of an embodiment of the present disclosure, a method for adjusting smart glasses is provided, including:

Capture the user's first blinking action through the camera;

Starting a glasses adjustment mode corresponding to the first blinking action according to the first blinking action;

In the glasses adjustment mode, collecting the user's second blinking action through the camera;

Adjusting parameters of the smart glasses according to the second blink action.

Optionally, the collecting the first blink action of the user through the camera includes:

The number of blinks and the closing action of the other eye of the user's eye to be adjusted within the first time are collected by the camera, the eye to be adjusted is the left eye or the right eye, and the closing action of the other eyeglasses It is used to confirm the end of the blinking action of the eye to be adjusted;

The starting the glasses adjustment mode corresponding to the first blinking action according to the first blinking action includes:

When the other eye is closed for T seconds, start the myopia adjustment mode or the hyperopia adjustment mode of the eye to be adjusted according to the number of blinks of the eye to be adjusted within the first time, wherein the myopia adjustment The number of blinks of the eyes to be adjusted in the first time is different under the mode and the hyperopia adjustment mode;

In the glasses adjustment mode, collecting the second blinking action of the user through the camera includes:

In the myopia adjustment mode or the hyperopia adjustment mode, the blink frequency of the eye to be adjusted is collected by the camera;

The adjusting the parameters of the smart glasses according to the second blink action includes:

Adjust the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the blink frequency of the eye to be adjusted, wherein, in the same mode, the blink frequency of the eye to be adjusted is different when increasing the lens degree and decreasing the lens degree .

Optionally, the greater the blink frequency of the eye to be adjusted, the greater the adjustment amount of the lens power corresponding to the eye to be adjusted.

Optionally, the collecting the first blink action of the user through the camera includes:

The number of blinks and the closing action of the other eye of the user's eye to be adjusted within the first time are collected by the camera, the eye to be adjusted is the left eye or the right eye, and the closing action of the other eyeglasses It is used to confirm the end of the blinking action of the eye to be adjusted;

The starting the glasses adjustment mode corresponding to the first blinking action according to the first blinking action includes:

When the other eye is closed for T seconds, start the myopia adjustment mode or the hyperopia adjustment mode of the eye to be adjusted according to the number of blinks of the eye to be adjusted within the first time, wherein the myopia adjustment The number of blinks of the eyes to be adjusted in the first time is different under the mode and the hyperopia adjustment mode;

In the glasses adjustment mode, collecting the second blinking action of the user through the camera includes:

In the myopia adjustment mode or the hyperopia adjustment mode, the number of blinks of the eye to be adjusted and the user's eye-closing action are collected by the camera, and the eye-closing action is used to confirm the eye movement of the eye to be adjusted. end of blink

The adjusting the parameters of the smart glasses according to the second blink action includes:

After the eyes are closed for T seconds, adjust the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the number of blinks of the eye to be adjusted, wherein, in the same mode, when increasing the degree and decreasing the degree, the The number of blinks of the eyes to be adjusted varies.

Optionally, the more the blink times of the eye to be adjusted, the greater the adjustment amount of the lens diopter corresponding to the eye to be adjusted.

Optionally, the collecting the first blink action of the user through the camera includes:

Collecting the number of blinks of the user's eyes within a second time period through the camera;

The starting the glasses adjustment mode corresponding to the first blinking action according to the first blinking action includes:

Start the brightness adjustment mode according to the number of blinks of the eyes within the second time;

In the glasses adjustment mode, collecting the second blinking action of the user through the camera includes:

In the brightness adjustment mode, the blink frequency of the eyes is collected by the camera;

The adjusting the parameters of the smart glasses according to the second blink action includes:

The brightness of the smart glasses is adjusted according to the blinking frequency of the two eyes, wherein the blinking frequency of the two eyes is different when the brightness of the smart glasses is increased or decreased.

Optionally, the greater the blinking frequency of the two eyes is, the greater the adjustment amount of the brightness of the smart eye is.

Optionally, the collecting the first blink action of the user through the camera includes:

collecting the number of blinks of the user's eyes within a second time period through the camera;

The starting the glasses adjustment mode corresponding to the first blinking action according to the first blinking action includes:

Start the brightness adjustment mode according to the blinking action of the eyes;

In the glasses adjustment mode, collecting the second blinking action of the user through the camera includes:

In the brightness adjustment mode, the camera collects the number of times the user blinks and the eye-closing action, and the eye-closing action is used to confirm the end of the eye-blinking action;

The adjusting the parameters of the smart glasses according to the second blink action includes:

After the eyes are closed for T seconds, the brightness of the smart glasses is adjusted according to the number of blinks of the eyes, wherein the number of blinks of the eyes is different when the brightness of the smart glasses is increased or decreased.

Optionally, the more the blinking times of the two eyes are, the greater the adjustment amount of the brightness of the smart eye is.

According to a second aspect of an embodiment of the present disclosure, an adjustment device for smart glasses is provided, including:

The first collection module is configured to collect the user's first blink action through the camera;

The starting module is configured to start the glasses adjustment mode corresponding to the first blinking action according to the first blinking action;

The second collection module is configured to collect the user's second blinking action through the camera in the glasses adjustment mode;

An adjustment module configured to adjust parameters of the smart glasses according to the second blink action.

Optionally, the first collection module includes:

The first collection sub-module is configured to use the camera to collect the number of blinks of the user's eye to be adjusted within a first time period and the closing action of the other eye, the eye to be adjusted is the left eye or the right eye, The closing action of the other eyeglasses is used to confirm the end of the blinking action of the eye to be adjusted;

The startup module includes:

The first promoter module is configured to start the myopia adjustment mode or hyperopia of the eye to be adjusted according to the number of blinks of the eye to be adjusted within the first time when the other eye is closed for T seconds An adjustment mode, wherein the number of blinks of the eye to be adjusted within the first time period is different between the myopia adjustment mode and the hyperopia adjustment mode;

The second collection module includes:

The second acquisition sub-module is configured to collect the blink frequency of the eye to be adjusted through the camera in the myopia adjustment mode or the hyperopia adjustment mode;

The adjustment module includes:

The first adjustment sub-module is configured to adjust the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the blink frequency of the eye to be adjusted, wherein, in the same mode, when increasing the lens power and decreasing the lens power The blinking frequencies of the eyes to be adjusted are different.

Optionally, the greater the blink frequency of the eye to be adjusted, the greater the adjustment amount of the lens power corresponding to the eye to be adjusted.

Optionally, the first collection module includes:

The first collection sub-module is configured to use the camera to collect the number of blinks of the user's eye to be adjusted within a first time period and the closing action of the other eye, the eye to be adjusted is the left eye or the right eye, The closing action of the other eyeglasses is used to confirm the end of the blinking action of the eye to be adjusted;

The startup module includes:

The first promoter module is configured to start the myopia adjustment mode or hyperopia of the eye to be adjusted according to the number of blinks of the eye to be adjusted within the first time when the other eye is closed for T seconds An adjustment mode, wherein the number of blinks of the eye to be adjusted within the first time period is different between the myopia adjustment mode and the hyperopia adjustment mode;

The second collection module includes:

The third acquisition sub-module is configured to collect, through the camera, the number of blinks of the eye to be adjusted and the user's eye-closing action in the myopia adjustment mode or the hyperopia adjustment mode. It is used to confirm the end of the blinking action of the eye to be adjusted;

The adjustment module includes:

The second adjustment sub-module is configured to adjust the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the number of blinks of the eye to be adjusted after the eyes are closed for T seconds, wherein, in the same mode, The number of blinks of the eye to be adjusted is different when increasing the diopter and decreasing the diopter.

Optionally, the more the blink times of the eye to be adjusted, the greater the adjustment amount of the lens diopter corresponding to the eye to be adjusted.

Optionally, the first collection module includes:

The fourth collection sub-module is configured to use the camera to collect the number of blinks of the user's eyes within the second time;

The startup module includes:

The second promoter module is configured to start the brightness adjustment mode according to the number of times the eyes blink within a second time;

The second collection module includes:

The fifth collection sub-module is configured to collect the blink frequency of both eyes through the camera in the brightness adjustment mode;

The adjustment module includes:

The third adjustment sub-module is configured to adjust the brightness of the smart glasses according to the blinking frequency of the two eyes, wherein the blinking frequency of the two eyes is different when the brightness of the smart glasses is increased or decreased.

Optionally, the greater the blinking frequency of the two eyes is, the greater the adjustment amount of the brightness of the smart eye is.

Optionally, the first collection module includes:

The fourth collection sub-module is configured to collect the number of blinks of the user's eyes within a second time period through the camera;

The startup module includes:

The second promoter module is configured to start the brightness adjustment mode according to the blinking action of the eyes;

The second collection module includes:

The second collection module includes:

The sixth acquisition sub-module is configured to collect the number of times the user blinks and the eye-closing action through the camera in the brightness adjustment mode, and the eye-closing action is used to confirm the end of the eye-blinking action;

The adjustment module includes:

The fourth adjustment sub-module is configured to adjust the brightness of the smart glasses according to the number of blinks of the eyes after the eyes are closed for T seconds, wherein the brightness of the eyes is increased or decreased when the brightness of the smart glasses is increased or decreased. The number of blinks varies.

Optionally, the more the blinking times of the two eyes are, the greater the adjustment amount of the brightness of the smart eye is.

According to a third aspect of an embodiment of the present disclosure, an adjustment device for smart glasses is provided, including:

memory;

memory configured to store processor-executable instructions;

Wherein, the processor is configured as:

Capture the user's first blinking action through the camera;

Starting a glasses adjustment mode corresponding to the first blinking action according to the first blinking action;

In the glasses adjustment mode, collecting the user's second blinking action through the camera;

Adjusting parameters of the smart glasses according to the second blink action.

The technical solutions provided by the embodiments of the present disclosure may include the following beneficial effects: collect the user's first blinking action through the camera, and start the glasses adjustment mode corresponding to the first blinking action according to the first blinking action, and in the glasses adjustment mode, The second blinking action of the user is collected by the camera, and the parameters of the smart glasses are adjusted according to the second blinking action. In this method, the user only needs to blink to complete the adjustment of the parameters of the smart glasses, which is convenient for adjustment and brings better experience to the user.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the present disclosure.

Description of drawings

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

Fig. 1 is a flowchart showing a method for adjusting smart glasses according to an exemplary embodiment.

Fig. 2 is a flow chart showing a method for adjusting smart glasses according to an exemplary embodiment.

Fig. 3 is a flow chart showing a method for adjusting smart glasses according to an exemplary embodiment.

Fig. 4 is a flow chart showing a method for adjusting smart glasses according to an exemplary embodiment.

Fig. 5 is a flowchart showing a method for adjusting smart glasses according to an exemplary embodiment.

Fig. 6 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment.

Fig. 7 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment.

Fig. 8 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment.

Fig. 9 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment.

Fig. 10 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment.

Fig. 11 is a physical block diagram of an adjusting device for smart glasses according to an exemplary embodiment.

detailed description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numerals in different drawings refer to the same or similar elements unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the present invention. Rather, they are merely examples of apparatuses and methods consistent with aspects of the invention as recited in the appended claims.

Fig. 1 is a flow chart of a method for adjusting smart glasses according to an exemplary embodiment, the method is executed by smart glasses, the smart glasses are equipped with a camera or connected to other devices with cameras, through other The camera of the device acquires the blinking action of the user, as shown in FIG. 1 , the method for adjusting the smart glasses includes the following steps.

In step S101, a first blinking action of a user is collected by a camera.

The purpose of the first blinking action is to start the glasses adjustment mode. The first blinking action can be the number of blinks of the left eye within a preset time plus the closing action of the right eye, wherein the closing action of the right eye is used to confirm the blinking of the left eye The action is over. The first blink action can also be the number of blinks of the right eye within a preset time plus the closing action of the left eye, or the first blink action is the number of blinks of both eyes within a preset time. Here is just an example, and the first blinking action is not limited to the above-mentioned blinking actions.

In step S102, a glasses adjustment mode corresponding to the first blinking action is activated according to the first blinking action.

In this embodiment, the glasses adjustment mode includes a myopia adjustment mode, a hyperopia adjustment mode, and a brightness adjustment mode. The brightness of the glasses, wherein, different first blink actions correspond to different glasses adjustment modes, and the corresponding relationship between each first blink action and the glasses adjustment mode is preset. For example, the left eye blinks N1 times within 10 seconds for starting In the myopia adjustment mode of the left eye, the left eye blinks N2 times within 10 seconds to activate the hyperopia adjustment mode of the left eye, and the eyes blink N1 times within 10 seconds to activate the brightness adjustment mode.

In step S103, in the glasses adjustment mode, the second blinking action of the user is collected by the camera.

After the glasses adjustment mode is activated, the camera collects the second blinking action of the user. The second blinking action can be the blinking frequency of the left eye, the right eye, or both eyes, or the number of blinks.

In step S104, parameters of the smart glasses are adjusted according to the second blink action.

Wherein, the second blinking action is used to adjust the parameters of the smart glasses, and the parameters of the smart glasses to be adjusted include the degree of myopia, the degree of hyperopia, and the brightness of the glasses.

In this embodiment, the first blinking action of the user is collected by the camera, and the glasses adjustment mode corresponding to the first blinking action is started according to the first blinking action. In the glasses adjustment mode, the second blinking action of the user is collected by the camera, A parameter of the smart glasses is adjusted according to the second blink action. In this method, the user only needs to blink to complete the adjustment of the parameters of the smart glasses, which is convenient for adjustment and brings better experience to the user.

On the basis of the embodiment shown in FIG. 1 , FIG. 2 is a flowchart of a method for adjusting smart glasses according to an exemplary embodiment. As shown in FIG. 2 , the method for adjusting smart glasses includes the following steps.

In step S201, the number of blinks of the user's eye to be adjusted and the closing action of the other eye within a first time period are collected by the camera.

In this embodiment, the first blinking action is the number of blinks of the eye to be adjusted within the first time and the closing action of the other eye, wherein the eye to be adjusted is the left eye or the right eye, and the closing action of the other eyeglasses To confirm the end of the blinking movement of the eye to be accommodated. The first time and the number of blinks of the eye to be adjusted in the first time are predefined. The first time can be 5 seconds, 10 seconds, 20 seconds, 1 minute, etc. The number of blinks of the eye to be adjusted in the first time can be 1, 2, 3, 4, 5 times etc.

In step S202, when the other eye is closed for T seconds, the myopia adjustment mode or the hyperopia adjustment mode of the eye to be adjusted is activated according to the number of blinks of the eye to be adjusted within the first time period.

Wherein, the number of blinks of the eye to be adjusted in the first time is different in the myopia adjustment mode and the hyperopia adjustment mode. For example, if the myopia adjustment mode is to be activated, the number of blinks of the eye to be adjusted within the first time is 2; if the hyperopia adjustment mode is to be activated, the number of blinks of the eye to be adjusted within the first time is 3 times. Optionally, when the myopia adjustment mode of the left eye is activated and the myopia adjustment mode of the right eye is activated, the number of blinks of the left eye within the first time period and the number of blinks of the right eye within the first time period may be the same or different.

In step S203, in the myopia adjustment mode or the hyperopia adjustment mode, the blink frequency of the eye to be adjusted is collected by the camera.

In this embodiment, the second blink action is the blink frequency of the eye to be adjusted, and the blink frequency of the eye to be adjusted is the number of blinks of the eye to be adjusted within a preset time. Specifically, after starting the myopia adjustment mode, the smart glasses start timing, and at the same time, the camera starts to collect the number of blinks of the eye to be adjusted within the preset time. The blink rate of the eye.

In step S204, the degree of myopia or the degree of hyperopia of the lens corresponding to the eye to be adjusted is adjusted according to the blink frequency of the eye to be adjusted.

Taking the myopia adjustment mode as an example, adjusting the degree of myopia of the lens corresponding to the eye to be adjusted includes increasing the degree of myopia and reducing the degree of myopia. The blink rate of the eye to be accommodated is different when the power is reduced and when the lens power is reduced. That is, in the myopia adjustment mode, when increasing the myopia degree of the lens and reducing the myopia degree of the lens, the blink frequency of the eye to be adjusted is different; The blink rate of the regulating eye varies. However, for two different adjustment modes, when increasing the hyperopic degree of the eyeglasses and increasing the myopia degree of the eyeglasses, the blinking frequency of the eyes to be adjusted can be the same or different. , the blinking frequency of the eyes to be adjusted can be the same or different.

In the myopia adjustment mode, only two blink frequencies can be defined: T1 and T2, T1 is used to increase the degree of myopia of the lens, and T2 is used to reduce the degree of myopia of the lens. Optionally, in the myopia adjustment mode, more blink frequencies can also be defined, wherein the greater the blink frequency of the eye to be adjusted, the greater the adjustment amount of the lens power corresponding to the eye to be adjusted. For example, four blink frequencies are defined: T1, T2, T3, T4, where T1 and T3 are used to increase the degree of myopia of the lens, T1 is less than T3, T2 and T4 are used to reduce the degree of myopia of the lens, and T2 is less than T4. When the blink frequency of the spectacles to be adjusted is T1, the diopter of the lens corresponding to the eye to be adjusted is increased by 10 degrees, and when the blink frequency of the spectacles to be adjusted is T3, the diopter of the lens corresponding to the eye to be adjusted is increased by 20 degrees. When the blink frequency of the glasses to be adjusted is T2, the lens power corresponding to the eye to be adjusted is reduced by 10 degrees, and when the blink frequency of the glasses to be adjusted is T4, the lens power corresponding to the eye to be adjusted is reduced by 20 degrees. For the farsightedness adjustment mode, two or more blink frequencies can also be defined. The greater the blink frequency of the eye to be adjusted, the greater the adjustment amount of the lens degree corresponding to the eye to be adjusted.

In this embodiment, the number of blinks of the user's eye to be adjusted within the first time and the closing action of the other eye are collected through the camera. Start the myopia adjustment mode or hyperopia adjustment mode of the eye to be adjusted. In the myopia adjustment mode or hyperopia adjustment mode, the blink frequency of the eye to be adjusted is collected through the camera, and the eye to be adjusted is adjusted according to the blink frequency of the eye to be adjusted. The degree of nearsightedness or farsightedness of the lens. In this method, the user only needs to blink to complete the adjustment of the degree of myopia and the degree of hyperopia of the smart glasses, which brings a better experience to the user.

On the basis of the embodiment shown in FIG. 1 , FIG. 3 is a flow chart showing a method for adjusting smart glasses according to an exemplary embodiment. As shown in FIG. 3 , the method for adjusting smart glasses includes the following steps.

In step S301, the number of blinks of the user's eye to be adjusted and the closing action of the other eye within a first time period are collected by the camera.

In this embodiment, the first blinking action is the number of blinks of the eye to be adjusted within the first time and the closing action of the other eye, wherein the eye to be adjusted is the left eye or the right eye, and the closing action of the other eyeglasses To confirm the end of the blinking movement of the eye to be accommodated.

In step S302, when the other eye is closed for T seconds, the myopia adjustment mode or the hyperopia adjustment mode of the eye to be adjusted is activated according to the number of blinks of the eye to be adjusted within the first time period.

Wherein, the number of blinks of the eye to be adjusted in the first time is different in the myopia adjustment mode and the hyperopia adjustment mode.

In step S303, in the near-sighted adjustment mode or the far-sightedness adjusted mode, the number of blinks of the eye to be adjusted and the user's eye-closing action are collected through the camera.

Different from the method shown in FIG. 2 , the second blinking action in this embodiment is the number of blinks of the eye to be adjusted and the user's eye-closing action, which is used to confirm the end of the blinking action of the eye to be adjusted.

In step S304, after the eyes are closed for T seconds, the degree of myopia or the degree of hyperopia of the lens corresponding to the eye to be adjusted is adjusted according to the number of blinks of the eye to be adjusted.

Taking the myopia adjustment mode as an example, adjusting the myopia degree of the lens corresponding to the eye to be adjusted includes increasing the degree of myopia and reducing the degree of myopia. In the same mode, the number of blinks of the eye to be adjusted is different when increasing the degree of the lens and reducing the degree of the lens. . That is, in the myopia adjustment mode, when increasing the myopia degree of the lens and reducing the myopia degree of the lens, the number of blinks of the eye to be adjusted is different; The number of blinks that regulate the eye varies. However, for two different adjustment modes, when increasing the hyperopia degree of the eyeglasses and increasing the myopia degree of the eyeglasses, the number of blinks of the eyes to be adjusted can be the same or different. , the number of blinks of the eyes to be adjusted can be the same or different.

In the myopia adjustment mode, only two blink times can be defined: N1 and N2, N1 is used to increase the myopia degree of the lens, and N2 is used to reduce the myopia degree of the lens. The size relationship and values of N1 and N2 are not limited in this embodiment, for example, the value of N1 may be 1, and the value of N2 may be 2. Optionally, in the myopia adjustment mode, more blink times can also be defined, wherein the more blink times of the eye to be adjusted, the greater the adjustment amount of the lens power corresponding to the eye to be adjusted. For example, four blink times are defined: N1, N2, N3, N4, wherein N1 and N3 are used to increase the degree of myopia of the lens, N1 is smaller than N3, N2 and N4 are used to reduce the degree of myopia of the lens, and N2 is smaller than N4. When the number of blinks of the glasses to be adjusted is N1, the diopter of the lens corresponding to the eye to be adjusted is increased by 10 degrees, and when the number of blinks of the glasses to be adjusted is N3, the diopter of the lens corresponding to the eye to be adjusted is increased by 20 degrees. When the number of blinks of the glasses to be adjusted is N2, the diopter of the lens corresponding to the eye to be adjusted is reduced by 10 degrees, and when the number of blinks of the glasses to be adjusted is N4, the diopter of the lens corresponding to the eye to be adjusted is reduced by 20 degrees. For the farsightedness adjustment mode, two or more blink times can also be defined. The more the blink times of the eye to be adjusted, the greater the adjustment amount of the lens degree corresponding to the eye to be adjusted.

This embodiment adjusts the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the number of blinks, compared to adjusting the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the blink frequency in the embodiment shown in FIG. Accurate, and more user-friendly operation. This is because when adjusting according to the blink frequency, the user needs to have an accurate number of blinks within the preset time, and it is difficult for the user to control the preset time. For example, the user needs to blink 3 times within 5 seconds, that is, the user blinks every Blink once a second, but the user blinked slowly, and only blinked 4 times in 5 seconds. When the user blinked for the 5th time, it had already exceeded 5 seconds. For smart glasses, the user's blink frequency does not match, and the adjustment cannot be completed . When using the number of blinks, after turning on the smart mode, the user does not need to control the time, the user only needs to ensure that the number of blinks is correct even after the adjustment is completed. For example, if the number of blinks is 2, the user can blink twice within 1 second, or every Blink once every second, or twice within 5 seconds. After blinking twice, the user only needs to close the eyes to confirm the end of the blink.

In this embodiment, the number of blinks of the user's eye to be adjusted within the first time and the closing action of the other eye are collected through the camera. Start the myopia adjustment mode or hyperopia adjustment mode of the eye to be adjusted. In the myopia adjustment mode or hyperopia adjustment mode, the number of times the eye to be adjusted and the user's eye-closing action are collected through the camera. When the eyes are closed for T seconds, according to the Adjust the number of blinks of the eye to adjust the degree of myopia or the degree of farsightedness of the lens corresponding to the eye to be adjusted. In this method, the user only needs to blink to complete the adjustment of the degree of myopia and the degree of hyperopia of the smart glasses, which brings a better experience to the user.

On the basis of the embodiment shown in FIG. 1 , FIG. 4 is a flow chart showing a method for adjusting smart glasses according to an exemplary embodiment. As shown in FIG. 4 , the method for adjusting smart glasses includes the following steps.

In step S401, the number of blinks of the user's eyes within a second time period is collected by a camera.

In this embodiment, the first blinking action is the number of blinks of both eyes within a second time. The second time is predefined, and the second time may be the same as or different from the first time. Optionally, after the blinking of both eyes ends, the closing action of the left eye or the right eye can also be used to confirm the end of the blinking action of both eyes.

In step S402, the brightness adjustment mode is activated according to the number of blinks of both eyes within a second time.

The corresponding relationship between the first blinking action and the glasses adjustment mode is predefined. For example, when the number of blinks of the eyes in the second time is predefined to be 5, the brightness adjustment mode is started. Therefore, when the smart glasses detect that the eyes are in the second time When the number of blinks within is five times, it is determined to activate the brightness adjustment mode.

In step S403, in the brightness adjustment mode, the blink frequency of both eyes is collected through the camera.

In this embodiment, the second blink action is the blink frequency of both eyes, and the blink frequency of both eyes is the number of blinks of both eyes within a preset time. Specifically, after starting the brightness adjustment mode, the smart glasses start timing, and at the same time, the camera starts to collect the number of blinks of both eyes within a preset time. When the timing ends, the number of blinks of both eyes collected by the camera is the blink frequency of both eyes.

In step S404, the brightness of the smart glasses is adjusted according to the blink frequency of both eyes.

Wherein, adjusting the brightness of the smart glasses includes increasing the brightness and reducing the brightness, and the blinking frequency of the eyes is different when the brightness of the smart glasses is increased and decreased. In the brightness adjustment mode, you can define two blink frequencies or more blink frequencies. When two blink frequencies are defined, one blink frequency is used to increase the brightness of the smart glasses, and the other blink frequency is used to reduce the brightness of the smart glasses. brightness. When 2N kinds of blinking frequencies are defined, when N is greater than 1, the N kinds of blinking frequencies are used to increase the brightness of the smart glasses, and the remaining N kinds of blinking frequencies are used to reduce the brightness of the smart glasses. Wherein, the greater the blinking frequency of both eyes, the greater the brightness adjustment amount of the smart glasses, and the brightness adjustment amount includes increased brightness or decreased brightness.

In this embodiment, the number of blinks of the user's eyes within the second time is collected through the camera, and the brightness adjustment mode is started according to the number of blinks of the eyes within the second time. In the brightness adjustment mode, the blink frequency of the eyes is collected through the camera. The blinking frequency of both eyes adjusts the brightness of the smart glasses, wherein the blinking frequency of both eyes is different when the brightness of the smart glasses is increased and decreased. In this method, the user only needs to blink to complete the adjustment of the brightness of the smart glasses, which brings a better experience to the user.

On the basis of the embodiment shown in FIG. 1 , FIG. 5 is a flow chart showing a method for adjusting smart glasses according to an exemplary embodiment. As shown in FIG. 5 , the method for adjusting smart glasses includes the following steps.

In step S501, the number of blinks of the user's eyes within a second time period is collected by a camera.

In this embodiment, the first blinking action is the number of blinks of both eyes within a second time. The second time is predefined, and the second time may be the same as or different from the first time. Optionally, after the blinking of both eyes ends, the closing action of the left eye or the right eye can also be used to confirm the end of the blinking action of both eyes.

In step S502, the brightness adjustment mode is activated according to the number of blinks of both eyes within a second time.

In step S503, in the brightness adjustment mode, the camera collects the user's double-eye blinking times and double-eye closing action, and the double-eye closing action is used to confirm the end of the double-eye blinking action.

In step S504, after the eyes are closed for T seconds, the brightness of the smart glasses is adjusted according to the blink times of the eyes.

In the brightness adjustment mode, you can define two blink times or more. When two blink times are defined, one blink is used to increase the brightness of the smart glasses, and the other blink is used to reduce the brightness of the smart glasses. brightness. When 2N kinds of blinking times are defined, N is greater than 1, N kinds of blinking times are used to increase the brightness of the smart glasses, and the remaining N kinds of blinking frequencies are used to reduce the brightness of the smart glasses. Wherein, the more the blinking times of both eyes are, the greater the brightness adjustment amount of the smart glasses is, and the brightness adjustment amount includes increased brightness or decreased brightness.

In this embodiment, the number of blinks of the user's eyes within the second time is collected through the camera, and the brightness adjustment mode is started according to the number of blinks of the eyes within the second time. In the closing action, when the eyes are closed for T seconds, the brightness of the smart glasses is adjusted according to the number of blinks of the eyes, wherein the number of blinks of the eyes is different when the brightness of the smart glasses is increased or decreased. In this method, the user only needs to blink to complete the adjustment of the brightness of the smart glasses, which brings a better experience to the user.

Fig. 6 is a block diagram of an adjusting device for smart glasses according to an exemplary embodiment. As shown in Fig. 6 , the adjusting device for smart glasses in this embodiment includes: An acquisition module 13 and an adjustment module 14.

Wherein, the first collection module 11 is configured to collect the user's first blinking action through the camera;

The starting module 12 is configured to start the glasses adjustment mode corresponding to the first blinking action according to the first blinking action;

The second collection module 13 is configured to collect the user's second blinking action through the camera in the glasses adjustment mode;

The adjustment module 14 is configured to adjust parameters of the smart glasses according to the second blink action.

Fig. 7 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment. As shown in Fig. 7, the device in this embodiment is based on the device shown in Fig. 6, and the first acquisition module 11 includes:

The first collection sub-module 111 is configured to use the camera to collect the number of blinks of the user's eye to be adjusted within the first time and the closing action of the other eye, the eye to be adjusted is the left eye or the right eye , the closing action of the other eyeglass is used to confirm the end of the blinking action of the eye to be adjusted;

The startup module 12 includes:

The first promoter module 121 is configured to start the myopia adjustment mode of the eye to be adjusted according to the number of blinks of the eye to be adjusted within the first time after the other eye is closed for T seconds Hyperopia adjustment mode, wherein the number of blinks of the eye to be adjusted within the first time period is different between the myopia adjustment mode and the hyperopia adjustment mode;

The second collection module 13 includes:

The second collection sub-module 131 is configured to collect the blink frequency of the eye to be adjusted through the camera in the myopia adjustment mode or the hyperopia adjustment mode;

The adjustment module 14 includes:

The first adjustment sub-module 141 is configured to adjust the myopia or hyperopia of the lens corresponding to the eye to be adjusted according to the blink frequency of the eye to be adjusted, wherein, in the same mode, increasing the lens power and reducing the lens power The blinking frequency of the eye to be adjusted is different.

Optionally, the greater the blink frequency of the eye to be adjusted, the greater the adjustment amount of the lens power corresponding to the eye to be adjusted.

Fig. 8 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment. As shown in Fig. 8, the device in this embodiment is based on the device shown in Fig. 6, and the first acquisition module 11 includes:

The first collection sub-module 111 is configured to use the camera to collect the number of blinks of the user's eye to be adjusted within the first time and the closing action of the other eye, the eye to be adjusted is the left eye or the right eye , the closing action of the other eyeglass is used to confirm the end of the blinking action of the eye to be adjusted;

The startup module 12 includes:

The first promoter module 131 is configured to start the myopia adjustment mode of the eye to be adjusted according to the number of blinks of the eye to be adjusted within the first time after the other eye is closed for T seconds Hyperopia adjustment mode, wherein the number of blinks of the eye to be adjusted within the first time period is different between the myopia adjustment mode and the hyperopia adjustment mode;

The second collection module 13 includes:

The third acquisition sub-module 132 is configured to, in the myopia adjustment mode or the hyperopia adjustment mode, collect the number of blinks of the eye to be adjusted and the user's binocular closing action through the camera, the binocular closure The action is used to confirm the end of the blinking action of the eye to be adjusted;

The adjustment module 14 includes:

The second adjustment sub-module 142 is configured to adjust the myopia or hypermetropia of the lens corresponding to the eye to be adjusted according to the number of blinks of the eye to be adjusted after the eyes are closed for T seconds, wherein, in the same mode , the number of blinks of the eye to be adjusted is different when the degree is increased and the degree is decreased.

Optionally, the more the blink times of the eye to be adjusted, the greater the adjustment amount of the lens diopter corresponding to the eye to be adjusted.

Fig. 9 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment. As shown in Fig. 9, the device in this embodiment is based on the device shown in Fig. 6, and the first acquisition module 11 includes:

The fourth collection sub-module 112 is configured to use the camera to collect the number of blinks of the user's eyes within a second time;

The startup module 12 includes:

The second promoter module 122 is configured to start the brightness adjustment mode according to the number of times the eyes blink within the second time;

The second collection module 13 includes:

The fifth collection sub-module 133 is configured to collect the blinking frequency of the two eyes through the camera in the brightness adjustment mode;

The adjustment module 14 includes:

The third adjustment sub-module 143 is configured to adjust the brightness of the smart glasses according to the blinking frequency of the two eyes, wherein the blinking frequency of the two eyes is different when the brightness of the smart glasses is increased or decreased.

Optionally, the greater the blinking frequency of the two eyes is, the greater the adjustment amount of the brightness of the smart eye is.

Fig. 10 is a block diagram of an adjustment device for smart glasses according to an exemplary embodiment. As shown in Fig. 10, the device in this embodiment is based on the device shown in Fig. 6, and the first collection module 11 includes:

The fourth collection sub-module 112 is configured to collect the number of blinks of the user's eyes within a second time period through the camera;

The startup module 12 includes:

The second promoter module 122 is configured to start the brightness adjustment mode according to the blinking action of the eyes;

The second collection module 13 includes:

The sixth acquisition sub-module 134 is configured to, in the brightness adjustment mode, collect the number of times the user blinks and the eye-closing action of the user through the camera, and the eye-closing action is used to confirm the end of the eye-blinking action;

The adjustment module 14 includes:

The fourth adjustment sub-module 144 is configured to adjust the brightness of the smart glasses according to the blinking times of the eyes when the eyes are closed for T seconds, wherein the brightness of the smart glasses is increased or decreased when the brightness of the smart glasses is increased or decreased. The number of blinks varies.

Optionally, the more the blinking times of the two eyes are, the greater the adjustment amount of the brightness of the smart eye is.

Fig. 11 is a physical block diagram of an adjustment device for smart glasses according to an exemplary embodiment. As shown in Fig. 11 , the smart device 200 includes: a processor 21 and a memory 22 for storing instructions executable by the processor 21, The memory 22 is connected and communicates with the processor 21 through the system bus.

Wherein, processor 21 is configured as:

memory;

memory configured to store processor-executable instructions;

Wherein, the processor is configured as:

Capture the user's first blinking action through the camera;

Starting a glasses adjustment mode corresponding to the first blinking action according to the first blinking action;

In the glasses adjustment mode, collecting the user's second blinking action through the camera;

Adjusting parameters of the smart glasses according to the second blink action.

It should be understood that, in the foregoing embodiments, the processor may be a central processing unit (English: Central Processing Unit, referred to as: CPU), and may also be other general-purpose processors, digital signal processors (English: Digital Signal Processor, referred to as: DSP), dedicated Integrated circuit (English: Application Specific Integrated Circuit, referred to as: ASIC), etc. The general-purpose processor can be a microprocessor or the processor can also be any conventional processor, etc., and the aforementioned memory can be a read-only memory (English: read-only memory, abbreviated: ROM), random access memory (English: : random access memory, referred to as: RAM), flash memory, hard disk or solid state disk. The steps of the methods disclosed in connection with the embodiments of the present invention may be directly implemented by a hardware processor, or implemented by a combination of hardware and software modules in the processor.

Other embodiments of the invention will be readily apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any modification, use or adaptation of the present invention, these modifications, uses or adaptations follow the general principles of the present invention and include common knowledge or conventional technical means in the technical field not disclosed in this disclosure . The specification and examples are to be considered exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It should be understood that the present invention is not limited to the precise constructions which have been described above and shown in the accompanying drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present invention is limited only by the appended claims.

Claims (19)

1. a kind of control method of intelligent glasses, it is characterised in that include：

The first blink action of user is gathered by photographic head；

According to the described first blink action launching glasses shaping modes corresponding with the first blink action；

The second blink action of the user under the glasses shaping modes, is gathered by the photographic head；

The parameter of intelligent glasses is adjusted according to the second blink action.

2. method according to claim 1, it is characterised in that described by photographic head gather user the first blink dynamic Make, including：

Number of winks and another eyes of the eyes to be regulated of the user within the very first time are gathered by the photographic head Closed action, the eyes to be regulated are that the closed action of left eye or right eye, the another glasses is used for confirming described treating Adjust the blink release of eyes；

Described according to the described first blink action launching glasses shaping modes corresponding with the first blink action, including：

After the another eyes closed T second, according to blink time of the eyes blink to be regulated within the very first time Number starts the near-sighted shaping modes of the eyes to be regulated or hypermetropia shaping modes, wherein, the near-sighted shaping modes and hypermetropia Number of winks difference of the eyes to be regulated within the very first time under shaping modes；

Described gather the second blink action of the user by the photographic head under the glasses shaping modes, including：

Under the myopia shaping modes or the hypermetropia shaping modes, the eyes to be regulated are gathered by the photographic head Frequency of wink；

The parameter for adjusting intelligent glasses according to the second blink action, including：

Myopia degree or the hypermetropia of the corresponding eyeglass of the eyes to be regulated are adjusted according to the frequency of wink of the eyes to be regulated The number of degrees, wherein, under same pattern, when increasing the eyeglass number of degrees and reducing the eyeglass number of degrees, the frequency of wink of the eyes to be regulated is not With.

3. method according to claim 2, it is characterised in that the frequency of wink of the eyes to be regulated is bigger, described treats The adjustment amount for adjusting the corresponding eyeglass number of degrees of eyes is bigger.

4. method according to claim 1, it is characterised in that described by photographic head gather user the first blink dynamic Make, including：

Number of winks and another eyes of the eyes to be regulated of the user within the very first time are gathered by the photographic head Closed action, the eyes to be regulated are that the closed action of left eye or right eye, the another glasses is used for confirming described treating Adjust the blink release of eyes；

Described according to the described first blink action launching glasses shaping modes corresponding with the first blink action, including：

After the another eyes closed T second, according to blink time of the eyes blink to be regulated within the very first time Number starts the near-sighted shaping modes of the eyes to be regulated or hypermetropia shaping modes, wherein, the near-sighted shaping modes and hypermetropia Number of winks difference of the eyes to be regulated within the very first time under shaping modes；

Described gather the second blink action of the user by the photographic head under the glasses shaping modes, including：

Under the myopia shaping modes or the hypermetropia shaping modes, the eyes to be regulated are gathered by the photographic head The eyes closed action of number of winks and the user, the eyes closed action is used for confirming the blink of the eyes to be regulated Release；

The parameter for adjusting intelligent glasses according to the second blink action, including：

After eyes closure T second, the eyes to be regulated are adjusted according to the number of winks of the eyes to be regulated corresponding The myopia degree of eyeglass or hyperopia degree, wherein, under same pattern, the eyes to be regulated when increasing the number of degrees and reducing the number of degrees Number of winks different.

5. method according to claim 4, it is characterised in that the number of winks of the eyes to be regulated is more, described treats The adjustment amount for adjusting the corresponding eyeglass number of degrees of eyes is bigger.

6. method according to claim 1, it is characterised in that described by photographic head gather user the first blink dynamic Make, including：

Number of winks of the eyes of the user within the second time is gathered by the photographic head；

Described according to the described first blink action launching glasses shaping modes corresponding with the first blink action, including：

Number of winks according to the eyes within the second time starts brightness regulation pattern；

Described gather the second blink action of the user by the photographic head under the glasses shaping modes, including：

The frequency of wink of the eyes under the brightness regulation pattern, is gathered by the photographic head；

The parameter for adjusting intelligent glasses according to the second blink action, including：

The brightness of the intelligent glasses is adjusted according to the frequency of wink of the eyes, wherein, is increased and the less intelligent glasses Brightness when the eyes frequency of wink different.

7. method according to claim 6, it is characterised in that the frequency of wink of the eyes is bigger, the Brilliant Eyes The adjustment amount of brightness is bigger.

8. method according to claim 1, it is characterised in that described by photographic head gather user the first blink dynamic Make, including：

Eyes number of winks of the eyes of the user within the second time is gathered by the photographic head；

Described according to the described first blink action launching glasses shaping modes corresponding with the first blink action, including：

According to eyes blink action launching brightness regulation pattern；

Described gather the second blink action of the user by the photographic head under the glasses shaping modes, including：

Under the brightness regulation pattern, the eyes number of winks of the user is gathered by the photographic head and eyes closure is moved Make, the eyes closed action is used for confirming eyes blink release；

The parameter for adjusting intelligent glasses according to the second blink action, including：

After eyes closure T second, the brightness of the intelligent glasses is adjusted according to the number of winks of the eyes, wherein, is increased During the brightness of the big and less intelligent glasses, the number of winks of the eyes is different.

9. method according to claim 8, it is characterised in that the number of winks of the eyes is more, the Brilliant Eyes The adjustment amount of brightness is bigger.

10. a kind of adjusting means of intelligent glasses, it is characterised in that include：

First acquisition module, is configured to the first blink action that photographic head gathers user；

Starting module, is configured to be adjusted according to the described first blink action launching glasses corresponding with the first blink action Pattern；

Second acquisition module, is configured under the glasses shaping modes, gathers the of the user by the photographic head Two blink actions；

Adjusting module, is configured to adjust the parameter of intelligent glasses according to the second blink action.

11. devices according to claim 10, it is characterised in that first acquisition module includes：

First collection submodule, is configured to the photographic head and gathers the eyes to be regulated of the user within the very first time Number of winks and another eyes closed action, the eyes to be regulated are left eye or right eye, the another glasses Closed action is used for confirming the blink release of the eyes to be regulated；

The starting module includes：

First starts submodule, after being configured as the another eyes closed T second, is existed according to the eyes blink to be regulated Number of winks in the very first time starts the near-sighted shaping modes of the eyes to be regulated or hypermetropia shaping modes, wherein, The myopia shaping modes are different with number of winks of the eyes to be regulated within the very first time under hypermetropia shaping modes；

Second acquisition module includes：

Second collection submodule, is configured under the myopia shaping modes or the hypermetropia shaping modes, is taken the photograph by described As head gathers the frequency of wink of the eyes to be regulated；

The adjusting module includes：

First adjustment submodule, is configured to be corresponded to according to the frequency of wink of the eyes to be regulated adjustment eyes to be regulated The myopia degree of eyeglass or hyperopia degree, wherein, under same pattern, described in when increasing the eyeglass number of degrees and reducing the eyeglass number of degrees The frequency of wink difference of eyes to be regulated.

12. devices according to claim 11, it is characterised in that the frequency of wink of the eyes to be regulated is bigger, described The adjustment amount of the corresponding eyeglass number of degrees of eyes to be regulated is bigger.

13. devices according to claim 10, it is characterised in that first acquisition module includes：

First collection submodule, is configured to the photographic head and gathers the eyes to be regulated of the user within the very first time Number of winks and another eyes closed action, the eyes to be regulated are left eye or right eye, the another glasses Closed action is used for confirming the blink release of the eyes to be regulated；

The starting module includes：

First starts submodule, after being configured as the another eyes closed T second, is existed according to the eyes blink to be regulated Number of winks in the very first time starts the near-sighted shaping modes of the eyes to be regulated or hypermetropia shaping modes, wherein, The myopia shaping modes are different with number of winks of the eyes to be regulated within the very first time under hypermetropia shaping modes；

Second acquisition module includes：

3rd collection submodule, is configured under the myopia shaping modes or the hypermetropia shaping modes, is taken the photograph by described The number of winks of the eyes to be regulated and the eyes closed action of the user are gathered as head, the eyes closed action is used for Confirm the blink release of the eyes to be regulated；

The adjusting module includes：

Second adjustment submodule, after being configured as the eyes closure T second, adjusts according to the number of winks of the eyes to be regulated The myopia degree of the corresponding eyeglass of whole eyes to be regulated or hyperopia degree, wherein, under same pattern, increase the number of degrees and subtract During few number of degrees, the number of winks of the eyes to be regulated is different.

14. devices according to claim 13, it is characterised in that the number of winks of the eyes to be regulated is more, described The adjustment amount of the corresponding eyeglass number of degrees of eyes to be regulated is bigger.

15. devices according to claim 10, it is characterised in that first acquisition module includes：

4th collection submodule, is configured to the photographic head and gathers blink of the eyes of the user within the second time Number of times；

The starting module includes：

Second starts submodule, is configured to the number of winks according to the eyes within the second time and starts brightness regulation mould Formula；

Second acquisition module includes：

5th collection submodule, is configured under the brightness regulation pattern, gathers the eyes by the photographic head Frequency of wink；

The adjusting module includes：

3rd adjustment submodule, is configured to adjust the brightness of the intelligent glasses according to the frequency of wink of the eyes, wherein, When increasing the brightness with the less intelligent glasses, the frequency of wink of the eyes is different.

16. devices according to claim 15, it is characterised in that the frequency of wink of the eyes is bigger, the Brilliant Eyes Brightness adjustment amount bigger.

17. devices according to claim 10, it is characterised in that first acquisition module includes：

4th collection submodule, is configured the eyes by the eyes of the photographic head collection user within the second time and blinks Eye number of times；

The starting module includes：

Second starts submodule, is configured according to eyes blink action launching brightness regulation pattern；

Second acquisition module includes：

6th collection submodule, is configured under the brightness regulation pattern, gathers the user's by the photographic head Eyes number of winks and eyes closed action, the eyes closed action is used for confirming eyes blink release；

The adjusting module includes：

4th adjustment submodule, after being configured as the eyes closure T second, according to the adjustment of the number of winks of the eyes The brightness of intelligent glasses, wherein, when increasing the brightness with the less intelligent glasses, the number of winks of the eyes is different.

18. devices according to claim 17, it is characterised in that the number of winks of the eyes is more, the Brilliant Eyes Brightness adjustment amount bigger.

19. a kind of adjusting meanss of intelligent glasses, it is characterised in that include：

Memorizer；

It is configured to store the memorizer of processor executable；

Wherein, the processor is configured to：

The first blink action of user is gathered by photographic head；

According to the described first blink action launching glasses shaping modes corresponding with the first blink action；

The second blink action of the user under the glasses shaping modes, is gathered by the photographic head；

The parameter of intelligent glasses is adjusted according to the second blink action.