CN115079419A

CN115079419A - AR (augmented reality) glasses state switching method and AR glasses

Info

Publication number: CN115079419A
Application number: CN202210874427.9A
Authority: CN
Inventors: 王心曌; 刘天一; 吴斐; 娄身强; 陆希炜
Original assignee: Beijing LLvision Technology Co ltd
Current assignee: Beijing LLvision Technology Co ltd
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2022-09-20

Abstract

The invention provides a state switching method of AR glasses and the AR glasses, and relates to the technical field of the AR glasses, wherein the method comprises the following steps: receiving detection information sent by a wearing detection sensor in the AR glasses; and switching the AR glasses from a working state to a sleep state when the AR glasses are determined to be in an inverted state based on the detection information and the inverted state lasts for more than a first time length. According to the invention, the wearing condition of the AR glasses is detected by the wearing detection sensor, the AR glasses are switched from the working state to the dormant state under the condition that the AR glasses are determined to be in the inverted state based on the detection information of the wearing detection sensor and the inverted state continuously exceeds the first duration, so that the electric quantity can be saved when the user does not use the AR glasses temporarily, and the endurance time of the AR glasses is prolonged.

Description

AR (augmented reality) glasses state switching method and AR glasses

Technical Field

The invention relates to the technical field of AR (augmented reality) glasses, in particular to a state switching method of the AR glasses and the AR glasses.

Background

Augmented Reality (AR) glasses can provide many convenient functions for users; however, since most of the AR glasses are powered by rechargeable batteries, if the AR glasses are in a working state for a long time, endurance is weak, and therefore how to prolong endurance of the AR glasses is a problem that needs to be solved urgently.

Disclosure of Invention

The invention provides a state switching method of AR glasses and the AR glasses, which are used for overcoming the defect of weak cruising ability in the prior art and prolonging the cruising time of the AR glasses.

The invention provides a state switching method of AR glasses, which comprises the following steps:

receiving detection information sent by a wearing detection sensor in the AR glasses;

and switching the AR glasses from a working state to a sleep state when the AR glasses are determined to be in an inverted state based on the detection information and the inverted state lasts for more than a first time length.

According to a state switching method of AR glasses provided by the present invention, the wearing detection sensor includes one of:

a direction detection sensor, accordingly, the detection information includes: an angle between a detection vector of the direction detection sensor and a normal of a horizontal plane, wherein the detection vector is perpendicular to a plane formed by two glasses legs of the AR glasses, and the direction of the detection vector is a direction in which the glasses legs point to the ground vertically when the AR glasses are worn;

a temperature detection sensor, and accordingly, the detection information includes a temperature of an object in contact with the temperature detection sensor.

According to the state switching method of the AR glasses provided by the present invention, the determining that the AR glasses are in the inverted state based on the detection information includes:

and determining that the angle between the detection vector of the direction detection sensor and the normal of the horizontal plane is smaller than a first angle based on the detection information, and determining that the AR glasses are in an inverted state.

According to the state switching method of the AR glasses, provided by the invention, the working state comprises a simultaneous transmission state, and the simultaneous transmission state is used for converting the voice of the interlocutor of the user into characters and displaying the characters.

According to the state switching method of the AR glasses provided by the invention, the method further comprises the following steps:

receiving first indication information of user equipment, wherein the first indication information is used for indicating the AR glasses to enter a simultaneous transmission state;

under the condition that the AR glasses are in a working state, responding to the indication information, and triggering the AR glasses to enter a synchronous transmission state;

and sending feedback information to the user equipment under the condition that the AR glasses are in the dormant state, wherein the feedback information is used for indicating that the AR glasses are in the dormant state and cannot enter a simultaneous transmission state.

According to the state switching method of the AR glasses provided by the present invention, when the AR glasses are in the synchronous transmission state, the method further includes:

receiving second indication information of the user equipment;

and transmitting the characters to the user equipment in real time based on the second indication information.

According to the state switching method of the AR glasses provided by the present invention, after receiving the detection information sent by the detection sensor worn in the AR glasses, the method further includes:

and under the condition that the AR glasses are determined to be in a wearing state based on the detection information, triggering the AR glasses to enter a working state.

According to the state switching method of the AR glasses provided by the present invention, the determining that the AR glasses are in the wearing state based on the detection information includes:

and determining that the angle between the detection vector of the direction detection sensor and the normal of the horizontal plane is larger than a second angle and the temperature of the object in contact with the temperature detection sensor is within a first threshold range based on the detection information, and determining that the AR glasses are in a wearing state.

The present invention provides AR glasses, including:

the system comprises a wearing detection sensor and a processor, wherein the wearing detection sensor is used for acquiring and sending detection information;

the processor is configured to receive the detection information, determine that the AR glasses are in an inverted state based on the detection information, and switch the AR glasses from a working state to a sleep state if the inverted state lasts for more than a first duration.

According to an AR eyeglass provided by the present invention, the wearing detection sensor includes one of:

According to the AR glasses provided by the present invention, the determining that the AR glasses are in an inverted state based on the detection information includes:

According to the AR glasses provided by the invention, the working states comprise a simultaneous transmission state, and the simultaneous transmission state is used for converting the voice of the interlocutor of the user into characters and displaying the characters.

According to an AR glasses provided by the present invention, the processor is further configured to:

According to the AR glasses provided by the present invention, in a case that the AR glasses are in a synchronous transmission state, the processor is further configured to:

receiving second indication information of the user equipment;

According to the AR glasses provided by the present invention, after receiving the detection information sent by the wearing detection sensor in the AR glasses, the processor is further configured to:

and under the condition that the AR glasses are determined to be in the wearing state based on the detection information, triggering the AR glasses to enter the working state.

According to the AR glasses provided by the present invention, the determining that the AR glasses are in a wearing state based on the detection information includes:

According to the state switching method of the AR glasses and the AR glasses, the wearing condition of the AR glasses is detected by the wearing detection sensor, the AR glasses are switched from the working state to the dormant state under the condition that the AR glasses are determined to be in the inverted state based on the detection information of the wearing detection sensor and the inverted state continuously exceeds the first duration, so that the electric quantity can be saved when a user does not use the AR glasses temporarily, and the endurance time of the AR glasses is prolonged.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a method for switching states of AR glasses according to the present invention;

fig. 2 is a second schematic flow chart of the method for switching the states of the AR glasses according to the present invention;

fig. 3 is a schematic structural diagram of the AR glasses provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The state switching method of the AR glasses and the AR glasses of the present invention are described below with reference to fig. 1 to 3.

Fig. 1 is a schematic flow chart of a method for switching states of AR glasses according to the present invention, as shown in fig. 1, the method includes:

step 100, receiving detection information sent by a wearing detection sensor in AR glasses;

specifically, at least one wear detection sensor may be configured in the AR glasses;

alternatively, the wearing detection sensor in the AR glasses may be provided at a temple portion of the AR glasses;

optionally, the wearing detection sensor has a function of detecting a wearing state and/or a placing state of the current AR glasses, and is reflected by the detection information;

optionally, the wear detection sensor may send the detection information to the AR glasses;

and step 110, under the condition that the AR glasses are determined to be in an inverted state based on the detection information, and the inverted state continuously exceeds a first time length, switching the AR glasses from a working state to a dormant state.

Optionally, after receiving the detection information from the wearing detection sensor, the AR glasses may determine the current wearing state and/or placing state of the AR glasses based on the detection information;

for example, the AR glasses may determine, based on the detection information, that the AR glasses are currently in a state of being normally worn by the user;

for example, the AR glasses may determine, based on the detection information, that the AR glasses are currently in a state of not being worn and being placed on a plane;

for example, the AR glasses may determine, based on the detection information, that the AR glasses are currently unworn and inverted in a flat state;

optionally, considering a scene in which some users use the AR glasses, for example, a scene in which some function of the AR glasses needs to be temporarily suspended and the AR glasses are taken off to process other things, if the AR glasses are directly turned off, the user needs to immediately restart the AR glasses within a short time after turning off, and may need to manually turn on the AR glasses by the user, wait for the time period of turning on the AR glasses, or need to restart some function before turning off the AR glasses, which brings inconvenience to the user; for another example, the user is inconvenient to use the physical keys of the AR glasses, but needs to pause frequently and temporarily and restart a certain function of the AR glasses immediately, which also brings inconvenience to the user.

Therefore, the AR glasses can enter the dormant state when the AR glasses are determined to be in the inverted state and exceed the first time length, so that the inconvenience caused by waiting for starting or restarting a certain function when a user only wants to pause for a short time can be effectively avoided;

optionally, the AR glasses may be preset to enter the working state when the state is switched from the other state to the wearing state for more than the second duration;

optionally, the AR glasses may also enter a power-off state if it is determined that the AR glasses are not worn and are being placed for more than a third duration;

optionally, the AR glasses can be automatically turned on or off or put to sleep by changing the wearing state and/or the placing state of the AR glasses, so that manual operation of a user is avoided, and the AR glasses can be adapted to more user groups, such as people who are inconvenient to use physical keys;

optionally, the AR glasses may switch the AR glasses from the operating state to the sleep state if it is determined that the AR glasses are in the inverted state based on the detection information, and the inverted state lasts for more than a first duration;

alternatively, the first duration may be 3 seconds, or 5 seconds, or 7 seconds, as the present invention is not limited thereto;

optionally, the user may also adjust the first time length based on his own needs;

optionally, the first duration may be set by the AR glasses reminding the user when they are used for the first time by the user;

optionally, the first duration may be set by the AR glasses already in a factory setting;

optionally, the first duration may be set by the user when the AR glasses are turned on, adjusted, turned on, turned off, or switched to the state of the AR glasses through the wearing state and/or the placing state, or turned on when the AR glasses are detected to be inverted and then sleep;

optionally, the setting mode of the second duration and the third duration may refer to any one or more setting modes of the first duration;

optionally, the AR glasses have a function of adjusting states corresponding to different wearing states and/or placing states, and the user may also adjust states corresponding to different wearing states and/or placing states according to a need of the user, for example, the AR glasses may be turned off when an inverted state exceeds a certain time period, and may be dormant when the AR glasses are not worn and are placed on a plane when the AR glasses are placed on the plane for a certain time period, which is not limited in the present invention;

optionally, the AR glasses have a function of adjusting on or off a state of switching the AR glasses through a wearing state and/or a placing state, for example, only when the function is turned on, the AR glasses may switch the AR glasses from a working state to a sleep state when it is determined that the AR glasses are in an inverted state based on the detection information and the inverted state continues for more than a first time period; for example, when the function is turned off, the AR glasses may not enter the sleep state even if the AR glasses are determined to be in the inverted state and exceed the first time period.

Alternatively, the AR glasses may be placed upside down in a plane, and may be perpendicular to the plane or inclined at an angle, which is not limited in the present invention.

Optionally, the detection sensor may periodically send detection information to the AR glasses, such as reporting once every 3 seconds or once every 5 seconds;

optionally, the detection sensor may send the detection information to the AR glasses when the detection information changes, which may save energy consumption;

according to the state switching method of the AR glasses, the wearing condition of the AR glasses is detected by the wearing detection sensor, the AR glasses are switched from the working state to the dormant state under the condition that the AR glasses are determined to be in the inverted state based on the detection information of the wearing detection sensor and the inverted state continuously exceeds the first duration, so that the electric quantity can be saved when the user does not use the AR glasses temporarily, and the endurance time of the AR glasses is prolonged.

Optionally, the wear detection sensor comprises one of:

Optionally, the detection information provided by the wearing detection sensor to reflect the wearing state and/or the placement state of the AR glasses may include angle information and/or temperature information;

alternatively, the angle information may be an angle between a detection vector of the direction detection sensor and a normal line of a horizontal plane, the detection vector is perpendicular to a plane formed by two legs of the AR glasses, and the direction of the detection vector is a direction in which the legs point to the ground vertically when the AR glasses are worn, that is, in a case where the AR glasses are turned upside down on the horizontal plane, the detection vector may be a direction perpendicular to the horizontal plane (there may be an error of a certain angle, and is not necessarily completely perpendicular);

alternatively, the temperature information may be a temperature of the skin of the user detected when the temperature detection sensor is in contact with the skin of the user.

Optionally, the determining that the AR glasses are in an inverted state based on the detection information includes:

Alternatively, since the detection vector may be a direction perpendicular to the horizontal plane upward in a case where the AR glasses are inverted on the horizontal plane (there may be an error of a certain angle, not necessarily completely perpendicular), the AR glasses may be determined to be in an inverted state in a case where it is determined that an angle between the detection vector of the direction detection sensor and the normal line of the horizontal plane is smaller than a first angle;

alternatively, the first angle may be 30 degrees, or 25 degrees, which is not a limitation of the present invention;

optionally, the first angle may be preset when the AR glasses leave the factory;

alternatively, the first angle may be set by the AR glasses prompting the user when the user first uses;

optionally, the first angle may be set by the user when the AR glasses start a function of switching a state of the AR glasses through a wearing state and/or a placing state, or start a function of detecting that the AR glasses are dormant when the AR glasses are inverted for the first duration.

Optionally, the working state includes a simultaneous transmission state, and the simultaneous transmission state is to convert the voice of the interlocutor of the user into words and display the words.

Optionally, the AR glasses may switch the AR glasses from the simultaneous transmission state to the sleep state if it is determined that the AR glasses are in the inverted state based on the detection information, and the inverted state lasts for more than a first duration;

optionally, the method further comprises:

Optionally, the AR glasses may be communicatively connected with the user device;

optionally, the user equipment may receive an input from a user, and perform a corresponding operation in response to the input from the user;

optionally, the user equipment may be a smart phone, a tablet computer, a notebook computer, a desktop computer, a palm computer, a personal digital assistant, and the like, which is not limited in this respect;

optionally, fig. 2 is a second schematic flow chart of the method for switching states of AR glasses provided by the present invention, as shown in fig. 2, the user equipment may receive an input of a user, where the input may be an operation of the user determining to start a co-transmission state of the AR glasses in an APP corresponding to the AR glasses;

optionally, after receiving the input of the user, the user equipment may generate first indication information, and send the first indication information to the AR glasses to indicate that the AR glasses are switched to the synchronous transmission state;

optionally, after the AR glasses receive the first indication information, if the AR glasses are in a working state, for example, in a worn state and are turned on, the simultaneous transmission mode may be opened to start a conversation with the interlocutor, and after the AR glasses receive the voice of the interlocutor, the voice of the conversation may be converted into characters.

Optionally, after receiving the first indication information, if the AR glasses are in a sleep state, the AR glasses may send feedback information to the user equipment, indicating that the AR glasses are in the sleep state and cannot enter a co-transmission state, and after receiving the feedback information, the APP of the user equipment may output a prompt to prompt the user that the AR glasses are in the sleep state and cannot provide a co-transmission service.

Optionally, in a case that the AR glasses are in a synchronous transmission state, the method further includes:

receiving second indication information of the user equipment;

Optionally, the AR glasses may store the words converted from the speech of the conversation in the text in real time while performing the simulcast;

optionally, the user equipment may receive an input of the user, where the input may be an operation of the user determining to obtain the text content of the co-transmission in the APP corresponding to the AR glasses;

optionally, the user equipment may generate second indication information after receiving the input of the user, and send the second indication information to the AR glasses to instruct the AR glasses to send the real-time co-transmitted characters of the AR glasses to the user equipment;

optionally, after receiving the second indication information, the AR glasses may send the text obtained by the concurrent transmission to the user equipment in real time while the concurrent transmission is performed;

optionally, the user device may receive the co-transmitted text and output the same to a display interface.

Optionally, the sleep and the wake-up of the AR glasses can be triggered by a physical key, and the AR glasses enter the sleep and the wake-up of a single machine under the condition that the user is determined to press or click the physical key;

optionally, after receiving the detection information sent by the wearing detection sensor in the AR glasses, the method further includes:

Optionally, the AR glasses may be triggered to enter the working state when it is determined that the AR glasses are in the wearing state based on the detection information;

for example, after the AR glasses send feedback information to the user equipment to inform that the AR glasses are in the sleep state, the user can know that the AR glasses are in the sleep state through the prompt of the user equipment, and then can wear the AR glasses;

optionally, after the monitoring information of the detection sensor changes, the changed detection information may be sent to the AR glasses, and the AR glasses may determine that the AR glasses are in a worn state at present based on the changed detection information, and may enter a working state.

Optionally, the determining that the AR glasses are in a wearing state based on the detection information includes:

Alternatively, if it is determined that the angle between the detection vector of the direction detection sensor and the normal line of the horizontal plane is greater than the second angle, it may be determined that the AR glasses are in the normal state, and if it is determined that the temperature of the object in contact with the temperature detection sensor is in the first threshold range, it may be further determined that the AR glasses are in the wearing state.

Alternatively, the first threshold range may be 36 to 39 degrees celsius.

The AR glasses provided by the present invention are described below, and the AR glasses described below and the AR glasses described above may be referred to in correspondence with each other.

Fig. 3 is a schematic structural diagram of the AR glasses provided in the present invention, and as shown in fig. 3, the AR glasses 300 includes a wearing detection sensor 310 and a processor 320, where the wearing detection sensor is used to acquire and send detection information;

Optionally, after receiving the detection information from the wearing detection sensor, the processor of the AR glasses may determine the current wearing state and/or placing state of the AR glasses based on the detection information;

for example, the processor of the AR glasses may determine, based on the detection information, that the AR glasses are currently in a state of being normally worn by the user;

for example, the processor of the AR glasses may determine, based on the detection information, that the AR glasses are currently in a state of not being worn and being placed in a plane;

for example, the processor of the AR glasses may determine that the AR glasses are currently unworn and inverted in a flat state based on the detection information;

Therefore, the processor of the AR glasses can be preset to enter the sleep state when the processor is determined to be in the inverted state and exceeds the first duration, so that inconvenience caused by waiting for starting or restarting a certain function when the user only wants to pause for a short time can be effectively avoided;

optionally, the processor of the AR glasses may also enter the working state in advance when switching from the other state to the wearing state exceeds the second duration;

optionally, the processor of the AR glasses may further enter a power-off state if it is determined that the AR glasses are not worn and are being placed for more than a third duration;

optionally, the processor of the AR glasses may switch the AR glasses from the operating state to the sleep state if it is determined that the AR glasses are in the inverted state based on the detection information, and the inverted state lasts for more than a first duration;

Alternatively, the AR glasses may be in an inverted state in which the AR glasses are inverted on a plane, may be perpendicular to the plane, or may be inclined at an angle, which is not limited by the present invention.

according to the AR glasses provided by the invention, the wearing condition of the AR glasses is detected by the wearing detection sensor, the AR glasses are switched from the working state to the dormant state under the condition that the AR glasses are determined to be in the inverted state based on the detection information of the wearing detection sensor and the inverted state continuously exceeds the first duration, so that the electric quantity can be saved when the user does not use the AR glasses temporarily, and the endurance time of the AR glasses is prolonged.

Optionally, the wear detection sensor comprises one of:

Optionally, the working state includes a simultaneous transmission state, and the simultaneous transmission state is to convert the voice of the interlocutor of the user into characters and display the characters.

optionally, the processor is further configured to:

optionally, as shown in fig. 2, the user equipment may receive an input of the user, where the input may be an operation of the user determining to start a co-transmission state of the AR glasses in the APP corresponding to the AR glasses;

optionally, the user equipment may generate first indication information after receiving the input of the user, and send the first indication information to the AR glasses to indicate that the AR glasses are switched to the co-transmission state;

optionally, after the processor of the AR glasses receives the first indication information, if the AR glasses are in a working state, for example, in a worn state and have been turned on, the processor of the AR glasses may start a conversation mode to start a conversation with the interlocutor, and after receiving the voice of the interlocutor, the AR glasses may convert the voice of the conversation into characters.

Optionally, after the processor of the AR glasses receives the first indication information, if the AR glasses are in a sleep state, the processor of the AR glasses may send feedback information to the user equipment, indicating that the AR glasses are in the sleep state and cannot enter a co-transmission state, and after the APP of the user equipment receives the feedback information, the processor of the AR glasses may output a prompt to prompt the user that the AR glasses are in the sleep state and cannot provide a co-transmission service.

Optionally, in a case that the AR glasses are in a simulcast state, the processor is further configured to:

receiving second indication information of the user equipment;

Optionally, after receiving the detection information sent by the wearing detection sensor in the AR glasses, the processor is further configured to:

optionally, after the monitoring information of the detection sensor changes, the changed detection information may be sent to the AR glasses, and the AR glasses may determine that the AR glasses are currently in a worn state based on the changed detection information, and may enter a working state.

Alternatively, if it is determined that the angle between the detection vector of the direction detection sensor and the normal line of the horizontal plane is greater than the second angle, it may be determined that the AR glasses are in the upright state, and if it is determined that the temperature of the skin of the user detected when the temperature detection sensor is in contact with the skin of the user is within the first threshold range, it may be further determined that the AR glasses are in the wearing state.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A method for switching the state of AR glasses, comprising:

receiving detection information sent by a wearing detection sensor in augmented reality AR glasses;

2. The method of switching the state of the AR glasses according to claim 1, wherein the wearing detection sensor includes one of:

3. The method of claim 2, wherein the determining that the AR glasses are in an inverted state based on the detection information comprises:

4. The method for switching the state of AR glasses according to any one of claims 1 to 3, wherein the operation state includes a simultaneous transmission state in which a voice of an interlocutor of the user is converted into a text and displayed.

5. The method of switching the state of the AR glasses according to claim 4, further comprising:

6. The method for switching the state of the AR glasses according to claim 4, wherein when the AR glasses are in a synchronous transmission state, the method further comprises:

receiving second indication information of the user equipment;

7. The method for switching the state of the AR glasses according to claim 2, wherein after receiving the detection information transmitted from the wearing detection sensor in the AR glasses, the method further comprises:

8. The method for switching the state of the AR glasses according to claim 7, wherein the determining that the AR glasses are in a wearing state based on the detection information includes:

and determining that the angle between the detection vector of the direction detection sensor and the normal of the horizontal plane is larger than a second angle and determining that the temperature of the object in contact with the temperature detection sensor is in a first threshold range based on the detection information, and determining that the AR glasses are in a wearing state.

9. The AR glasses are characterized by comprising wearing detection sensors and a processor, wherein the wearing detection sensors are used for acquiring and sending detection information;

10. The AR glasses according to claim 9, wherein the wear detection sensor comprises one of:

11. The AR glasses according to claim 10, wherein the determining that the AR glasses are in an inverted state based on the detection information comprises:

12. The AR glasses according to any of claims 9-11, wherein the working state comprises a simultaneous transmission state, wherein the simultaneous transmission state is a state in which a voice of a interlocutor of the user is converted into a text and displayed.

13. The AR glasses of claim 12, wherein the processor is further configured to:

14. The AR glasses according to claim 12, wherein with the AR glasses in a simulcast state, the processor is further configured to:

receiving second indication information of the user equipment;

15. The AR glasses according to claim 10, wherein after receiving the detection information sent by the wear detection sensor in the AR glasses, the processor is further configured to:

16. The AR glasses according to claim 15, wherein the determining that the AR glasses are in a worn state based on the detection information comprises: