CN113160520B - Data processing method and device, storage medium and intelligent glasses - Google Patents

Abstract

The application discloses a data processing method and device, a storage medium and intelligent glasses. The method can be applied to smart glasses, and the method can comprise the following steps: acquiring security data; detecting whether the safety data meet preset conditions or not; and if the safety data meet the preset conditions, sending alarm information. The application discloses intelligent glasses possess alarming function.

Description

Data processing method and device, storage medium and intelligent glasses

Technical Field

The application belongs to the technical field of electronics, and particularly relates to a data processing method and device, a storage medium and intelligent glasses.

Background

With the increasing diversification of intelligent wearable devices, smart glasses are beginning to gradually enter people's lives. In the related art, the intelligent glasses can install programs and complete functions of schedule reminding, navigation, image shooting, video call and the like by receiving user control instructions. However, the smart glasses in the related art lack an alarm function.

Disclosure of Invention

The embodiment of the application provides a data processing method and device, a storage medium and intelligent glasses, and an alarm function can be realized.

The embodiment of the application provides a data processing method, which is applied to intelligent glasses and comprises the following steps:

Acquiring security data;

detecting whether the safety data meet preset conditions or not;

and if the safety data meet the preset conditions, sending alarm information.

The embodiment of the application provides a data processing apparatus, is applied to intelligent glasses, includes:

the acquisition module is used for acquiring the security data;

the detection module is used for detecting whether the safety data meet preset conditions or not;

and the sending module is used for sending alarm information if the safety data meet preset conditions.

The embodiment of the present application provides a storage medium, on which a computer program is stored, and when the computer program is executed on a computer, the computer is caused to execute the flow in the data processing method provided by the embodiment of the present application.

The embodiment of the application further provides intelligent glasses, which comprise a memory and a processor, wherein the processor is used for executing the flow in the data processing method provided by the embodiment of the application by calling the computer program stored in the memory.

In an embodiment of the present application, a data processing method applied to smart glasses may include: acquiring security data; detecting whether the safety data meet preset conditions or not; if the safety data meet the preset conditions, alarm information is sent, and therefore the intelligent glasses have the alarm function.

Drawings

The technical solutions and advantages of the present application will be apparent from the following detailed description of specific embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a first structural schematic diagram of smart glasses provided in an embodiment of the present application.

Fig. 2 is a cross-sectional view of a first temple provided in an embodiment of the present application.

Fig. 3 is a schematic flowchart of a data processing method according to an embodiment of the present application.

Fig. 4 is a schematic flowchart of a second data processing method according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present application.

Fig. 6 is a schematic diagram of a second structure of smart glasses according to an embodiment of the present application.

Fig. 7 is a third structural schematic diagram of smart glasses provided in the embodiment of the present application.

Detailed Description

Referring to the drawings, wherein like reference numbers refer to like elements, the principles of the present application are illustrated as being implemented in a suitable computing environment. The following description is based on illustrated embodiments of the application and should not be taken as limiting the application with respect to other embodiments that are not detailed herein.

Referring to fig. 1 and fig. 2 together, fig. 1 is a schematic structural diagram of smart glasses provided in an embodiment of the present application, and fig. 2 is a cross-sectional view of a first temple provided in the embodiment of the present application.

The smart glasses 100 include a glasses body 10. The glasses body 10 includes a frame 11, and first and second temples 12 and 13 connected to opposite sides of the frame 11, respectively. It will be appreciated that the frame 11 may also be provided with lenses 14 inside. The frame 11 may be used to secure the lenses 14.

The smart glasses 100 may further include a sound output module 20, a display module 30, a battery 40, a main board 50, a touch module 60, and an antenna module 70. The inside of the first temple 13 may be used to mount the battery 40, the main board 50, at least a portion of the touch module 60, the antenna module 70, and the sound collection module 80. It is understood that the interior of the second temple arm 13 may also be used to mount the sound output module 20, the AR module 30, the battery 40, the main board 50, at least a portion of the touch module 60, the antenna module 70 and the sound collection module 80, such that when the electronics (e.g., the main board 50) within one of the first temple arm 12 and the second temple arm 13 is damaged, the electronics within the other temple arm may be used to continue to operate.

The material of picture frame 11, first mirror leg 12 and second mirror leg 13 isotructure can be selected for metal, plastics or carbon fiber etc. for the weight that alleviates AR glasses, and picture frame 11, first mirror leg 12 and second mirror leg 13 isotructure can adopt high strength, high modulus fibre's novel fiber material, and light in weight can avoid the user to wear the oppression sense that AR glasses led to the fact ear, nose for a long time.

In some embodiments, the sound output module 20, the AR module 30, the battery 40, the main board 50, at least a portion of the touch module 60, and the antenna module 70 may be mounted inside the first temple 12 and the second temple 13, respectively. For example, the sound output module 20, the AR module 30, the main board 50, and the sound collection module 80 may be mounted inside the first temple 12, and the battery 40, at least part of the touch module 60, and the antenna module 70 may be mounted inside the second temple 13. To facilitate the user wearing the smart glasses 100, the first temple 12 and the second temple 13 may be symmetrical, such as the weights may be consistent.

In some embodiments, the smart glasses 100 may further include a sound collection module (not shown in the drawings) for collecting external sounds, and the like. The sound collection module may be disposed inside the glasses body 10. The sound collection module may include a microphone.

The sound output module 20 may include a speaker or a bone conduction sound generator, among others. The display module 30 may include a micro display chip, a micro display screen, a reflective optical element, and the like, wherein the micro display chip is used for generating an image, the micro display screen is used for displaying the image generated by the micro display chip, the micro display screen can see a large-field high-definition display effect in a small volume, and the reflective optical element includes a concave mirror, a reflective prism, or a reflective grating, and the like, and is used for reflecting the image on the micro display screen onto the lens 14 of the smart glasses 100.

The battery 40 may be used to power the smart glasses, and the battery 40 may be charged by POGOPIN charging or wireless coil charging.

The main board 50 may include a sound output interface, a display interface, a battery interface, a touch interface, an antenna interface, and a sound collection interface. The sound output module 20 may be connected to the main board 50 through a sound output interface. The display module 30 may be connected to the main board 50 through a display interface. The battery 40 may be connected to the motherboard 50 through a battery interface. The touch module 60 may be connected to the main board 50 through a touch interface. The antenna module 70 may be connected to the main board 50 through an antenna interface. The sound collection module 80 may be connected to the main board 50 through a sound collection interface. The main board 50 may further include a bluetooth chip, a central processing unit, a memory, a GPS positioning module, various sensors (such as a gravity sensor and a gyroscope sensor), Flash, and the like.

The touch module 60 may be a touch button disposed on an inner surface of the first temple 12, so that the integrity of the first temple 12 can be maintained, and the first temple can be waterproof and dustproof. The user can directly operate the touch key to control the touch key, so that the smart glasses 100 generate a corresponding touch instruction, thereby implementing human-computer interaction.

In some embodiments, touch module 60 may be a physical button partially protruding from the outer surface of first temple 12. The user may directly operate the physical key to implement control of the physical key, so that the smart glasses 100 generate a corresponding touch instruction.

Antenna module 70 may be used to communicate with other electronic devices, such as a cell phone. The antenna module 70 may include a bluetooth antenna or a communication antenna. The smart glasses 100 may interact with an electronic device (e.g., a mobile phone) carried by a user wearing the smart glasses through a bluetooth antenna, and the communication antenna may communicate with an electronic device used by another user or another smart glasses.

The sound collection module 80 may be used to collect sound, so that human-computer interaction may be achieved. The sound collection module 80 may include a microphone or the like.

Referring to fig. 3, fig. 3 is a schematic flowchart of a first data processing method according to an embodiment of the present application, where the data processing method is applicable to the smart glasses 100, and the process may include:

101. security data is acquired.

The security data may include acceleration, a position of the smart glasses, touch data of a touch operation, and the like. The acceleration may be obtained by a gyro sensor or a gravity sensor. The position of the intelligent glasses can be obtained through the GPS positioning module. The touch data of the touch operation can be acquired through the touch module. The touch operation may include a pressing operation, a sliding operation, and the like.

102. And detecting whether the safety data meet preset conditions.

Some conditions that the security data needs to satisfy may be preset, and these conditions are determined as preset conditions.

For example, assuming that the safety data includes an acceleration, it may be determined as the preset condition that the acceleration is greater than a preset acceleration. Wherein, predetermine the acceleration and can be set up by the user, also can be set up by smart glasses based on certain rule.

For another example, assuming that the security data includes the position of the smart glasses, the position not within the preset range may be determined as the preset condition. Wherein, the preset range can be set by a user, and also can be set by the intelligent glasses based on certain rules.

For another example, assuming that the security data includes touch data of a touch operation, it may be determined that the touch operation corresponding to the touch data is a preset operation as the preset condition. The preset operation can be set by a user or can be set by the intelligent glasses based on a certain rule.

It should be understood that the above is only an example of the preset condition, and is not intended to limit the present application.

103. And if the safety data meet the preset conditions, sending alarm information.

For example, if the safety data includes an acceleration obtained by a gravity sensor, and the preset condition includes that the acceleration is greater than a preset acceleration, the alarm information may be sent when the acceleration obtained by the gravity sensor is greater than the preset acceleration. For example, an alert message may be sent to smart glasses bound to the smart glasses. It can be understood that, when the acceleration that the gravity sensor obtained is greater than preset acceleration, the user who wears intelligent glasses is probably in the state of tumbleing, consequently, can send alarm information to the intelligent glasses that bind with this intelligent glasses to make the user who uses the intelligent glasses that binds with this intelligent glasses can in time learn to wear the user of intelligent glasses and be in the state of tumbleing, thereby can in time carry out the treatment to the user who wears intelligent glasses.

For another example, if the safety data includes the position of the smart glasses and the preset condition includes that the position is not within the preset range, the alarm information may be sent when the position of the smart glasses is not within the preset range. For example, an alert message may be sent to smart glasses bound to the smart glasses. For example, this intelligent glasses can be the intelligent glasses of selling in the market, can regard as the predetermined scope with the region that the market is located, when intelligent glasses are located the region from the market by illegal taking, can send alarm information to market staff's cell-phone to make market staff in time learn that intelligent glasses are taken away by illegal, thereby can in time catch up the intelligent glasses of being taken away by illegal.

It is to be understood that the above description is only an example of the process 103 and is not intended to limit the present application.

In an embodiment of the present application, a data processing method applied to smart glasses may include: acquiring security data; detecting whether the safety data meet preset conditions or not; if the safety data meet the preset conditions, alarm information is sent, and therefore the intelligent glasses have the alarm function.

In some embodiments, the security data includes acceleration, and detecting whether the security data satisfies a preset condition includes:

Detecting whether the acceleration is greater than a preset acceleration or not;

if the safety data meet the preset conditions, sending alarm information, including:

and if the acceleration is greater than the preset acceleration, sending alarm information.

It can be understood that when the user wearing the smart glasses falls down or the smart glasses fall down, the acceleration of the smart glasses is higher, then a threshold value can be set as a preset acceleration, and when the acceleration is greater than the preset acceleration, it is determined that the user wearing the smart glasses falls down or the smart glasses fall down (for example, the smart glasses fall down to the ground from a desktop), then alarm information can be sent to other devices, so that the user using the other devices can timely deal with the above situation.

For example, the alarm information may be "detect that the user a (the user wearing the smart glasses) may fall, please confirm whether the user a falls as soon as possible". The alarm information can also be "detect that smart glasses drop, please confirm as soon as possible whether smart glasses drop".

It can be understood that the alarm information may include first alarm information and second alarm information, and when the acceleration is greater than the acceleration, whether the smart glasses are worn by the user may be detected; if the intelligent glasses are worn by the user, first alarm information can be sent; if the intelligent glasses are not worn by the user, second alarm information can be sent.

For example, the first alarm information may be "detect that the user a (the user wearing the smart glasses) may fall, please confirm whether the user a falls as soon as possible". The second alarm information may be "detect that the smart glasses have dropped, please confirm as soon as possible whether the smart glasses have dropped".

The intelligent glasses can be internally provided with the camera, and when the intelligent glasses are worn by a user, the camera can collect the face image of the user, so that whether the intelligent glasses are worn by the user can be judged by judging whether the collected image is the face image of the user, and when the collected image is the face image of the user, the intelligent glasses can be judged to be worn by the user; when the acquired image is not the face image of the user, it may be determined that the smart glasses are not worn by the user.

In some embodiments, if the acceleration is greater than the preset acceleration, sending an alarm message, including:

if the acceleration is larger than the preset acceleration, generating and outputting prompt information, wherein the prompt information is used for acquiring feedback information of a user;

and if the feedback information of the user is not acquired within the preset time, sending alarm information.

For example, in order to further confirm whether the user wearing the smart glasses falls down, when the acceleration is greater than the preset acceleration, prompt information of "do you fall down" may be broadcasted in a voice manner, and voice information may be collected to determine whether feedback information of the user is acquired. If the voice information is not acquired within the preset time or the voice information acquired within the preset time is not the preset voice information, the fact that the feedback information of the user is not acquired within the preset time can be determined, then the user falls can be judged, and the alarm information can be sent to other equipment, so that the user using the other equipment can know that the user wearing the intelligent glasses falls in time, and the user using the other equipment can timely treat the user wearing the intelligent glasses. The preset voice information may be set by a user or smart glasses according to actual conditions, and is not limited herein. For example, the preset voice information may be "i did not fall", "i did not have trouble", or the like.

In some embodiments, when the acceleration is greater than the preset acceleration, a plurality of first accelerations acquired by the gravity sensor before the acceleration is acquired and a plurality of second accelerations acquired after the acceleration is acquired may also be acquired, and the time elapsed after the acceleration, the plurality of first accelerations, and the plurality of second accelerations are acquired, and then, the falling distance of the smart glasses is calculated based on the acceleration, the plurality of first accelerations, the plurality of second accelerations, and the time, and when the falling distance is greater than the preset distance, the prompt information may be generated and output.

In some embodiments, the security data includes a first position of the smart eyewear, and detecting whether the security data satisfies a preset condition includes:

detecting whether the first position is within a preset range;

if the safety data meet the preset conditions, alarm information is sent, and the alarm information comprises the following steps:

and if the first position is within the preset range, sending alarm information.

In order to prevent some illegal persons from illegally obtaining the intelligent glasses or users who wear the intelligent glasses in the illegal turning bands, a safety range can be set and used as a preset range. The position of the intelligent glasses, namely the first position, can be obtained through the GPS positioning module, and when the position of the intelligent glasses is within the preset range, safety can be judged; when the position of the intelligent glasses is not in the preset range, the safety can be judged, and then alarm information can be sent to inform other people that the intelligent glasses are illegally obtained by illegal people or that a user wearing the intelligent glasses is illegally taken away.

For example, when the smart glasses are sold in a store, the area range of the store can be used as a preset range; when the first position of the intelligent glasses is not in the preset range, the intelligent glasses can be determined to be illegally taken away from a store, and then alarm information can be sent, so that other personnel can know corresponding conditions in time, and corresponding processing can be carried out according to the corresponding conditions.

In some embodiments, the step of detecting whether the security data meets a preset condition includes:

detecting whether the touch operation is a preset operation or not according to the touch data;

if the safety data meet the preset conditions, alarm information is sent, and the alarm information comprises the following steps:

and if the touch operation is a preset operation, sending alarm information.

For example, in order to facilitate the warning when the user wearing the smart glasses is in a dangerous environment, some touch operations can be set as warning operations. The alarm operation is a preset operation. For example, the alarm operation may be a double-finger pressing of the touch module to slide down, a double-click of the touch module, or the like.

For example, assuming that the preset operation is a double-click touch module operation, when touch data of the double-click touch module is acquired, alarm information may be sent.

In some embodiments, if the security data satisfies a preset condition, sending an alarm message, including:

if the safety data meet the preset conditions, acquiring a second position of the intelligent glasses;

generating alarm information according to the second position;

and sending alarm information.

For example, suppose that the smart glasses are worn by the user, when the acceleration is greater than the preset acceleration, it can be determined that the user wearing the smart glasses may be in a falling state, for the convenience of other users to quickly arrive at the position where the user wearing the smart glasses is located to treat the user wearing the smart glasses, the position of the smart glasses, namely the second position, can be obtained when the acceleration is greater than the preset acceleration, and alarm information is generated according to the second position. For example, the second position of the smart glasses is xx street xx number in xx district in city xx, the user wearing the smart glasses is user a, and the alarm information can be that "the user a seems to fall down and please go to xx street xx number in xx district in city xx for processing".

After the alarm information is obtained, the alarm information can be sent to other equipment, so that users using the other equipment can timely know the positions of the intelligent glasses, and the users using the other equipment can timely rescue the users wearing the intelligent glasses conveniently.

For another example, when the touch data of the preset operation is acquired, it may be determined that an alarm operation triggered by a user wearing the smart glasses is received, so that other users can quickly arrive at the location of the user wearing the smart glasses to protect the user wearing the smart glasses, when the touch data of the preset operation is acquired, the location of the smart glasses, that is, the second location, is acquired, the alarm information is generated according to the second location, and the alarm information is sent to other devices, so that the user using the other devices can timely know the location of the smart glasses, and the user using the other devices can timely arrive at the corresponding location to protect the user wearing the smart glasses.

In some embodiments, sending alert information includes:

acquiring preset contact information;

and sending the alarm information to a preset contact person based on the preset contact person information.

For example, some contact persons can be preset as emergency contact persons, and when a user wearing the intelligent glasses falls down or is in a dangerous environment, or the intelligent glasses are illegally taken away from a preset range, the alarm information can be sent to the emergency contact persons, so that the emergency contact persons can timely know that the user wearing the intelligent glasses falls down or is in a dangerous environment, or the intelligent glasses are illegally taken away from the preset range, and the like, and accordingly the emergency contact persons can perform corresponding processing based on the situations.

In some embodiments, the security data may include eye image data, and detecting whether the security data satisfies a preset condition includes:

judging whether the similarity between the human eye image data and the preset image data is greater than the preset similarity or not;

if the safety data meet the preset conditions, sending alarm information, including:

and if the similarity between the human eye image data and the preset image data is greater than the preset similarity, sending alarm information.

It can be understood that when the user falls down and is taken by illegal walking, the user is usually in a state of panic, etc., therefore, some human eye image data can be obtained in advance as preset image data, and the human eye image data can be obtained by shooting the eyes of the user in the state of panic, etc. Then, a camera can be arranged in the intelligent glasses to collect the eye images of the user as the eye image data. The human eye image data may then be compared for similarity to preset image data. When the similarity between the human eye image data and the preset image data is larger than the preset similarity, the fact that the user falls down or is taken by an illegal person can be judged, therefore, the alarm information can be sent to other equipment, the user using the other equipment can know the condition of the user wearing the intelligent glasses in time, and the user using the other equipment can process the condition of the user wearing the intelligent glasses in time.

In some embodiments, if the acceleration is greater than the preset acceleration, generating and outputting the prompt message may include: if the acceleration is larger than the preset acceleration, acquiring human eye image data acquired by a camera when the acceleration is acquired; and when the similarity between the human eye image data and the preset image data is greater than the preset similarity, generating and outputting prompt information.

In some embodiments, a motor and an inflatable cushion can be further arranged in the first glasses leg, when the acceleration is larger than the preset acceleration, the intelligent glasses can be judged to fall, in the falling process, the posture of the intelligent glasses can be adjusted through the sound output module or the motor vibration while the alarm information is sent, and in the adjusting process, whether the posture of the intelligent glasses is the preset posture or not can be judged in real time according to data collected by the gyroscope sensor; when the posture of the smart glasses is a preset posture, the sound output module or the motor can be controlled to stop vibrating. Wherein, this alarm information can be sent to on the electronic equipment who binds with intelligent glasses.

Wherein the preset posture may be a posture of the smart glasses that minimizes damage of the smart glasses. For example, the preset posture is a posture of the smart glasses in which the position where the inflatable cushion is disposed is the lowermost position, such as the closest to the ground.

It can be understood that when the smart glasses are worn by the user and the acceleration is less than or equal to the preset acceleration, the posture of the smart glasses may not need to be adjusted. And when the intelligent glasses are not worn by the user and the acceleration is greater than the preset acceleration, the posture of the intelligent glasses can be adjusted.

In some embodiments, a compression airbag capable of popping up automatically can be arranged inside the intelligent glasses, when the intelligent glasses are worn by a user and the acceleration is smaller than or equal to the preset acceleration, the intelligent glasses can be controlled to fall off from the face of the user while alarm information is sent, and the falling speed of the intelligent glasses is controlled, so that the falling speed of the intelligent glasses is greater than the falling speed of the user; when the intelligent glasses fall to the ground, the compression air bag can be controlled to pop up, and the compression air bag is in an inflation state, so that a user falls down on the air bag in the inflation state, and the injury of the user is reduced as much as possible.

Referring to fig. 4, fig. 4 is a schematic flowchart of a second flow of a data processing method provided in the embodiment of the present application, where the data processing method is applicable to the smart glasses 100, and the flow may include:

201. and acquiring the acceleration.

For example, the acceleration may be acquired by the gravity sensor every predetermined time. Every time the gravity sensor collects the acceleration, the intelligent glasses acquire the acceleration.

202. And detecting whether the acceleration is greater than a preset acceleration.

It can be understood that, assuming that the smart glasses are worn by the user, when the user wearing the smart glasses falls down, the acceleration of the smart glasses is high, then, a threshold may be set as the preset acceleration, and it is detected whether the acquired acceleration is greater than the preset acceleration. When the acceleration is greater than the preset acceleration, the user wearing the intelligent glasses falls down in a preliminary judgment mode. And when the acceleration is less than or equal to the preset acceleration, judging that the user wearing the intelligent glasses does not fall down, then continuously acquiring the acceleration, and detecting whether the continuously acquired acceleration is greater than the preset acceleration.

203. And if the acceleration is greater than the preset acceleration, generating and outputting prompt information, wherein the prompt information is used for acquiring feedback information of the user.

In order to further confirm whether the user wearing the intelligent glasses falls down, prompt information of 'do you fall down' can be broadcasted through the voice output module when the acceleration is larger than the preset acceleration, and voice information can be collected through the voice collection module to judge whether feedback information of the user is acquired. If the voice information is not acquired within the preset time or the voice information acquired within the preset time is not the preset voice information, it can be determined that the feedback information of the user is not acquired within the preset time, and then it can be determined that the user wearing the smart glasses falls down. The preset voice information may be set by a user or smart glasses according to actual conditions, and is not limited in this respect. For example, the preset voice information may be "i did not fall", "i did not have trouble", or the like. The preset time may be set by the user and the smart glasses according to a certain rule, and is not particularly limited herein.

It can be understood that if the voice information acquired within the preset time is the preset voice information, it may be determined that the feedback information of the user is acquired within the preset time, and it may be determined that the user wearing the smart glasses does not fall down.

204. And if the feedback information of the user is not acquired within the preset time, acquiring a second position of the intelligent glasses.

205. And generating alarm information according to the second position.

When confirming that the user who wears intelligent glasses tumbles, for making things convenient for other users to arrive at this user's position of wearing intelligent glasses fast and save and cure the user who should wear intelligent glasses, can acquire the position of intelligent glasses, the second position promptly to generate alarm information according to this second position. For example, the second position of the smart glasses is xx street xx number in xx district of city, the user wearing the smart glasses is user a, and the alarm information can be that "the user a seems to fall and please go to xx street xx number in xx district of city for processing soon".

206. And acquiring preset contact information.

207. And sending the alarm information to a preset contact person based on the preset contact person information.

For example, some contact persons can be preset as emergency contact persons, and the alarm information can be sent to the emergency contact persons, so that the emergency contact persons can timely know that a user wearing the intelligent glasses falls down, and the emergency contact persons can timely drive to corresponding positions to perform corresponding processing.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present disclosure. The data processing device 300 may be applied to the smart glasses 100. The data processing apparatus 300 includes: an obtaining module 301, a detecting module 302 and a sending module 303.

An obtaining module 301, configured to obtain the security data.

A detecting module 302, configured to detect whether the security data meets a preset condition.

A sending module 303, configured to send alarm information if the security data meets a preset condition.

In some embodiments, the security data includes acceleration, and the detection module 302 may be configured to: detecting whether the acceleration is greater than a preset acceleration or not;

the sending module 303 may be configured to: and if the acceleration is greater than the preset acceleration, sending alarm information.

In some embodiments, the sending module 303 may be configured to: if the acceleration is larger than the preset acceleration, generating and outputting prompt information, wherein the prompt information is used for acquiring feedback information of a user; and if the feedback information of the user is not acquired within the preset time, sending alarm information.

In some embodiments, the security data includes a first position of the smart eyewear, and the detection module 302 may be configured to: detecting whether the first position is within a preset range;

The sending module 303 may be configured to: and if the position is not in the preset range, sending alarm information.

In some embodiments, the secure data includes touch data of a touch operation, and the detection module 302 may be configured to: detecting whether the touch operation is a preset operation according to the touch data;

the sending module may be configured to: and if the touch operation is a preset operation, sending alarm information.

In some embodiments, the sending module 303 may be configured to: if the safety data meet preset conditions, acquiring a second position of the intelligent glasses; generating alarm information according to the second position; and sending the alarm information.

In some embodiments, the sending module 303 may be configured to: acquiring preset contact information; and sending the alarm information to a preset contact person based on the preset contact person information.

The present embodiment provides a computer-readable storage medium, on which a computer program is stored, and when the computer program is executed on a computer, the computer is caused to execute the flow in the data processing method provided in this embodiment.

The embodiment of the application further provides intelligent glasses, which comprise a memory and a processor, wherein the processor is used for executing the flow in the data processing method provided by the embodiment by calling the computer program stored in the memory.

Referring to fig. 6, fig. 6 is a schematic view of a second structure of smart glasses according to an embodiment of the present application.

The smart eyewear 100 may include components such as a memory 51, a processor 52, and the like. Those skilled in the art will appreciate that the smart eyewear configuration shown in fig. 6 does not constitute a limitation of smart eyewear, and may include more or fewer components than those shown, or some components in combination, or a different arrangement of components.

The memory 51 may be used to store applications and data. The memory 51 stores an application program containing executable code. The application programs may constitute various functional modules. The processor 52 executes various functional applications and data processing by running an application program stored in the memory 51.

The processor 52 is a control center of the smart glasses, connects various parts of the entire smart glasses using various interfaces and lines, and performs various functions of the smart glasses and processes data by running or executing an application program stored in the memory 51 and calling the data stored in the memory 51, thereby performing overall monitoring of the smart glasses.

In this embodiment, the processor 52 in the smart glasses loads the executable code corresponding to the process of one or more application programs into the memory 51 according to the following instructions, and the processor 52 runs the application programs stored in the memory 51, so as to implement the following processes:

acquiring security data;

detecting whether the safety data meet preset conditions or not;

and if the safety data meet the preset conditions, sending alarm information.

Referring to fig. 7, the smart glasses 100 may include a memory 51, a processor 52, a sound output module 20, a touch module 60, an antenna module 70, a sound collection module 80, a sensor 53 (such as a gravity sensor or a gyroscope sensor), a GPS positioning module 54, and the like.

The memory 51 may be used to store applications and data. The memory 51 stores an application program containing executable code. The application programs may constitute various functional modules. The processor 52 executes various functional applications and data processing by running an application program stored in the memory 51.

The processor 52 is a control center of the smart glasses, connects various parts of the entire smart glasses using various interfaces and lines, and performs various functions of the smart glasses and processes data by running or executing an application program stored in the memory 51 and calling the data stored in the memory 51, thereby performing overall monitoring of the smart glasses.

In this embodiment, the processor 52 in the smart glasses loads the executable code corresponding to the process of one or more application programs into the memory 51 according to the following instructions, and the processor 52 runs the application programs stored in the memory 51, so as to implement the following processes:

acquiring security data;

detecting whether the safety data meet preset conditions or not;

and if the safety data meet the preset conditions, sending alarm information.

In some embodiments, the security data includes acceleration, and the processor 52 may perform the detecting whether the security data satisfies a preset condition, and may perform: detecting whether the acceleration is greater than a preset acceleration or not; the processor 52 executes, if the security data meets the preset condition, when sending the alarm information, the following steps may be executed: and if the acceleration is greater than the preset acceleration, sending alarm information.

In some embodiments, when processor 52 executes the alarm information sent if the acceleration is greater than the preset acceleration, it may execute: if the acceleration is larger than the preset acceleration, generating and outputting prompt information, wherein the prompt information is used for acquiring feedback information of a user; and if the feedback information of the user is not acquired within the preset time, sending alarm information.

In some embodiments, the security data includes a first position of the smart glasses, and the processor 52 may perform the detecting whether the security data satisfies a preset condition, and may perform: detecting whether the first position is within a preset range; the processor 52 may execute, if the security data meets the preset condition, when sending the alarm information, the following steps: and if the position is not in the preset range, sending alarm information.

In some embodiments, the security data includes touch data of a touch operation, and the processor 52 may perform the following steps when detecting whether the security data satisfies a preset condition: detecting whether the touch operation is a preset operation according to the touch data; the processor 52 executes, if the security data meets the preset condition, when sending the alarm information, the following steps may be executed: and if the touch operation is a preset operation, sending alarm information.

In some embodiments, when processor 52 executes the sending of the alarm information if the security data meets the preset condition, it may execute: if the safety data meet preset conditions, acquiring a second position of the intelligent glasses; generating alarm information according to the second position; and sending the alarm information.

In some embodiments, when processor 52 executes the sending of the alert information, it may perform: acquiring preset contact information; and sending the alarm information to a preset contact person based on the preset contact person information.

In the above embodiments, the descriptions of the embodiments have respective emphasis, and parts that are not described in detail in a certain embodiment may refer to the above detailed description of the data processing method, and are not described herein again.

The data processing apparatus provided in the embodiment of the present application and the data processing method in the above embodiment belong to the same concept, and any method provided in the embodiment of the data processing method may be run on the data processing apparatus, and a specific implementation process thereof is described in the embodiment of the data processing method in detail, and is not described herein again.

It should be noted that, for the data processing method described in the embodiment of the present application, it can be understood by those skilled in the art that all or part of the process of implementing the data processing method described in the embodiment of the present application can be completed by controlling the relevant hardware through a computer program, where the computer program can be stored in a computer-readable storage medium, such as a memory, and executed by at least one processor, and during the execution, the process of the embodiment of the data processing method can be included. The storage medium may be a magnetic disk, an optical disk, a Read Only Memory (ROM), a Random Access Memory (RAM), or the like.

In the data processing apparatus according to the embodiment of the present application, each functional module may be integrated into one processing chip, or each module may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium, such as a read-only memory, a magnetic or optical disk, or the like.

The data processing method, the data processing device, the storage medium and the smart glasses provided by the embodiments of the present application are introduced in detail, and a specific example is applied to illustrate the principle and the implementation of the present application, and the description of the embodiments is only used to help understand the method and the core concept of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (9)

1. A data processing method is applied to intelligent glasses and comprises the following steps:

acquiring safety data, wherein the safety data comprises acceleration and human eye image data;

detecting whether the safety data meet preset conditions, wherein the detecting whether the safety data meet the preset conditions comprises the following steps: detecting whether the acceleration is greater than a preset acceleration or not, and if the acceleration is greater than the preset acceleration, judging whether the similarity between the human eye image data and the preset image data is greater than a preset similarity or not, wherein the preset image data comprises image data of human eyes in panic and panic states;

if the safety data meet the preset conditions, alarm information is sent, and the alarm information comprises the following steps: and if the similarity between the human eye image data and the preset image data is greater than the preset similarity, sending alarm information.

2. The data processing method according to claim 1, wherein if the acceleration is greater than a preset acceleration, sending an alarm message, comprising:

if the acceleration is larger than the preset acceleration, generating and outputting prompt information, wherein the prompt information is used for acquiring feedback information of a user;

and if the feedback information of the user is not acquired within the preset time, sending alarm information.

3. The data processing method of claim 1, wherein the security data comprises a first position of smart glasses, and the detecting whether the security data satisfies a preset condition comprises:

detecting whether the first position is within a preset range;

if the safety data meet the preset conditions, alarm information is sent, and the alarm information comprises the following steps:

and if the first position is not in the preset range, sending alarm information.

4. The data processing method of claim 1, wherein the security data comprises touch data of a touch operation, and the detecting whether the security data satisfies a preset condition comprises:

detecting whether the touch operation is a preset operation according to the touch data;

if the safety data meet the preset conditions, sending alarm information, including:

and if the touch operation is a preset operation, sending alarm information.

5. The data processing method of claim 1, wherein if the security data meets a preset condition, sending an alarm message comprises:

if the safety data meet preset conditions, acquiring a second position of the intelligent glasses;

Generating alarm information according to the second position;

and sending the alarm information.

6. The data processing method of claim 5, wherein the sending the alert information comprises:

acquiring preset contact information;

and sending the alarm information to a preset contact person based on the preset contact person information.

7. A data processing device, which is applied to smart glasses, includes:

the acquisition module is used for acquiring safety data, and the safety data comprises acceleration and human eye image data;

the detection module is used for detecting whether the safety data meet preset conditions or not, specifically, detecting whether the acceleration is greater than a preset acceleration or not, and if the acceleration is greater than the preset acceleration, judging whether the similarity between the human eye image data and preset image data is greater than a preset similarity or not, wherein the preset image data comprises human eye image data in states of panic and panic;

the sending module is used for sending alarm information if the safety data meet preset conditions, and the sending module is specifically used for sending the alarm information if the similarity between the human eye image data and the preset image data is greater than the preset similarity.

8. A storage medium having stored therein a computer program which, when run on a computer, causes the computer to execute the data processing method of any one of claims 1 to 6.

9. Smart glasses, characterized in that they comprise a processor and a memory, in which a computer program is stored, said processor being adapted to execute the data processing method according to any one of claims 1 to 6 by calling said computer program stored in said memory.

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