CN111491125A

CN111491125A - AR intelligence glasses and record appearance

Info

Publication number: CN111491125A
Application number: CN202010312841.1A
Authority: CN
Inventors: 林能清
Original assignee: Shenzhen Qianshi Intelligent Technology Co ltd
Current assignee: Shenzhen Qianshi Intelligent Technology Co ltd
Priority date: 2020-04-20
Filing date: 2020-04-20
Publication date: 2020-08-04
Anticipated expiration: 2040-04-20
Also published as: CN111491125B

Abstract

The invention discloses AR intelligent glasses and a recorder, wherein the AR intelligent glasses comprise: the recorder is in split type data connection with the glasses through a data transmission line; wherein: the recorder is used for collecting and processing high-definition audio and video data on site, carrying out remote communication interaction on the processed audio and video data and a remote platform system, and transmitting the interacted audio and video data to the glasses; the glasses are used for carrying out data interaction with the recorder and displaying the audio and video data after interaction transmitted by the recorder. By the embodiment of the invention, the AR intelligent glasses can realize the 5G large-bandwidth low-delay communication function, realize 2K/4K high-definition video recording, greatly improve the digital processing capacity of the AR intelligent glasses, greatly improve the working efficiency of personnel in a field operation scene, reduce the condition that experts have to process on the field, and save the cost and time.

Description

AR intelligence glasses and record appearance

Technical Field

The invention relates to the field of electronic equipment, in particular to split type AR intelligent glasses and a recorder based on 5G communication.

Background

The AR (Augmented Reality) technology is a virtual display technology developed recently, and is widely applied to various scenes. AR glasses are one of the application scenarios.

Existing AR smart glasses are typically worn on the head of a user. Because the general weight of current AR glasses is too heavy, causes the travelling comfort poor, wears for a long time and causes oppression to user's bridge of the nose, ear etc. easily, feels uncomfortable, causes the field operation personnel to be unwilling to wear scheduling problem.

In addition, the general discernment distance of current AR intelligence glasses camera is short, and video effect is poor, and the limited problem of discernment distance when the user operates, need press close to the target and just can discern the collection. And current AR intelligence glasses generally adopt 4G communication, and general communication ability is weak, can't transmit 2K 4K's high definition video, can't carry out remote real-time communication with remote platform, causes the certain limitation of applicable scene.

Disclosure of Invention

In view of this, the AR smart glasses and the recorder provided by the embodiments of the present invention can enable the AR smart glasses to realize a 5G large bandwidth and low latency communication function, realize 2K/4K high definition video recording, greatly improve the digital processing capability of the AR smart glasses, greatly improve the working efficiency of personnel in a field operation scene, reduce the situations that experts have to perform field processing, and save cost and time.

The technical scheme adopted by the invention for solving the technical problems is as follows:

according to an aspect of an embodiment of the present invention, there is provided AR smart glasses including: the recorder is in split type data connection with the glasses through a data transmission line; wherein:

the recorder is used for collecting and processing high-definition audio and video data on site, carrying out remote communication interaction on the processed audio and video data and a remote platform system, and transmitting the interacted audio and video data to the glasses;

the glasses are used for carrying out data interaction with the recorder and displaying the audio and video data after interaction transmitted by the recorder.

In one possible design, the recorder includes: the intelligent module is respectively electrically connected with the audio and video acquisition module, the 5G communication module and the external equipment interface module;

the audio and video acquisition module is used for acquiring high-definition audio and video data on site;

the intelligent module is used for carrying out remote communication interaction with a remote platform system through the 5G communication module and transmitting the audio and video data after interaction to the glasses;

the 5G communication module is used for enabling the recorder to realize 5G communication interaction with a remote platform system;

and the external equipment interface module is used for providing a connection interface for data interaction between the recorder and the glasses.

In one possible design, the audio/video acquisition module comprises a main camera with a wide-angle lens and 2K/4K high-definition video imaging capability, and is used for realizing long-distance and large-range on-site acquisition of high-definition audio/video data.

In one possible design, the intelligent module is specifically configured to: and audio and video data of the audio and video acquisition module are processed and then transmitted to a remote platform system through the 5G communication module for communication interaction, and the processed audio and video data and returned data analyzed by the remote platform system according to the audio and video data are superposed and processed to form audio and video data which are transmitted to the glasses.

In one possible design, the recorder includes a first microphone and/or a second microphone for capturing audio data in the field.

In one possible design, the intelligent module includes a noise reduction sub-module, and the noise reduction sub-module is internally provided with a noise reduction algorithm and is used for performing noise reduction processing on the first microphone and/or the second microphone.

In one possible design, the intelligent module further includes a voice recognition sub-module, and an AI voice recognition algorithm is built in the voice recognition sub-module, so that the intelligent module realizes the operation of the voice control instruction.

In one possible design, the recorder further comprises a storage module, which is used for storing the audio and video data collected by the audio and video collection module.

In one possible design, the recorder includes a power module, the power module includes a main battery module and a backup battery module, and the backup battery maintains a continuous power supply state for the recorder when the main battery is replaced.

In one possible design, the glasses include a data interface module, an AR display screen; wherein:

the data interface module is used for being connected with an external equipment interface module of the recorder through a data line, so that the glasses and the recorder perform data interaction;

and the AR display screen is used for displaying the audio and video data transmitted by the recorder.

In one possible design, the glasses further comprise a rotating mechanism, wherein the rotating mechanism comprises three sections of rotating shafts which can freely rotate, the first section of rotating shaft and the second section of rotating shaft can realize rotation, and the third section of rotating shaft can realize rotation and left-right movement.

In one possible design, the AR display screen is disposed on the third section of rotation axis, so that the AR display screen follows the rotation and left-right movement of the third section of rotation axis.

In one possible design, the glasses further comprise a secondary camera, and the secondary camera is used for shooting the field audio and video data in a short distance and transmitting the live audio and video data back to the recorder.

In one possible design, the glasses further include a touch input module, configured to receive a touch operation to generate a control instruction, where the control instruction is used to control the recorder to perform a corresponding operation.

According to another aspect of the embodiments of the present invention, there is provided a recorder including: the intelligent module is electrically connected with the audio and video acquisition module and the 5G communication module respectively;

the intelligent module is used for performing remote communication interaction with a remote platform system through the 5G communication module;

and the 5G communication module is used for enabling the recorder to realize 5G communication interaction with a remote platform system.

In one possible design, the recorder further comprises: and the external equipment interface module is electrically connected with the intelligent module and is used for providing a connection interface for data interaction between the recorder and external equipment.

In one possible design, the intelligent module is specifically configured to: and the audio and video data of the audio and video acquisition module are processed and then transmitted to a remote platform system through the 5G communication module for communication interaction, and the processed audio and video data and the returned data analyzed by the remote platform system according to the audio and video data are superposed to form the audio and video data.

In one possible design, the recorder includes a first microphone and/or a second microphone for capturing audio data in the field; the intelligent module comprises a noise reduction sub-module, and a noise reduction algorithm is built in the noise reduction sub-module and is used for carrying out noise reduction processing on the first microphone and/or the second microphone.

Compared with the related art, the AR intelligent glasses and the recorder provided by the embodiment of the invention comprise: the recorder is in split type data connection with the glasses through a data transmission line; wherein: the recorder is used for collecting and processing high-definition audio and video data on site, carrying out remote communication interaction on the processed audio and video data and a remote platform system, and transmitting the interacted audio and video data to the glasses; the glasses are used for carrying out data interaction with the recorder and displaying the audio and video data after interaction transmitted by the recorder. According to the embodiment of the invention, the AR intelligent glasses adopt a split type design, the recorder is in split type data connection with the glasses through the data transmission line, the recorder and the glasses can be quickly combined together through split type and modularization, the balance weight of the glasses on the head can be reduced, and the glasses can be suitable for being worn for a long time; the recorder is worn in a shoulder hanging mode, and the deviation range of the visual angle of a main camera built in the recorder and the first visual angle observed by human eyes is narrowed. Collect and handle on-the-spot high definition audio and video data through the record appearance long-range, on a large scale to audio and video data after will handling carries out remote interaction with far-end platform system, realizes that record appearance and far-end platform system carry out real-time audio and video interaction, makes far-end platform system can carry out the analysis according to the audio and video data after handling that the record appearance transmitted back, and gives the data passback after the analysis the record appearance, the data of far-end platform system passback is carried out the stack with the audio and video data after original processing again to the record appearance, and the audio and video data after handling the stack is given glasses, glasses show audio and video data after the stack is handled. Through the technical scheme, the AR intelligent glasses can realize the 5G large-bandwidth low-delay communication function, realize 2K/4K high-definition video recording, greatly improve the digital processing capacity of the AR intelligent glasses, greatly improve the working efficiency of personnel in a field operation scene, reduce the condition that experts have to process on the field, and save the cost and time.

Drawings

Fig. 1 is a schematic structural diagram of AR smart glasses according to the present invention;

FIG. 2 is a schematic structural diagram of a recorder according to the present invention;

FIG. 3 is a schematic structural diagram of a recorder according to the present invention;

fig. 4 is a schematic structural diagram of glasses of the AR smart glasses provided in the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in itself. Thus, "module", "component" or "unit" may be used mixedly.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

In one embodiment, as shown in fig. 1, the present invention provides AR smart glasses based on 5G communication, including: the recorder 10 is connected with the glasses 20 through a data transmission line in a split type.

The recorder 10 is used for collecting and processing high-definition audio and video data in a long-distance and large-range field, performing remote communication interaction on the processed audio and video data and a far-end platform system, and transmitting the interacted audio and video data to the glasses 20. The audio and video data after interaction is audio and video data formed by combining the audio and video data processed by the recorder with the returned data after the audio and video data received by the far-end platform system is analyzed.

The glasses 20 are configured to perform data interaction with the recorder 10, and display the audio and video data after interaction transmitted by the recorder 10.

In the embodiment, the AR intelligent glasses are designed in a split mode, the recorder is in split data connection with the glasses through the data transmission line, the recorder and the glasses can be quickly combined together in a split mode and a modularization mode, the balance weight of the glasses on the head can be reduced, and the glasses can be suitable for being worn for a long time; the recorder is worn in a shoulder hanging mode, and the deviation range of the visual angle of a main camera built in the recorder and the first visual angle observed by human eyes is narrowed. Collect and handle on-the-spot high definition audio and video data through the record appearance long-range, on a large scale to audio and video data after will handling carries out remote interaction with far-end platform system, realizes that record appearance and far-end platform system carry out real-time audio and video interaction, makes far-end platform system can carry out the analysis according to the audio and video data after handling that the record appearance transmitted back, and gives the data passback after the analysis the record appearance, the data of far-end platform system passback is carried out the stack with the audio and video data after original processing again to the record appearance, and the audio and video data after handling the stack is given glasses, glasses show audio and video data after the stack is handled. Through the technical scheme, the AR intelligent glasses can realize the 5G large-bandwidth low-delay communication function, realize 2K/4K high-definition video recording and H.265 encoding and decoding, greatly improve the digital processing capacity of the AR intelligent glasses, greatly improve the working efficiency of personnel in a field operation scene, reduce the condition that experts have to process on the field, and save the cost and time. The AR intelligent glasses of the embodiment can be applied to execution scenes and can be used as an intelligent law enforcement instrument.

In one embodiment, the recorder 10 is worn by shoulder, bearing weight on the user's shoulders, as shown in fig. 2 and 3. The recorder 10 includes: the intelligent audio and video monitoring system comprises an audio and video acquisition module 11, an intelligent module 12, a 5G communication module 13 and an external equipment interface module 14, wherein the intelligent module 12 is electrically connected with the audio and video acquisition module 11, the 5G communication module 13 and the external equipment interface module 14 respectively. Wherein:

the audio and video acquisition module 11 is used for acquiring high-definition audio and video data in a long-distance and large-range field. Preferably, the audio and video acquisition module comprises a main camera with a wide-angle lens and 2K/4K high-definition video imaging capability, so that the high-definition audio and video data can be acquired in a long-distance and large-range field.

Through configuration audio frequency and video acquisition module in the record appearance makes the record appearance possesses the 2K 4K high definition video imaging ability of wide angle lens, can realize the real-time discernment of remote target, promotes discernment target quantity simultaneously by a wide margin, has realized that remote, on-the-spot collection high definition audio frequency and video data on a large scale, solves among the current product video identification distance short, the video effect is poor problem.

The intelligent module 12 is configured to perform remote communication interaction with a remote platform system through the 5G communication module 13, and transmit the interacted audio/video data to the glasses 20. The method is specifically used for: the audio and video data of the audio and video acquisition module 11 are processed and then transmitted to a far-end platform system through the 5G communication module 13 for communication interaction, and the processed audio and video data and the returned data analyzed by the far-end platform system according to the audio and video data are overlapped and formed to be transmitted to the glasses 20.

Preferably, the intelligent module 12 is a special-purpose processor with multiple cores (for example, 8 cores) and a GPU, and has the capability of audio-video processing, voice processing and image processing including the coding and decoding of 2K/4K videos.

Preferably, the intelligent module 12 is internally provided with an EIS anti-shake algorithm, and the anti-shake algorithm can enable the main camera of the audio/video acquisition module 11 to work in a shake working state and also realize stable video imaging, so that the application range and scenes of the AR intelligent glasses are remarkably increased.

And the 5G communication module 13 is configured to enable the recorder 10 to implement 5G communication interaction with a remote platform system.

By configuring the 5G communication module in the recorder, the recorder can realize 5G communication interaction with large bandwidth and low time delay, the wireless communication capability of the recorder is greatly improved, and the recorder has the capability of wirelessly transmitting 2K/4K high-definition videos.

Preferably, the 5G communication module includes a SIM card slot 131 for inserting a 5G SIM card.

The external device interface module 14 is configured to provide a connection interface for data interaction between the recorder 10 and the glasses 20. Preferably, the external device interface module 14 adopts a DisplayPort projection display mode, and has good interface universality.

In one embodiment, the intelligent module 12 further includes a voice recognition sub-module, and the voice recognition sub-module embeds an AI voice recognition algorithm, so that the intelligent module realizes the operation of the voice control instruction.

Through at the built-in AI speech recognition algorithm of intelligent object, can make the operation of voice control instruction is realized to the record appearance, realizes the function through voice control operation AR intelligence glasses, liberates user's both hands to convenience of customers more passes through voice control operation AR intelligence glasses and remote platform system interaction, it is more convenient and more accords with the requirement of site operation scene than traditional button, touch operation.

In one embodiment, the recorder 10 further comprises a first microphone 15 and/or a second microphone 16, the first microphone 15 and/or the second microphone 16 being used for live audio data acquisition. The intelligent module 12 includes a noise reduction submodule, a noise reduction algorithm is built in the noise reduction submodule, and is used for reducing noise of the first microphone 15 and/or the second microphone 16, so that the first microphone 15 and/or the second microphone 16 can perform clear voice recognition and communication in a noisy environment.

Through AR intelligence glasses adopted the design of two microphones to built-in noise reduction algorithm in intelligent object makes the record appearance can realize carrying out clear speech recognition, conversation under noisy environment.

In one embodiment, the recorder 10 further includes a storage module 17, and the storage module 17 is configured to store the audio and video data acquired by the audio and video acquisition module 11, and an offline target characteristic value library. Wherein the target comprises at least one of: human face and license plate.

By arranging the storage module in the recorder and storing the offline target characteristic value library in the storage module, the AR intelligent glasses can realize offline recognition of various target images such as face recognition and license plates by adopting an offline AI image recognition mode through a built-in algorithm and the target characteristic value library under the condition of no networking, so that the real-time recognition function of target personnel and vehicles can be realized.

In one embodiment, the recorder 10 includes a power module 18, the power module 18 providing power to the recorder 10.

Preferably, the power module 18 includes a main battery module 181 and a backup battery module 182, and both the main battery module 181 and the backup battery module 182 can provide power for the recorder 10. The main battery module 181 is replaceable, the auxiliary battery 182 is built in the recorder 10, and when the main battery 181 is replaced, the recorder 10 can be kept in a continuous power supply state.

The main battery module and the standby battery module are configured in the recorder, so that the recorder can be kept in a continuous power supply state through the standby battery module when the main battery module is replaced.

In one embodiment, the recorder 10 further comprises a speaker 111, wherein the speaker 111 is used for playing the sound of the recorder 10.

In one embodiment, the recorder 10 further comprises a display screen 191, wherein the display screen 191 is used for displaying various operating states of the recorder 10.

In one embodiment, the recorder 10 further comprises a hook 192, the hook 192 being used to hold the recorder 10 on the user's shoulder.

Alternatively, the recorder 10 may be used alone, applicable to the field of industrial inspection, law enforcement, for example as a 5G law enforcement recorder alone.

In one embodiment, as shown in fig. 4, the glasses 20 are configured to perform data interaction with the recorder 10, and display audio and video data transmitted by the recorder 10.

The eyeglasses 20 include: a data interface module 21, an AR display screen 22 and a rotating mechanism 23; wherein:

the data interface module 21 is configured to be connected to the external device interface module 14 of the recorder 10 through a data line, so that the glasses 20 perform data interaction with the recorder 10.

The AR display screen 22 is configured to display the audio and video data transmitted by the intelligent module 12 of the recorder 10.

The rotating mechanism 23 is used for freely adjusting the position of the AR display screen 22 according to the eye pupil distance and/or fatigue condition of a user, so that the space position from the AR display screen to the eye display can be set according to the needs of each person when the glasses are needed, and the glasses can be used even if the user wears the glasses for myopia.

Preferably, the rotating mechanism 23 includes three freely rotatable rotating shafts, wherein the first rotating shaft 231 and the second rotating shaft 232 can rotate, and the third rotating shaft 233 can rotate and move left and right. Through the three-section rotating shaft, the glasses can be flexibly used under the condition that the vision difference of different human eyes (including wearing the myopia glasses) is met, the glasses can also be rotated and removed when the use or the visual fatigue is not needed, and the glasses are extremely convenient to use.

Preferably, the AR display screen 22 is arranged on the third section of rotating shaft 232, so that the AR display screen 22 moves along with the rotation and the left-right movement of the third section of rotating shaft 232, the rotation and the left-right movement of the AR display screen 22 can be realized, the requirement of convenience in use of the AR display screen under the condition of different human eye visual differences (including wearing of myopia glasses, the requirement of a user for re-equipping of special myopia glasses and convenience in popularization and use) is met, the AR display screen can also be rotated and moved away when the use or the visual fatigue is not needed, and the use is extremely convenient.

Preferably, the glasses 20 are supported on the head of a user, can be worn in a head band mode or a glasses mode, and the user can freely adjust the position of the AR display screen 22 according to the eye pupil distance and fatigue conditions and can wear the glasses on the head for a long time.

Preferably, the glasses 20 further include a touch input module (not shown) for receiving a touch operation to generate a control command, where the control command is used to control the recorder to perform a corresponding operation.

Preferably, the touch input module is disposed on a side of the glasses 20, and can be touched by a user.

Preferably, the glasses 20 further include a secondary camera 24, which is used for shooting live audio and video data at a short distance and transmitting the live audio and video data back to the intelligent module 12 of the recorder 10.

Preferably, the sub-camera 24 is disposed on the third section of the rotating shaft 232, so that the sub-camera 24 follows the rotation and the left-right movement of the third section of the rotating shaft 232, thereby realizing the rotation and the left-right movement of the sub-camera 24.

AR intelligence glasses is through setting up two cameras of main assistance, can satisfy the distance and shoot the needs, and the user can select one of them use as required in a flexible way. When long-distance audio and video data needs to be shot, a main camera of the recorder is selected; and when the short-distance audio and video data needs to be shot, selecting the auxiliary camera of the glasses. AR intelligence glasses adopt main and auxiliary camera mode to use according to different scene needs, can disperse AR intelligence glasses's consumption is showing the consumption that has reduced the glasses end, has avoided the product short time to use the problem that just generates heat.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. An AR smart eyewear, the AR smart eyewear comprising: the recorder is in split type data connection with the glasses through a data transmission line; wherein:

2. The AR smart glasses of claim 1, wherein the recorder comprises: the intelligent module is respectively electrically connected with the audio and video acquisition module, the 5G communication module and the external equipment interface module;

3. The AR smart glasses according to claim 2, wherein the audio/video capture module comprises a main camera with a wide-angle lens and 2K/4K high-definition video imaging capability for remote, large-scale on-site capture of high-definition audio/video data.

4. The AR smart glasses of claim 2, wherein the smart module is specifically configured to: and audio and video data of the audio and video acquisition module are processed and then transmitted to a remote platform system through the 5G communication module for communication interaction, and the processed audio and video data and returned data analyzed by the remote platform system according to the audio and video data are superposed and processed to form audio and video data which are transmitted to the glasses.

5. The AR smart glasses of claim 2, wherein the recorder comprises a first microphone and/or a second microphone for live capture of audio data.

6. The AR smart glasses according to claim 5, wherein the smart module comprises a noise reduction sub-module with a noise reduction algorithm built therein for performing noise reduction processing on the first microphone and/or the second microphone.

7. The AR smart glasses according to claim 2, wherein the smart module further comprises a voice recognition sub-module, and the voice recognition sub-module is embedded with an AI voice recognition algorithm, so that the smart module realizes the operation of voice control command.

8. The AR smart glasses according to claim 2, wherein the recorder further comprises a storage module for storing the audio-video data collected by the audio-video collection module.

9. The AR smart glasses according to claim 1, wherein the recorder includes a power module, the power module includes a main battery module and a backup battery module, and the backup battery maintains a continuous power supply state for the recorder when the main battery is replaced.

10. The AR smart glasses of claim 1, wherein the glasses comprise a data interface module, an AR display screen; wherein:

11. The AR smart glasses according to claim 10, further comprising a rotation mechanism, wherein the rotation mechanism comprises three freely rotatable rotation shafts, wherein the first rotation shaft and the second rotation shaft can rotate, and the third rotation shaft can rotate and move left and right.

12. The AR smart glasses of claim 11, wherein the AR display screen is disposed on a third section of rotation axis, such that the AR display screen follows the rotation and left-right movement of the third section of rotation axis.

13. The AR smart glasses of claim 10 further comprising a secondary camera for close-range capture of live audio-video data and transmission back to the recorder.

14. The AR smart glasses of claim 10, further comprising a touch input module configured to receive a touch operation to generate a control instruction, wherein the control instruction is configured to control the recorder to perform a corresponding operation.

15. A recorder, characterized in that it comprises: the intelligent module is electrically connected with the audio and video acquisition module and the 5G communication module respectively;

16. The recorder according to claim 15, further comprising: and the external equipment interface module is electrically connected with the intelligent module and is used for providing a connection interface for data interaction between the recorder and external equipment.

17. The recorder according to claim 15, wherein the intelligent module is specifically configured to: and the audio and video data of the audio and video acquisition module are processed and then transmitted to a remote platform system through the 5G communication module for communication interaction, and the processed audio and video data and the returned data analyzed by the remote platform system according to the audio and video data are superposed to form the audio and video data.

18. The recorder according to claim 15, wherein the recorder comprises a first microphone and/or a second microphone for live capture of audio data; the intelligent module comprises a noise reduction sub-module, and a noise reduction algorithm is built in the noise reduction sub-module and is used for carrying out noise reduction processing on the first microphone and/or the second microphone.

19. The recorder of claim 15, wherein the intelligent module further comprises a voice recognition submodule, and the voice recognition submodule embeds an AI voice recognition algorithm, so that the intelligent module realizes the operation of the voice control command.

20. The recorder according to claim 15, wherein the recorder includes a power module, the power module includes a main battery module and a backup battery module, and the backup battery maintains a continuous power supply state for the recorder when the main battery is replaced.