CN113640597A - Method for detecting intelligent space equipment, storage equipment and method and system for detecting equipment - Google Patents

Abstract

The invention relates to the technical field of teaching systems, in particular to a method for detecting intelligent space equipment, storage equipment, and a method and a system for detecting the equipment. The method for detecting the intelligent space equipment comprises the following steps: issuing a command to each device matched with the intelligent space to enable each device to enter different specified states; acquiring a picture of equipment shot by a camera device arranged in an intelligent space, and analyzing the picture to obtain the state of the equipment; the sound of the audio equipment collected by the audio collection device arranged in the intelligent space is acquired, and the sound is analyzed to obtain the state of the audio equipment. Through the method, whether each matched device in each intelligent space is normal or not can be rapidly and conveniently known, the intelligent space is maintained in advance, and normal use of the intelligent space is ensured.

Description

Method for detecting intelligent space equipment, storage equipment and method and system for detecting equipment

Technical Field

The invention relates to the technical field of teaching systems, in particular to a method for detecting intelligent space equipment, storage equipment, and a method and a system for detecting the equipment.

Background

With the rapid development of the internet, various devices are provided to create an intelligent space in a classroom of a school or an indoor place for training or other purposes outside the school. In the use process, a problem often occurs to a certain device suddenly, so that the classroom and the device are temporarily replaced, time is wasted, and the teaching process is influenced.

And if the equipment needs to be checked before each class, a large amount of labor cost is needed. And at present, the use of a plurality of intelligent spaces is seamless connection, and the intelligent spaces cannot be vacated for pre-detection in advance. Therefore, how to perform detection of each device in advance and improve the safety of the intelligent space use on the premise of not increasing the labor cost and not influencing the intelligent space use progress becomes a problem to be solved urgently.

Disclosure of Invention

Therefore, a method for detecting the smart space device is needed to be provided, so as to solve the technical problems that the existing smart space device is high in labor cost, affects the use progress of the smart space, and cannot be found in time when the device is damaged. The specific technical scheme is as follows:

a method for detecting smart space devices, comprising the steps of:

issuing a command to each device matched with the intelligent space to enable each device to enter different specified states;

acquiring a picture of equipment shot by a camera device arranged in an intelligent space, and analyzing the picture to obtain the state of the equipment;

the sound of the audio equipment collected by the audio collection device arranged in the intelligent space is acquired, and the sound is analyzed to obtain the state of the audio equipment.

Further, before "acquire the sound that sets up the audio equipment that the audio acquisition device in the wisdom space gathered", specifically still include the step:

issuing audio playing parameters to audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume;

"acquire the sound that sets up the audio equipment that the audio acquisition device in the wisdom space gathered, it is right sound is analyzed the state of audio equipment, specifically still includes the step:

the method comprises the steps of obtaining sound of audio equipment collected by a microphone array arranged in an intelligent space, and analyzing the collected sound according to a preset algorithm to judge whether the audio equipment is damaged or not.

Further, the method also comprises the following steps: and generating a detection report and sending the detection report to a manager.

In order to solve the technical problem, the storage device is further provided, and the specific technical scheme is as follows:

a storage device having stored therein a set of instructions for carrying out any of the steps of a method of detecting smart space devices as mentioned above.

In order to solve the technical problem, a method for detecting equipment is also provided, and the specific technical scheme is as follows:

a method of detecting a device, comprising the steps of:

the main control end issues commands to all the devices matched with the intelligent space, and all the devices enter different specified states;

shooting a picture of equipment through a camera device arranged in the intelligent space, and sending data of the picture to the main control end;

the main control end receives the data of the picture and analyzes the data of the picture to obtain the state of the equipment;

collecting the sound of audio equipment through an audio collecting device arranged in the intelligent space, and sending the data of the sound to the main control end;

and the master control end receives the sound data and analyzes the sound data to obtain the state of the audio equipment.

Further, before "the sound of audio equipment is gathered through the audio acquisition device that sets up in wisdom space", still include the step:

the main control end issues audio playing parameters to the audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume;

"gather audio equipment's sound through the audio acquisition device that sets up in the wisdom space", specifically still include the step:

collecting the sound of the audio equipment through a microphone array arranged in the intelligent space;

the "analyzing the sound data to obtain the state of the audio device" specifically includes the following steps:

and analyzing the collected sound according to a preset algorithm to further judge whether the audio equipment is damaged.

Furthermore, the audio acquisition device is arranged in the middle of the intelligent space;

the camera device is arranged at the periphery and the middle above the intelligent space;

the wisdom space includes: wisdom classroom.

In order to solve the technical problem, a system for detecting equipment is also provided, and the specific technical scheme is as follows:

a system for detecting a device, comprising: the main control end is respectively in communication connection with the camera device and the audio acquisition device;

the main control end is used for: issuing a command to each device matched with the intelligent space to enable each device to enter different specified states;

the image pickup apparatus is configured to: shooting a picture of equipment in an intelligent space, and sending data of the picture to the main control end;

the main control end is also used for: receiving the data of the picture, and analyzing the data of the picture to obtain the state of the equipment;

the audio acquisition device is used for: collecting sound of audio equipment in an intelligent space, and sending data of the sound to the main control end;

the main control end is also used for: and receiving the sound data, and analyzing the sound data to obtain the state of the audio equipment.

Further, the audio acquisition apparatus includes: a microphone array;

the main control end is also used for: issuing audio playing parameters to audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume; and analyzing the collected sound according to a preset algorithm to further judge whether the audio equipment is damaged.

Furthermore, the audio acquisition device is arranged in the middle of the intelligent space;

the camera device is arranged at the periphery and the middle above the intelligent space;

the wisdom space includes: wisdom classroom.

The invention has the beneficial effects that: a method for detecting smart space devices, comprising the steps of: issuing a command to each device matched with the intelligent space to enable each device to enter different specified states; acquiring a picture of equipment shot by a camera device arranged in an intelligent space, and analyzing the picture to obtain the state of the equipment; the sound of the audio equipment collected by the audio collection device arranged in the intelligent space is acquired, and the sound is analyzed to obtain the state of the audio equipment. Through the method, whether each matched device in each intelligent space is normal or not can be rapidly and conveniently known, the intelligent space is maintained in advance, and normal use of the intelligent space is ensured.

Drawings

FIG. 1 is a flow chart of a method for detecting smart space devices according to one embodiment;

FIG. 2 is a diagram illustrating a method for detecting smart space devices according to one embodiment;

FIG. 3 is a block diagram of a memory device according to an embodiment;

FIG. 4 is a flow chart of a method of detecting a device according to an embodiment;

fig. 5 is a block diagram of a system for detecting a device according to an embodiment.

Description of reference numerals:

300. the storage device is a device that is capable of storing data,

500. a system for testing a device is provided,

501. a main control end, a data transmission end,

502. an image-taking apparatus is provided with a camera,

503. an audio acquisition device.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 2, in the present embodiment, a method for detecting smart space devices can be applied to a storage device including, but not limited to: personal computers, servers, general purpose computers, special purpose computers, network devices, embedded devices, programmable devices, and the like.

The smart space in the present embodiment refers to any place where smart devices are installed, such as a currently popular smart classroom in which corresponding multimedia devices are installed, or other training places, or a currently popular shared office, and the like, and is referred to as the smart space in the present application. In the present embodiment, an intelligent classroom will be described as an example.

Each device matched with the intelligent space refers to multimedia devices (such as desktop computers, audio devices, projectors, touch display screens and the like) arranged in the intelligent space, and the matched devices are changeable, can be added with matched devices, can be reduced, can be updated and the like.

Firstly, specific software is required to be installed on each device to be tested in the intelligent space, and therefore command linkage can be carried out with the rear end. The following is developed:

step S101: and issuing a command to each device matched with the intelligent space to enable each device to enter different specified states. In this embodiment, it is preferable that the command is issued to each device associated with the smart classroom at a fixed time every night, that is, when the smart classroom is not used, the specific time for issuing the command may be adjusted differently according to the actual application scenario, and is not limited at all.

The specified state includes one or more of: ready state, state of the audio device playing audio. It should be noted that, in the following steps S102 and S103, obtaining the picture of the device and obtaining the sound of the audio device, analyzing the picture and the sound, and further determining whether the device is damaged, but the two checks are not in any order, and may be performed first in step S102, first in step S103, or simultaneously, and in a special case, only one of the checks may be performed, and if only the audio playing device without a display is provided in a certain smart space, only step S103 may be performed, without performing step S102. The following explains step S102 and step S103, respectively:

step S102: the method comprises the steps of obtaining a picture of equipment shot by a camera device arranged in the intelligent space, and analyzing the picture to obtain the state of the equipment. In the present embodiment, the image capturing apparatus is preferably an ipcamera, and the network host address is set to transmit the image to the corresponding processing host.

And preferably, one camera is respectively arranged in the middle and around the classroom, the installation height is enough to ensure that all equipment can be shot, and the specific height is not limited. It should be noted that, specifically, how many cameras are to be installed in a classroom, and where the cameras are installed, different choices can be made according to different situations of an actual classroom, and no limitation is made herein.

And acquiring the corresponding state of the equipment for the picture through a pre-trained model (such as MTCNN).

Specifically, the model parameters can be adjusted repeatedly through a convolutional neural network which is built in advance and training for many times for acquiring the device images in advance until the state of each output device can reach the preset accuracy position. The picture is then processed using this pre-trained model.

Such as: and if a certain picture displays a blue screen, the picture is analyzed, and the equipment is known to be abnormal. When the abnormality occurs, all the abnormal equipment conditions can be summarized and then sent to the corresponding manager.

Step S103: the sound of the audio equipment collected by the audio collection device arranged in the intelligent space is acquired, and the sound is analyzed to obtain the state of the audio equipment.

Before "acquire the sound that sets up the audio equipment that the audio acquisition device in the wisdom space gathered", specifically still include the step:

issuing audio playing parameters to audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume;

"acquire the sound that sets up the audio equipment that the audio acquisition device in the wisdom space gathered, it is right sound is analyzed the state of audio equipment, specifically still includes the step:

the method comprises the steps of obtaining sound of audio equipment collected by a microphone array arranged in an intelligent space, and analyzing the collected sound according to a preset algorithm to judge whether the audio equipment is damaged or not.

Preferably, the microphone array is disposed in the middle of a classroom, when an audio device receives an audio playing instruction, the audio device correspondingly plays sound and automatically adjusts the volume of the playing sound, the microphone array can collect the sound played by each audio device, and determine whether the device in each direction emits sound according to a sound localization algorithm, and whether the volume of the emitted sound is consistent with the volume of the corresponding playing sound, if any one of the sound is inconsistent, it is determined that the audio device is damaged.

And when any one device is damaged, generating a detection report and sending the detection report to a manager. Therefore, the manager can know the condition of the equipment in advance and maintain the equipment in advance.

In addition, through the camera device, when any abnormal condition occurs in the classroom, such as the dangerous things like open fire are found, the abnormal condition can be reported to the main control end, and a corresponding alarm signal is sent. The overall process flow can be as shown in fig. 2.

A method for detecting smart space devices, comprising the steps of: issuing a command to each device matched with the intelligent space to enable each device to enter different specified states; acquiring a picture of equipment shot by a camera device arranged in an intelligent space, and analyzing the picture to obtain the state of the equipment; the sound of the audio equipment collected by the audio collection device arranged in the intelligent space is acquired, and the sound is analyzed to obtain the state of the audio equipment. Through the method, whether each matched device in each intelligent space is normal or not can be rapidly and conveniently known, the intelligent space is maintained in advance, and normal use of the intelligent space is ensured.

Furthermore, the microphone array can identify each sound condition in a multi-sound environment.

Furthermore, the situation of each classroom is reported more conveniently and rapidly and the safety is improved by monitoring through the camera.

Referring to fig. 3, in the present embodiment, a memory device 300 is implemented as follows:

a storage device 300 having stored therein a set of instructions for performing any of the steps of a method of detecting smart space devices as mentioned above.

Referring to fig. 2 and fig. 4, in the present embodiment, a method for detecting a device can be applied to a system for detecting a device, the system for detecting a device includes: the main control end is respectively in communication connection with the camera device and the audio acquisition device.

Similarly, in the present embodiment, an intelligent classroom will be described as an example.

Firstly, specific software is required to be installed on each device to be tested in the intelligent space, and therefore command linkage can be carried out with the rear end. The following is developed:

step S401: the main control end issues commands to all the devices matched with the intelligent space, and all the devices enter different specified states. In this embodiment, it is preferable that the command is issued to each device associated with the smart classroom at a fixed time every night, that is, when the smart classroom is not used, the specific time for issuing the command may be adjusted differently according to the actual application scenario, and is not limited at all.

The specified state includes one or more of: ready state, state of the audio device playing audio. It should be noted that, in the following steps S402, S403 and steps S404, S405, respectively, reference is made to obtaining a picture of the device and obtaining a sound of the audio device, and analyzing the picture and the sound, so as to determine whether the device is damaged, but the two checks are not in any sequence, the steps S402, S403 may be performed first, the steps S404, S405 may be performed first, or may be performed simultaneously, and in a special case, only one of the detections may be performed, for example, in a certain smart space, only an audio playing device without a display is provided, only the steps S404, S405 may be performed, and the steps S402, S403 do not need to be performed. The following explains steps S402 and S403 and steps S404 and S405, respectively:

step S402: the picture of equipment is shot through the camera device who sets up in the wisdom space, and sends the data of picture to the master control end. In the present embodiment, the image capturing apparatus is preferably an ipcamera, and the network host address is set to transmit the image to the corresponding processing host.

And preferably, one camera is respectively arranged in the middle and around the classroom, the installation height is enough to ensure that all equipment can be shot, and the specific height is not limited. It should be noted that, specifically, how many cameras are to be installed in a classroom, and where the cameras are installed, different choices can be made according to different situations of an actual classroom, and no limitation is made herein.

Step S403: and the main control end receives the data of the picture and analyzes the data of the picture to obtain the state of the equipment. And acquiring the corresponding state of the equipment for the picture through a pre-trained model (such as MTCNN).

Specifically, the model parameters can be adjusted repeatedly through a convolutional neural network which is built in advance and training for many times for acquiring the device images in advance until the state of each output device can reach the preset accuracy position. The picture is then processed using this pre-trained model.

Such as: and if a certain picture displays a blue screen, the picture is analyzed, and the equipment is known to be abnormal. When the abnormality occurs, all the abnormal equipment conditions can be summarized and then sent to the corresponding manager.

Step S404: gather audio equipment's sound through the audio acquisition device that sets up in the wisdom space, and send the data of sound extremely the master control end.

Step S405: and the master control end receives the sound data and analyzes the sound data to obtain the state of the audio equipment.

Before "the sound through setting up the audio acquisition device collection audio equipment in the wisdom space", still include the step:

the main control end issues audio playing parameters to the audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume;

"gather audio equipment's sound through the audio acquisition device that sets up in the wisdom space", specifically still include the step:

collecting the sound of the audio equipment through a microphone array arranged in the intelligent space;

the "analyzing the sound data to obtain the state of the audio device" specifically includes the following steps:

and analyzing the collected sound according to a preset algorithm to further judge whether the audio equipment is damaged.

Preferably, the microphone array is disposed in the middle of a classroom, when an audio device receives an audio playing instruction, the audio device correspondingly plays sound and automatically adjusts the volume of the playing sound, the microphone array can collect the sound played by each audio device, and determine whether the device in each direction emits sound according to a sound localization algorithm, and whether the volume of the emitted sound is consistent with the volume of the corresponding playing sound, if any one of the sound is inconsistent, it is determined that the audio device is damaged.

And when any one device is damaged, generating a detection report and sending the detection report to a manager. Therefore, the manager can know the condition of the equipment in advance and maintain the equipment in advance.

In addition, through the camera device, when any abnormal condition occurs in the classroom, such as the dangerous things like open fire are found, the abnormal condition can be reported to the main control end, and a corresponding alarm signal is sent. The overall process flow can be as shown in fig. 2.

A method of detecting a device, comprising the steps of: the main control end issues commands to all the devices matched with the intelligent space, and all the devices enter different specified states; shooting a picture of equipment through a camera device arranged in the intelligent space, and sending data of the picture to the main control end; the main control end receives the data of the picture and analyzes the data of the picture to obtain the state of the equipment; collecting the sound of audio equipment through an audio collecting device arranged in the intelligent space, and sending the data of the sound to the main control end; and the master control end receives the sound data and analyzes the sound data to obtain the state of the audio equipment. Through the method, whether each matched device in each intelligent space is normal or not can be rapidly and conveniently known, the intelligent space is maintained in advance, and normal use of the intelligent space is ensured.

Furthermore, the microphone array can identify each sound condition in a multi-sound environment.

Furthermore, the situation of each classroom is reported more conveniently and rapidly and the safety is improved by monitoring through the camera.

Referring to fig. 2 and 5, in the present embodiment, an embodiment of a system 500 for detecting a device is as follows:

a system 500 for detecting a device, comprising: the system comprises a main control terminal 501, a camera device 502 and an audio acquisition device 503, wherein the main control terminal 501 is respectively in communication connection with the camera device 502 and the audio acquisition device 503;

the main control terminal 501 is configured to: and issuing a command to each device matched with the intelligent space to enable each device to enter different specified states. In this embodiment, it is preferable that the command is issued to each device associated with the smart classroom at a fixed time every night, that is, when the smart classroom is not used, the specific time for issuing the command may be adjusted differently according to the actual application scenario, and is not limited at all.

The specified state includes one or more of: ready state, state of the audio device playing audio.

The camera 502 is configured to: shooting the picture of the device in the smart space, and sending the data of the picture to the master control terminal 501. In the present embodiment, the image capturing apparatus 502 is preferably an ip camera, and a network host address is set to transmit an image to a corresponding processing host.

And preferably, one camera is respectively arranged in the middle and around the classroom, the installation height is enough to ensure that all equipment can be shot, and the specific height is not limited. It should be noted that, specifically, how many cameras are to be installed in a classroom, and where the cameras are installed, different choices can be made according to different situations of an actual classroom, and no limitation is made herein.

The main control terminal 501 is further configured to: and receiving the data of the picture, and analyzing the data of the picture to obtain the state of the equipment. And acquiring the corresponding state of the equipment for the picture through a pre-trained model (such as MTCNN).

Specifically, the model parameters can be adjusted repeatedly through a convolutional neural network which is built in advance and training for many times for acquiring the device images in advance until the state of each output device can reach the preset accuracy position. The picture is then processed using this pre-trained model.

Such as: and if a certain picture displays a blue screen, the picture is analyzed, and the equipment is known to be abnormal. When the abnormality occurs, all the abnormal equipment conditions can be summarized and then sent to the corresponding manager.

The audio capturing device 503 is configured to: collecting the sound of the audio device in the smart space, and sending the data of the sound to the main control terminal 501;

the main control terminal 501 is further configured to: and receiving the sound data, and analyzing the sound data to obtain the state of the audio equipment.

Further, the audio capturing apparatus 503 includes: a microphone array;

the main control terminal 501 is further configured to: issuing audio playing parameters to audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume; and analyzing the collected sound according to a preset algorithm to further judge whether the audio equipment is damaged.

Preferably, the microphone array is disposed in the middle of a classroom, when an audio device receives an audio playing instruction, the audio device correspondingly plays sound and automatically adjusts the volume of the playing sound, the microphone array can collect the sound played by each audio device, and determine whether the device in each direction emits sound according to a sound localization algorithm, and whether the volume of the emitted sound is consistent with the volume of the corresponding playing sound, if any one of the sound is inconsistent, it is determined that the audio device is damaged.

And when any one device is damaged, generating a detection report and sending the detection report to a manager. Therefore, the manager can know the condition of the equipment in advance and maintain the equipment in advance.

In addition, through the camera 502, when any abnormal situation occurs in the classroom, for example, when dangerous things such as open fire are found, the abnormal situation can be reported to the main control terminal 501, and a corresponding alarm signal can be sent. The overall process flow can be as shown in fig. 2.

Through above-mentioned check out test set's system, can know fast conveniently whether each equipment that supports in each wisdom space is normal, maintain in advance, ensure the normal use in wisdom space.

Furthermore, the microphone array can identify each sound condition in a multi-sound environment.

Furthermore, the situation of each classroom is reported more conveniently and rapidly and the safety is improved by monitoring through the camera.

It should be noted that, although the above embodiments have been described herein, the invention is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present invention.

Claims (10)

1. A method for detecting smart space devices, comprising the steps of:

issuing a command to each device matched with the intelligent space to enable each device to enter different specified states;

acquiring a picture of equipment shot by a camera device arranged in an intelligent space, and analyzing the picture to obtain the state of the equipment;

the sound of the audio equipment collected by the audio collection device arranged in the intelligent space is acquired, and the sound is analyzed to obtain the state of the audio equipment.

2. The method of claim 1, wherein the smart space device is a smart space device,

before "acquire the sound that sets up the audio equipment that the audio acquisition device in the wisdom space gathered", specifically still include the step:

issuing audio playing parameters to audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume;

"acquire the sound that sets up the audio equipment that the audio acquisition device in the wisdom space gathered, it is right sound is analyzed the state of audio equipment, specifically still includes the step:

the method comprises the steps of obtaining sound of audio equipment collected by a microphone array arranged in an intelligent space, and analyzing the collected sound according to a preset algorithm to judge whether the audio equipment is damaged or not.

3. The method of claim 1, further comprising the steps of: and generating a detection report and sending the detection report to a manager.

4. A storage device having a set of instructions stored therein for performing a method of detecting a smart space device as claimed in any one of claims 1 to 3.

5. A method of inspecting a device, comprising the steps of:

the main control end issues commands to all the devices matched with the intelligent space, and all the devices enter different specified states;

shooting a picture of equipment through a camera device arranged in the intelligent space, and sending data of the picture to the main control end;

the main control end receives the data of the picture and analyzes the data of the picture to obtain the state of the equipment;

collecting the sound of audio equipment through an audio collecting device arranged in the intelligent space, and sending the data of the sound to the main control end;

and the master control end receives the sound data and analyzes the sound data to obtain the state of the audio equipment.

6. The method for detecting equipment according to claim 5, wherein before the step of collecting the sound of the audio equipment by the audio collecting device disposed in the smart space, the method further comprises the steps of:

the main control end issues audio playing parameters to the audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume;

"gather audio equipment's sound through the audio acquisition device that sets up in the wisdom space", specifically still include the step:

collecting the sound of the audio equipment through a microphone array arranged in the intelligent space;

the "analyzing the sound data to obtain the state of the audio device" specifically includes the following steps:

and analyzing the collected sound according to a preset algorithm to further judge whether the audio equipment is damaged.

7. The method of claim 5, wherein the audio capturing device is disposed in the middle of the smart space;

the camera device is arranged at the periphery and the middle above the intelligent space;

the wisdom space includes: wisdom classroom.

8. A system for detecting a device, comprising: the main control end is respectively in communication connection with the camera device and the audio acquisition device;

the main control end is used for: issuing a command to each device matched with the intelligent space to enable each device to enter different specified states;

the image pickup apparatus is configured to: shooting a picture of equipment in an intelligent space, and sending data of the picture to the main control end;

the main control end is also used for: receiving the data of the picture, and analyzing the data of the picture to obtain the state of the equipment;

the audio acquisition device is used for: collecting sound of audio equipment in an intelligent space, and sending data of the sound to the main control end;

the main control end is also used for: and receiving the sound data, and analyzing the sound data to obtain the state of the audio equipment.

9. The system for detecting equipment according to claim 8, wherein the audio acquisition device comprises: a microphone array;

the main control end is also used for: issuing audio playing parameters to audio equipment, wherein the audio playing parameters include but are not limited to: the device for playing the audio and the playing volume; and analyzing the collected sound according to a preset algorithm to further judge whether the audio equipment is damaged.

10. The system of claim 8, wherein the audio capturing device is disposed in the middle of the smart space;

the camera device is arranged at the periphery and the middle above the intelligent space;

the wisdom space includes: wisdom classroom.

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