CN113080948A

CN113080948A - Health detection method, apparatus, device, storage medium and computer program product

Info

Publication number: CN113080948A
Application number: CN202110347747.4A
Authority: CN
Inventors: 周大丰
Original assignee: Beijing Youzhuju Network Technology Co Ltd
Current assignee: Beijing Youzhuju Network Technology Co Ltd
Priority date: 2021-03-31
Filing date: 2021-03-31
Publication date: 2021-07-09

Abstract

The present disclosure provides a health detection method, apparatus, device, storage medium, and computer program product, which determine a test tone according to target distance information between a user to be tested and a health detection device and environmental noise at a first time, send the test tone to the user to be tested, adjust the test tone based on first feedback information of the user to be tested until the user to be tested can not hear the test tone in a feedback manner, and determine a hearing detection result of the user to be tested according to a volume of the test tone which the user to be tested can not hear. When the hearing is detected, no professional is needed to conduct detection guidance, so that the hearing detection process is completed simply and quickly, the convenience of hearing detection is high, and the accuracy of the obtained hearing detection result is high.

Description

Health detection method, apparatus, device, storage medium and computer program product

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method, an apparatus, a device, a storage medium, and a computer program product for health detection.

Background

In various situations, for example, a physical examination is performed in a hospital or a physical examination center, a physical examination is performed before a driving license examination, and a health test is performed by a user at home, it is necessary to perform a health test on hearing.

In the health test, special equipment is needed to perform hearing test under the guidance of professionals.

However, this makes the hearing test less convenient.

Disclosure of Invention

In order to solve the technical problem, the present disclosure provides a health detection method, apparatus, device, storage medium and computer program product.

In a first aspect, the present disclosure provides a health detection method, including:

determining a test tone according to target distance information between a user to be tested and the health detection equipment and the environmental noise at the first moment;

sending a test tone to a user to be tested;

adjusting the test tone based on the first feedback information of the user to be tested until the test tone cannot be heard by the feedback of the user to be tested;

and determining the hearing test result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested.

Optionally, determining a test tone according to target distance information between the user to be tested and the health detection device and the environmental noise at the first time, including:

determining a first volume of a test sound according to target distance information between a user to be tested and the health detection equipment and the environmental noise at a first moment;

sending a test tone to a user to be tested, comprising:

sending a test sound with a preset volume to a user to be tested, wherein the initial value of the preset volume is a first volume;

adjusting the test tone based on the first feedback information of the user to be tested until the user to be tested can not hear the test tone, comprising:

receiving first feedback information sent by a user to be tested;

and under the condition that the first feedback information indicates that the test tone is heard, updating the preset volume of the test tone, wherein the updated preset volume of the test tone is lower than the preset volume of the test tone before the update, and returning to execute the test tone with the preset volume sent to the user to be tested until the first feedback information indicates that the test tone is not heard.

Optionally, updating the preset volume of the test tone includes:

determining a volume reduction value according to the environmental noise at the second moment;

and updating the preset volume of the test tone according to the volume reduction value, wherein the updated preset volume of the test tone is lower than the preset volume lower volume reduction value of the test tone before updating.

Optionally, updating the preset volume of the test tone includes:

Optionally, determining a first volume of the test tone according to the target distance information and the environmental noise at the first time includes:

determining a masking value according to the environmental noise at the first moment;

and determining the first volume of the test tone according to the masking value, the target distance information and the standard volume.

the first volume of the test tone is obtained according to the following formula,

SPL＝94dB-10log(D/1m)+K(fn)

wherein, SPL is the first volume of the test tone, D is the target distance information, fn is the frequency of the environmental noise at the first moment after fourier transform, and k (fn) is the masking value.

Optionally, the method further includes:

acquiring age information of a user to be tested;

acquiring and displaying vision detection data corresponding to the age information;

receiving second feedback information of the user to be tested, wherein the second feedback information is used for indicating a cognitive result of the user to be tested on the detection data;

and determining the vision detection result of the user to be tested according to the second feedback information.

Optionally, the method further includes:

sending gesture indicating information to a user to be tested, wherein the gesture indicating information is used for indicating the user to be tested to finish a target gesture;

acquiring attitude information of a user to be tested;

matching the target posture according to the posture information to obtain a matching result;

and acquiring a posture detection result of the user to be tested according to the matching result.

Optionally, the method further includes:

and generating and outputting guidance information according to the hearing detection result, the vision detection result and the posture detection result.

In a second aspect, the present disclosure provides a health detection device comprising:

the hearing detection module is used for determining a test tone according to target distance information between a user to be tested and the health detection equipment and the environmental noise at the first moment;

the sending module is used for sending a test tone to a user to be tested;

the hearing detection module is also used for adjusting the test tone based on the first feedback information of the user to be tested until the test tone cannot be heard by the user to be tested; and determining the hearing test result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested.

Optionally, the hearing test module is specifically configured to: determining a first volume of a test sound according to target distance information between a user to be tested and the health detection equipment and the environmental noise at a first moment;

the sending module is specifically configured to: sending a test sound with a preset volume to a user to be tested, wherein the initial value of the preset volume is a first volume;

the hearing test module is specifically configured to: receiving first feedback information sent by a user to be tested; and under the condition that the first feedback information indicates that the test tone is heard, updating the preset volume of the test tone, wherein the updated preset volume of the test tone is lower than the preset volume of the test tone before the update, and returning to execute the test tone with the preset volume sent to the user to be tested until the first feedback information indicates that the test tone is not heard.

Optionally, the hearing test module is specifically configured to:

SPL＝94dB-10log(D/1m)+K(fn)

Optionally, the apparatus further comprises:

the display module is used for displaying vision detection data corresponding to the age information;

the eyesight detection module is used for acquiring age information of a user to be tested; acquiring vision detection data corresponding to the age information; receiving second feedback information of the user to be tested, wherein the second feedback information is used for indicating a cognitive result of the user to be tested on the detection data; and determining the vision detection result of the user to be tested according to the second feedback information.

Optionally, the apparatus further comprises:

the gesture detection module is used for sending gesture indicating information to the user to be tested, and the gesture indicating information is used for indicating the user to be tested to finish the target gesture; acquiring attitude information of a user to be tested; matching the target posture according to the posture information to obtain a matching result; and acquiring a posture detection result of the user to be tested according to the matching result.

Optionally, the apparatus further comprises:

and the guidance information generating module is used for generating and outputting guidance information according to the hearing detection result, the vision detection result and the posture detection result.

In a third aspect, the present disclosure provides an electronic device comprising: one or more processors; a memory; and one or more computer programs; wherein the one or more computer programs are stored in the memory; the one or more processors, when executing the one or more computer programs, cause the electronic device to implement the health detection method as described above in the first aspect.

In a fourth aspect, the present disclosure provides a computer storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the health detection method as described in the first aspect above.

In a fifth aspect, the present disclosure provides a computer program product, which, when run on a computer, causes the computer to perform the health detection method as described in the first aspect above.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

the health detection equipment is used for detecting the hearing ability of a user to be tested according to the following environmental factors which influence the hearing ability detection under the condition that the user to be tested does not need to wear an earphone and the like and does not directly contact the user to be tested: the method comprises the steps of determining a test sound according to target distance information and environmental noise at a first moment, determining more accurate test sound according to a current detection environment, sending the test sound to a user to be tested, adjusting the test sound based on first feedback information of the user to be tested until the user to be tested can not hear the test sound, and determining a hearing detection result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested. When the hearing is detected, a professional is not needed to detect and guide, a user to be detected can finish the hearing detection through interaction with the health detection equipment, so that the hearing detection process is simple and quick to finish, the convenience of the hearing detection is higher, and the influence of environmental factors influencing the hearing detection is fully considered in the hearing detection process, so that the accuracy of the obtained hearing detection result is higher. In addition, the health detection equipment disclosed by the invention has low requirements on the environment, and can be suitable for more scene environments. Moreover, an earphone is not needed in the hearing detection process, and the user to be tested is not in direct contact with the health detection equipment, so that the detection process is more sanitary.

Drawings

Fig. 1 is a schematic view of a health detection scenario provided by the present disclosure;

FIG. 2A is a schematic structural diagram of a health detection apparatus provided in the present disclosure;

FIG. 2B is a schematic diagram of another health detection device provided by the present disclosure;

FIG. 3 is a schematic flow chart of a health detection method provided by the present disclosure;

FIG. 4 is a schematic flow chart of another health detection method provided by the present disclosure;

FIG. 5 is a schematic flow chart of another health detection method provided by the present disclosure;

FIG. 6 is a schematic flow chart of another health detection method provided by the present disclosure;

FIG. 7 is a schematic flow chart of another health detection method provided by the present disclosure;

FIG. 8 is a schematic flow chart of another health detection method provided by the present disclosure;

fig. 9 is a schematic structural diagram of a health detection device provided by the present disclosure.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

In various situations, for example, a physical examination is performed in a hospital or a physical examination center, a physical examination is performed before a driver's license examination, and a health test is performed by a user person at home, it is necessary to perform a health test on hearing.

During health detection, a professional is required to guide the user to use a special detection device for hearing detection, for example, the user can be connected with the special detection device through an earphone, and under the guidance of the professional, the detection device sends out a specified test sound through the earphone to detect the minimum audible volume of the user to be detected, so that hearing detection is completed.

However, when the hearing is detected, in order to make the volume of the test sound output by the detection device more accurate, that is, to make the accuracy of the detection result higher, the detection device sends the same volume, and the volume is also different when the volume is transmitted to the user to be detected through different earphones. The headset cannot be debugged if the user to be tested has no guidance from a professional, for example, at home. This makes the hearing test result less accurate.

In addition, when the earphones are used for hearing detection, different earphones have different sound insulation effects, environmental noise also has certain interference on the detection process, and in order to avoid the interference, the hearing detection is usually carried out in a specified space, so that the requirement on the environmental space is high.

Furthermore, when the hearing test is performed by using the earphone, and a plurality of persons are required to perform the hearing test, for example, the physical examination is performed in a physical examination center, and the plurality of persons are required to sequentially wear the earphone for the test, which will bring a sanitary problem.

To solve the above problems, the present disclosure provides a health detection method and device, please refer to fig. 1, and fig. 1 is a scene schematic diagram of a health detection provided by the present disclosure, as shown in fig. 1, in the health detection scene, a health detection device 100 may be placed in a hospital, a physical examination center, or a school, and the like, and after the health detection device 100 starts hearing detection, a test tone is determined according to detected target distance information between a user 200 to be tested and the health detection device 100 and current environmental noise, so that hearing detection is completed by interacting with the user 200 to be tested.

In some embodiments, please refer to fig. 2A and fig. 2B, fig. 2A is a schematic structural diagram of a health detection apparatus provided by the present disclosure, and fig. 2B is a schematic structural diagram of another health detection apparatus provided by the present disclosure. The health detection device 100 may include: a distance detection module 110 and a sound transceiver module 120. The distance detection module 110 is configured to obtain target distance information between the user to be tested and the health detection device 100, and send the target distance to the processor 130. The sound transceiving module 120 is configured to acquire an environmental noise at a first time of an environment where a user to be tested is located, and send the environmental noise at the first time to the processor 130, so that the processor 130 determines a test sound according to the target distance information and the environmental noise at the first time; the sound transceiving module 120 is further configured to send a test sound to the user to be tested, and the processor 130 adjusts the test sound based on the first feedback information of the user to be tested until the user to be tested fails to hear the test sound, and determines a hearing test result of the user to be tested according to a volume of the test sound that the user to be tested fails to hear.

The distance detection module 110 may be a distance sensor.

The sound transceiver module 120 may be a microphone and a speaker.

The present disclosure does not limit the location where the processor 130 is disposed, and in one possible implementation, as shown in fig. 2A, the processor 130 may be disposed in the health detection device 100, that is, the health detection device 100 may further include the processor 130.

In another possible implementation manner, as shown in fig. 2B, the processor 130 may also be disposed outside the health detection device 100, for example, disposed in a cloud server, the health detection device 100 may further include a communication module 140, the distance detection module 110 and the sound transceiver module 120 are respectively connected to the communication module 140, and the communication module 140 and the processor 130 are connected through a network, so as to perform data interaction. The network connecting the communication module 140 and the processor 130 may be a wired network or a wireless network, which is not limited in this disclosure.

According to the health detection method and the equipment, when hearing detection is carried out, a user to be detected does not need to wear an earphone, the health detection equipment determines a test sound for hearing detection by measuring target distance information and environmental noise of the user to be detected, the user to be detected can complete hearing detection through interaction with the health detection equipment, so that the hearing detection process is simple and quick to complete, the hearing detection is high in convenience, and the influence of environmental factors influencing the hearing detection is fully considered in the hearing detection process, so that the accuracy of a hearing detection result is high. In addition, the health detection equipment disclosed by the invention does not need an earphone, has low requirements on the environment, and is not in direct contact with the health detection equipment by a user to be tested, so that the hearing detection process is more sanitary.

The following describes the technical solutions of the present disclosure and how to solve the above technical problems in detail with specific examples.

Referring to fig. 3, fig. 3 is a schematic flow chart of a health detection method provided by the present disclosure, as shown in fig. 3, the method of the present embodiment is executed by a health detection device, which may be the processor or the health detection device shown in fig. 2A or fig. 2B, or other electronic devices, and the present disclosure does not limit this, and the method of the present embodiment is as follows:

s301, determining a test tone according to target distance information between the user to be tested and the health detection equipment and the environmental noise at the first moment.

The hearing test is to send test sound through the health test equipment to test whether the user to be tested can hear the test sound, thereby completing the hearing test. In the process that the test sound is transmitted from the health detection device to the ear of the user to be tested, the distance between the user to be tested and the health detection device is different, attenuation of the test sound in different degrees can be caused, and the volume of the environmental noise has influence on the volume of the test sound actually heard by the user to be tested in different degrees. Therefore, after the hearing test starting instruction is received by the health detection equipment, the target distance information between the user to be tested and the health detection equipment is obtained, the environmental noise of the environment where the user to be tested is located at the first moment is obtained, and the test tone is determined according to the target distance information and the environmental noise of the first moment.

Wherein the hearing test start instruction is used for instructing to start a hearing test. The hearing test starting instruction can be a sound instruction or a posture instruction and the like sent by a user to be tested in a preset space range. For example, the hearing test start instruction may be a received touch instruction, or a hearing test start button pressed by a user to be tested is detected, and the disclosure is not limited thereto.

In some embodiments, the target distance information between the user to be tested and the health detection device is a linear distance between the health detection device and the user to be tested, which may be implemented by the distance detection module 110 shown in fig. 2A or fig. 2B.

Further, the distance between the user to be tested and the health detection device, which is indicated by the target distance information, is within a preset distance range. When the distance between the user to be tested and the health detection equipment is detected not to be within the preset distance range, outputting first prompt information, wherein the first prompt information is used for prompting the user to be tested to enter the preset distance range.

The preset distance range is a preset distance value range, the preset distance range needs to be set within the preset distance range, a user to be tested can carry out health detection, and the result of the health detection meets the requirement of detection specifications. For example, the preset distance range may be in a range of 1 meter to 5 meters around the health detection device, and may also be other distance ranges, which is not limited by the present disclosure.

The health detection device and the user to be detected are in the same environment, the environmental noise of the environment where the user to be detected is located at the first moment is obtained, namely the environmental noise of the environment where the health detection device is located at the first moment is obtained, and then the health detection device obtains the environmental noise of the environment where the health detection device is located at the first moment.

The first time is the current time, that is, the environmental noise at the current time is acquired after the hearing test is started.

The environmental noise is the sound of the environment, and since the sound in the environment all affects the hearing test, the environmental noise needs to be acquired. Here, after the ambient noise is acquired, the volume of the ambient noise needs to be determined.

In some embodiments, this may be implemented by the acoustic transceiver module 120 shown in fig. 2A or fig. 2B described above.

It should be noted that there is no sequence between obtaining the target distance information and obtaining the environmental noise at the first time. The target distance information and the environmental noise at the first moment can be acquired simultaneously, the target distance information can be acquired first, then the environmental noise at the first moment can be acquired, and then the target distance information can be acquired, which is not limited by the disclosure.

The processing time can be saved by simultaneously acquiring the target distance information and the environmental noise at the first moment, and the waiting time of the user to be tested is shorter, so that the detection experience of the user to be tested in the detection process is better.

S302, sending a test tone to a user to be tested.

In the hearing detection process, test tones are sequentially emitted from high volume to low volume, and after one test tone is emitted each time, the feedback information of the user to be tested is waited to be received.

The initial volume of the test tone can be determined according to the target distance information and the environmental noise at the first moment, the test tones are sent one by one according to the initial volume and the volume reduction of the test tone, and after each test tone is sent, the feedback information of the user to be tested is waited to be received.

Or before sending the test tone each time, determining the volume of the test tone according to the target distance information and the current environmental noise at the first moment, so as to send the test tone with the determined volume, and then waiting for receiving the feedback information of the user to be tested.

Further, the frequency of one or more test tones may be preset, and for the frequency of each test tone, the test tones of the frequency are sequentially emitted from high to low in volume.

In some embodiments, S302 may be implemented by the sound transceiver module 120 shown in fig. 2A or fig. 2B. In other embodiments, the health detection device may be connected to the image acquisition module, or the health detection device further includes the image acquisition module, and the health detection device may also implement S302 through the image acquisition module.

S303, adjusting the test tone based on the first feedback information of the user to be tested until the user to be tested can not hear the test tone.

The first feedback information is used for indicating whether the user to be tested hears the test tone. The first feedback information may be feedback information sent by the user to be tested through voice or body motion, for example, the user to be tested says "hear" or makes a nodding motion, indicating that the user to be tested can hear the test sound. The user to be tested says 'cannot hear' or does shaking motion, or the feedback of the user to be tested is not received within the preset time, and the user to be tested is indicated that the test sound cannot be heard.

And under the condition that the test tone is fed back by the user to be tested, adjusting the test tone according to the first feedback information to obtain the next test tone, and sending the next test tone to the user to be tested until the test tone cannot be fed back by the user to be tested.

In case that the test tone is not heard by the user to be tested, S304 is continuously performed.

S304, determining the hearing test result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested.

The hearing test is to detect the minimum volume that the user to be tested can hear, that is, to detect the volume range that the user to be tested cannot hear. The hearing test result is used for representing the volume of the test sound which cannot be heard by the test user and the volume below the volume.

Further, hearing tests typically require testing at multiple frequencies, i.e., at each of the multiple frequencies, to detect the minimum volume at which the user can hear the frequency. And under the condition that the test tone cannot be heard by the feedback of the user to be tested, continuing to detect the next frequency until the detection of all frequencies is finished.

In this embodiment, the health detection device is not required to be tested to wear an earphone or the like and is not in direct contact with the user to be tested, and according to the environmental factors affecting hearing detection: the method comprises the steps of determining a test sound according to target distance information and environmental noise at a first moment, determining more accurate test sound according to a current detection environment, sending the test sound to a user to be tested, adjusting the test sound based on first feedback information of the user to be tested until the user to be tested can not hear the test sound, and determining a hearing detection result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested. When the hearing is detected, a professional is not required to detect and guide, and a user to be detected can finish the hearing detection through interaction with the health detection equipment, so that the hearing detection is simply and quickly finished, and the convenience of the hearing detection is higher. And because the influence of environmental factors influencing hearing detection is fully considered in the hearing detection process, the accuracy of the obtained hearing detection result is higher. In addition, the health detection equipment disclosed by the invention has low requirements on the environment, and can be suitable for more scene environments. Moreover, an earphone is not needed in the hearing detection process, and the user to be tested is not in direct contact with the health detection equipment, so that the detection process is more sanitary.

Referring to fig. 4, fig. 4 is a schematic flow chart of another health detection method provided by the present disclosure, and fig. 4 is a flowchart of the embodiment shown in fig. 3, further, S3011 is a specific implementation manner of S301, S3021 is a specific implementation manner of S302, and S3031-S3033 are specific implementation manners of S303:

s3011, determining a first volume of a test tone according to target distance information between a user to be tested and the health detection device and environmental noise at a first moment.

It is necessary to determine a first volume of the test tone, which is an initial volume of the test tone, based on the target distance information and the environmental noise at the first time.

And S3021, sending a test sound with preset volume to the user to be tested.

A plurality of test tones may be transmitted, one test tone at a preset volume may be transmitted each time, and then waiting for receiving first feedback information of a user to be tested.

The initial value of the preset volume is the first volume, and the current test sound is lower than the preset volume of the last test sound.

S3031, receiving first feedback information sent by a user to be tested.

S3032, whether the first feedback information indicates that the test tone is heard is judged.

In the case where the first feedback information indicates that the test tone is heard, execution continues with S3033. In the case where the first feedback information indicates that the test tone cannot be heard, execution continues with S304.

And S3033, updating the preset volume of the test tone.

And the preset volume of the updated test tone is lower than that of the test tone before updating.

Updating the preset volume of the test sound to be a volume lower than the current preset volume, sending the updated test sound with the preset volume to a user to be tested, and detecting whether the user to be tested can hear the updated test sound with the preset volume until the user to be tested can not hear the test sound, namely the received first feedback information indicates that the test sound can not be heard. Then, execution may return to S3021.

In this embodiment, the health detection device is not required to be tested to wear an earphone or the like and is not in direct contact with the user to be tested, and according to the environmental factors affecting hearing detection: the method comprises the steps of determining initial volume of a test sound according to target distance information and environmental noise at a first moment, determining more accurate initial volume of the test sound according to a current detection environment, sending the test sound with preset volume to a user to be tested from the initial volume, receiving first feedback information sent by the user to be tested, adjusting the preset volume of the test sound based on the first feedback information of the user to be tested until the user to be tested can not hear the test sound, and determining a hearing detection result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested. When the hearing is detected, a professional is not needed to detect and guide, a user to be detected can finish the hearing detection through interaction with the health detection equipment, so that the hearing detection process is simple and quick to finish, the convenience of the hearing detection is higher, and the influence of environmental factors influencing the hearing detection is fully considered in the hearing detection process, so that the accuracy of the obtained hearing detection result is higher. In addition, the health detection equipment disclosed by the invention has low requirements on the environment, and can be suitable for more scene environments. Moreover, an earphone is not needed in the hearing detection process, and the user to be tested is not in direct contact with the health detection equipment, so that the detection process is more sanitary.

In some embodiments, since the environmental noise has a certain influence on the hearing of the test sound by the user to be tested, and the environmental noise may change along with the progress of hearing detection, for example, the preset volume of the test sound is 90dB and is reduced by 5dB, that is, the volume of the test sound is 85dB, the larger the environmental noise is, the less easily the user to be tested perceives a change from 90dB to 85dB, and the volume reduction value of the test sound can be increased under the condition of large environmental noise. Therefore, in a possible implementation manner of S3033, the volume reduction value may be determined according to the environmental noise, and then the preset volume of the test tone may be updated according to the volume reduction value. The following is a detailed description of a specific embodiment shown in fig. 5.

Referring to fig. 5, fig. 5 is a schematic flow chart of another health detection method provided by the present disclosure, and fig. 5 is a specific implementation manner of S3033 based on the embodiment shown in fig. 4, further as shown in fig. 5, S30331 and S30332 are S3033:

s30331, a volume reduction value is determined based on the environmental noise at the second time.

And when the next test sound with the preset volume is detected, detecting the environmental noise at the second moment, and determining the volume reduction value according to the environmental noise at the second moment.

And the second moment is the moment when the preset volume needs to be updated.

S30332, updating the preset volume of the test tone according to the volume reduction value.

Wherein the updated preset volume of the test tone is reduced by a value less than the preset volume of the test tone before the update.

And after the preset volume of the test sound is updated according to the volume reduction value, continuously using the updated preset volume of the test sound to carry out hearing detection.

In the embodiment, the influence of the current environment on the volume of the test sound is determined according to the environmental noise at the second moment, so that the volume reduction value is determined, the test sound is prevented from being sent for many times, a user to be tested is not easy to perceive the condition of the volume change of the user, then the preset volume of the test sound is updated according to the preset volume of the test sound, the hearing detection is completed, the detection times are effectively reduced in the hearing detection process, and the hearing detection process is simple and quick to complete.

In some embodiments, the environmental noise does not have a large influence on the volume reduction value, and the volume reduction value is a preset threshold within a reasonable error range, so in another possible implementation manner of step S3033, the preset volume of the test tone may be updated according to the preset volume reduction value. The embodiment shown in FIG. 6 will be described in detail below.

Referring to fig. 6, fig. 6 is a schematic flow chart of another health detection method provided by the present disclosure, and fig. 6 is a further specific implementation manner of S3033, based on the embodiment shown in fig. 4, as shown in fig. 6, S3033a is S3033:

and S3033a, updating the preset volume of the test tone according to the volume reduction value.

The volume reduction value is a preset value, and the volume reduction values corresponding to the preset volumes of different test tones can be the same or different.

In this embodiment, the preset volume of the test tone is updated according to the preset volume reduction value, the consumed processing resources of the health detection device are few, so that the processing resources of the health detection device are saved, the health detection device can update the preset volume of the test tone quickly, and hearing detection is completed quickly.

On the basis of the above embodiment, further, S3011 may be implemented by:

a masking value is determined based on the ambient noise at the first time.

The sensitivity of the human ear to another sound sensation is reduced due to the presence of ambient noise, causing a transition in the auditory field, a phenomenon called noise masking. The fraction of the increase in the threshold because of noise masking is called the masking value (which may also be called the masking loudness). For example, a pure tone with a frequency of 800Hz can be heard by a normal person (which cannot be heard by a normal person when the sound pressure level is 0dB), i.e. the hearing threshold of a pure tone with a frequency of 800Hz is 0 dB. However, when 70dB of ambient noise is present, the sound pressure level of the 800Hz pure tone increases to 75dB to be heard, and the threshold increases by 75dB (i.e., 75dB-0 dB). The masking value of this ambient noise for a pure tone at 800Hz can be considered to be 75 dB. Therefore, the presence of environmental noise can affect hearing test.

The fourier transform may be performed on the environmental noise at the first time, the environmental noise may be converted into a frequency corresponding to the environmental noise at the first time, and the masking value may be determined according to the frequency and a correspondence between the frequency and the masking value.

In some embodiments, the first volume of the test tone may be obtained by the following equation (1):

SPL 94dB-10log (D/1m) + K (fn) equation (1)

Wherein, SPL is the first volume of the test tone, D is the target distance information, fn is the frequency corresponding to the environmental noise at the first moment, k (fn) is the masking value, and 94dB is the standard volume.

According to the embodiment, the masking value is determined according to the environmental noise at the first moment, and the first volume of the test sound is determined according to the masking value, the target distance information and the standard volume, so that an earphone is not needed in the hearing detection process, the hearing detection can be completed, and the accuracy of the obtained hearing detection result is further higher.

In some embodiments, the health detection devices provided by the present disclosure may perform vision detection. The following will explain details of the present invention by specific examples.

The health detection device also includes a display module. The display module is used for displaying the vision detection data. The display module may be a display screen or the like.

Referring to fig. 7, fig. 7 is a schematic flow chart of another health detection method provided by the present disclosure, and as shown in fig. 7, the method of the present embodiment is executed by a health detection device, which may be the health detection device provided in the above embodiment. The method of the embodiment comprises the following steps:

s701, acquiring age information of a user to be tested.

The user to be tested logs in before detection, and the age information of the user to be tested is obtained according to the login account.

And image recognition can be carried out on the user to be tested according to the health detection equipment, so that the age information of the user to be tested is determined.

The age information may be an actual age of the user to be tested, or an age group to which the user to be tested belongs.

And S702, acquiring and displaying vision detection data corresponding to the age information.

And determining the corresponding vision test data according to the age information through the corresponding relationship between the pre-stored age information and the vision test data, and then displaying the vision test data.

The vision test data is data included in an eye chart (also called a vision test chart). The eye chart is a chart for measuring vision, and may be used for measuring vision conditions such as myopia, hyperopia, amblyopia, or astigmatism, for example. The eye chart contains icons for measuring vision in different sizes. The visual acuity chart may be an international standard visual acuity chart, a logarithmic visual acuity chart, a landolt's chart and the like, for example, the visual acuity chart may be an "E" shaped visual acuity chart or a "C" shaped visual acuity chart and the like, which is not limited by the disclosure.

When performing vision testing, one icon of one eye chart can be displayed at a time.

Optionally, the vision testing data may be displayed by the display module.

Further, ambient light intensity data may be acquired. And determining the brightness of the vision test data displayed by the display module according to the ambient light intensity data, and displaying the vision test data by the brightness.

In some embodiments, the distance between the health detection device and the user to be tested may be detected, and the display size of the icon of the eye chart may be determined according to the distance between the user to be tested and the health detection device and the corresponding relationship between the size and the distance of the icon in the eye chart.

Therefore, the vision detection is carried out on the user to be tested according to the fixed distance, and the vision detection can be carried out on the user to be tested within the preset space range, so that the flexibility of the vision detection is improved, and the user can conveniently carry out the vision detection.

And S703, receiving second feedback information of the user to be tested.

And the user to be tested feeds back second feedback information of the cognitive result of the vision test data to the health detection equipment according to the displayed vision test data.

The second feedback information is used for indicating the cognitive result of the user to be tested on the test data. The second feedback information may be in the form of voice feedback information, gesture feedback information, and/or other feedback information.

In some embodiments, the health detection device further includes an image acquisition module, and the image acquisition module is configured to acquire gesture feedback information of the user to be tested, where the image acquisition module may be a camera or a video camera.

For example, when the vision test data displayed by the display module is "E", the user to be tested may say "right", and/or the user to be tested may say that the finger is directed to the right.

S704, determining the vision detection result of the user to be tested according to the second feedback information.

And the health detection equipment compares the received second feedback information with the real result of the displayed test data.

And if the cognitive result indicated by the second feedback information is the same as the real result, determining that the icon can be recognized as the vision detection result of the user to be tested.

Further, an icon of the same size or smaller than the current vision test data may be displayed next, and the above test process is repeated until the received second feedback information indicates that the icon cannot be recognized.

And if the cognitive result indicated by the second feedback information is not the same as the real result, determining that the icon cannot be identified in the vision detection result of the user to be tested.

Further, an icon with the same size as the current vision test data may be displayed next, the above-described detection process may be repeated, and if the received second feedback information indicates that the icon can be recognized, an icon with the same size as or smaller than the current vision test data may be displayed next, knowing that the received second feedback information indicates that the icon cannot be recognized. And if the icons with the same size are detected twice next, the received second feedback information indicates that the icons cannot be identified, and the vision detection is finished.

It is understood that the health detection method shown in fig. 7 may be executed alone or in sequence with the health detection method of the above embodiment.

This embodiment, health testing equipment is through the age information who acquires the examination user that awaits measuring, select the visual acuity test data with examination user's that awaits measuring age assorted from multiple visual acuity chart, then carry out visual acuity test according to the visual acuity test data, obtain the visual acuity test result, make different age bracket use different visual acuity test data to detect, make visual acuity test process adaptation different examination user's that awaits measuring demands and circumstances, for example, children's attention is difficult to concentrate on the detected item, when the examination user is children, can use corresponding visual acuity test data, thereby keep the attraction to children's attention, better completion visual acuity test, and then make the visual acuity test result more accurate.

In some embodiments, the health detection devices provided by the present disclosure may perform gesture detection. The following will explain details of the present invention by specific examples.

The health detection device further comprises an image acquisition module. The image acquisition module is used for displaying vision detection data.

Referring to fig. 8, fig. 8 is a schematic flow chart of another health detection method provided in the present disclosure, and as shown in fig. 8, the method of the present embodiment is executed by a health detection device, which may be the health detection device provided in the above embodiment. The method of the embodiment comprises the following steps:

s801, sending gesture indicating information to a user to be tested.

The health detection equipment sends out gesture indicating information and waits for acquiring gesture information of a user to be tested.

And the gesture indicating information is used for indicating the user to be tested to finish the target gesture.

The posture indicating information may be in the form of voice, image or other forms of posture indicating information, for example, the health detection device sends out "please lift arms", "relax shoulders, stand" or "please squat" and the like. The health detection equipment can also display a posture image on a display module of the health detection equipment, and prompts a user to be tested to finish the posture shown by the posture image.

S802, obtaining the posture information of the user to be tested.

After the posture indicating information is sent out, the posture information of the user to be tested can be obtained through the image acquisition module.

The image acquisition module can be a common camera and/or an infrared camera, and the posture information of the user to be tested is the posture made by the user to be tested, which is acquired by the health detection equipment through the image acquisition module.

And S803, matching the target posture according to the posture information to obtain a matching result.

And matching according to the attitude information and the target attitude to obtain a matching result.

Wherein the matching result is used for indicating the situation that the user to be tested completes the target gesture,

and S804, acquiring a gesture detection result of the user to be tested according to the matching result.

The gesture detection result may be a problem of body appearance, for example, the matching result may be whether the user to be tested has a body appearance problem such as an incorrect standing gesture, an unequal shoulder height, a humpback and/or a stooping.

The gesture detection result may also be an evaluation of the completion of the target gesture, for example, the completion of the target gesture may be scored.

In this embodiment, the gesture information of the user to be tested is obtained by sending gesture indication information to the user to be tested, the matching is performed according to the gesture information and the target gesture, the matching result is obtained, and the gesture detection result of the user to be tested is obtained according to the matching result. Thereby, the gesture detection of the user to be tested can be completed.

On the basis of the foregoing embodiment, the health detection method provided in this embodiment may further include the following steps:

The guidance information may be some suggestions in health care and medicine, guidance information corresponding to the health detection of the user to be tested, or guidance information for performing the health detection of the user to be tested within a period of time.

The form of the output guidance information is not limited in this disclosure. For example, the instructional information may be displayed on a display module of the health-detection device. The guidance information may be printed out by a printer or the like connected to the health detection device. The guidance information can be read by scanning the two-dimensional code generated according to the guidance information, and the guidance information can be sent to a cloud server through a network.

In one possible implementation mode, generating and outputting corresponding guidance information according to a hearing detection result, a vision detection result and a posture detection result respectively;

in another possible implementation manner, further, corresponding guidance information is generated and output according to the hearing test result, the vision test result, and the posture test result, respectively, and meanwhile, corresponding comprehensive guidance information may also be generated and output according to the hearing test result, the vision test result, and the posture test result.

For example, if the vision test result of the user to be tested is vision 4.2, the posture is detected to be slightly humpback, and the shoulders are not flat, the output guidance information can be 'possibly causing relevant problems of vision and posture due to incorrect sitting posture for a long time'.

In the present embodiment, guidance information is generated and output based on the hearing test result, the vision test result, and the posture test result. Therefore, the user to be tested can find the problems in the aspects of vision, hearing and/or posture in time so as to adjust or treat.

The following describes the health detection method of the present disclosure with a specific example, and it is understood that the present embodiment provides no limitation to the present disclosure.

The health detection method provided in this embodiment is applied to a health detection device, and the health detection device provided in this embodiment includes: the device comprises a processor, a distance sensor, a camera, a light sensation, a microphone array, a loudspeaker, an infrared camera and a display screen.

The method of this example is as follows:

step 1, determining to start health detection, and carrying out distance detection.

The health detection equipment acquires user information of a user to be tested, wherein the user information of the user to be tested comprises information of the name, age, height and the like of the user to be tested. The health check device then enters into a health check.

When the health detection starts, the distance between the user to be detected and the health detection equipment and the position information of the user to be detected are detected through modules such as a camera and a distance sensor, and a guide prompt can be sent through a loudspeaker at the same time, for example, the guide prompt can be 'please face a screen, keep the position still', and the like, and is used for prompting the user to be detected.

And determining that the position of the user to be tested is stable and entering a specific detection item after the position is within the effective detection distance.

The detection items comprise vision detection, hearing detection and posture detection. The detection order for the detection items in the detection process may be a default order set in advance, for example, the order of the vision detection, the hearing detection, and the posture detection is a default detection order. And a detection sequence instruction of the user to be tested can be obtained, wherein the detection sequence instruction is used for indicating the sequence of the user to be tested for detecting the items. The text prompt information can be displayed through the display screen and/or the voice prompt information can be sent out through the loudspeaker, and a user is prompted to select the detection sequence.

Assuming the user selects the default order for testing, vision testing is performed first.

And 2, performing vision detection.

The health detection equipment determines that a user to be tested stands or sits well in front of a screen through the camera and the distance sensor, namely the user to be tested is detected to be within a preset distance range.

The health detection equipment determines the age bracket to which the user to be tested belongs according to the age of the user to be tested, so that the type of the visual chart is determined according to the age bracket to which the user to be tested belongs. It is assumed that the type of the eye chart is determined to be an "E" shaped eye chart according to the age bracket to which the user to be tested belongs.

The health detection equipment gives a voice prompt to a user to be tested through a loudspeaker: the health detection equipment detects target distance information of a user to be detected from a display screen through a distance sensor and a camera, detects light conditions of an environment through light sensation, automatically adjusts the brightness of the display screen according to the target distance information and the light conditions, and determines the size of an icon in an E-shaped visual chart displayed in the display screen.

The health detection equipment displays an icon in an E-shaped visual chart in a determined size at a time through a display screen, and outputs a voice prompt through a loudspeaker: "please answer the direction of opening of E you see" and then wait for the user to be tested to answer.

The health detection equipment receives response information in a voice form of a user to be tested through the microphone array and performs voice recognition, and/or obtains the response information in a gesture form of the user to be tested through the camera and performs image recognition.

And the health detection equipment judges whether the answer of the user to be tested is correct or not according to the identified answer information, and feeds back information whether the answer of the user to be tested is correct or not through a camera or a loudspeaker. Thereby completing the detection of one icon in the "E" shaped eye chart.

And the health detection equipment detects the next icon again in the same way as the detection way until the feedback information of the user to be detected indicates that the icon cannot be seen clearly through the camera or the microphone array, or the vision detection of the eyes is stopped when the user to be detected continuously answers the icon with a certain size twice.

The health detection equipment sends a voice prompt to a user to be tested through a loudspeaker: the other eye is blocked by hands, the user is prompted to change the mode of blocking the other eye, and the steps are repeated, so that the vision detection of the two eyes is completed.

And 3, performing hearing test.

The health detection equipment detects target distance information between the health detection equipment and a user to be tested through the distance sensor, detects environmental noise at the current moment through the microphone array, and determines the initial volume of a test sound according to the target distance information and the environmental noise.

The health check device emits a test tone through the speaker for about 0.5 seconds at a time at a frequency (also referred to as a frequency bin).

The health detection equipment receives response information of a user to be tested through the microphone array, and the response information is used for indicating whether the user to be tested can hear the test sound. And under the condition that the answering information indicates that the test sound can be heard, detecting the environmental noise at the current moment through the microphone array, and determining the volume reduction value according to the environmental noise.

The health detection equipment plays the test tone which is lower than the current test tone by the volume reduction value through the loudspeaker until the answer information of the user to be tested is received through the microphone array to indicate that the user to be tested cannot hear the test tone.

And switching the health detection equipment to the next frequency, and repeating the hearing detection steps until the detection of all frequency points of the whole detection frequency band is completed.

Step 4, carrying out attitude detection

The health detection equipment sends the posture indication information in a voice form to a user to be tested through a loudspeaker, so that the user to be tested completes a series of postures.

The health detection equipment can also display the image of the target posture through the display screen, and receive the finish degree of the simulated target posture and the action of the user to be tested through the camera, so that the performance of the user to be tested is scored.

And 5, detecting the position in real time.

In the detection process of the detection items, the health detection equipment detects the distance between the user to be detected and the health detection equipment in real time through the distance sensor, and when the distance between the user to be detected and the health detection equipment exceeds a preset distance range, the current detection items can be stopped, and the user to be detected is prompted to adjust the position of the user to be detected to be within the preset distance range. And after the distance sensor determines that the user to be tested enters the preset distance range, the detection of the detection item is continued.

And 6, outputting data statistics and analysis suggestions.

After the health detection equipment completes the detection items, the health detection equipment respectively records detection data and generates analysis suggestion information, and supports a user to be tested to export or download the data and the analysis suggestion information.

The health detection equipment can also output some suggestions in the aspects of health care and medicine according to the detection result of the user to be tested in the current health detection and the change trend of the detection result of the user to be tested in multiple detections, so that the user can find the problems in the aspects of vision, hearing and/or posture in time and adjust or treat the problems.

This technical scheme is through with distance sensor, the camera, the light sense, the microphone array, sensor such as infrared camera is integrated to the equipment in, arrange and go up distance detection, light detection, infrared imaging, algorithms such as beam forming can realize the position and the distance to the user, environmental light and environmental noise etc. carry out autonomous analysis, then provide corresponding image through output module such as high definition display screen and speaker, detection items such as guide user respectively carry out eyesight, hearing, posture, realize the health detection of automatic integral type.

The existing vision, hearing and posture detection equipment is relatively independent and complex in use, and on the basis of the above embodiment, it can be understood that the health detection equipment provided by the present disclosure combines two or more detection items on one health detection equipment, and in the health detection process, the image acquisition module, the distance detection module, the sound transceiver module and the like can be multiplexed in various detection items, and compared with the case that a single equipment is set for each detection item, hardware resources are saved. In addition, various mechanisms for communicating with the user to be tested are arranged in the health detection equipment, so that the user to be tested can be guided to finish the health detection by self without the guidance of professional personnel. And the health detection equipment detects whether the user to be detected is in a preset distance range or not in real time in the detection process, so that the accuracy of the health detection is guaranteed under the condition of no guidance of professionals.

The health detection equipment provided by the disclosure can be used for personal daily health detection, can also be used as professional equipment to replace traditional visual chart detection and other existing equipment, is mainly convenient for a user to quickly and independently detect, can record detection data, helps the user to regularly track own visual acuity, hearing and other health conditions, and can also pointedly provide health care suggestions of some specialties for a detection result, so that the user can discover related problems as soon as possible and pay attention to the problems in time.

Referring to fig. 9, fig. 9 is a schematic structural diagram of a health detection device according to the present disclosure, the device of the present embodiment includes:

the hearing test module 901 is used for determining test tones according to target distance information between a user to be tested and the health test equipment and environmental noise at a first moment;

a sending module 902, configured to send a test tone to a user to be tested;

the hearing detection module 901 is further configured to adjust the test tone based on the first feedback information of the user to be tested until the test tone cannot be heard by the feedback of the user to be tested; and determining the hearing test result of the user to be tested according to the volume of the test sound which can not be heard by the user to be tested.

Optionally, the hearing test module 901 is specifically configured to: determining a first volume of a test sound according to target distance information between a user to be tested and the health detection equipment and the environmental noise at a first moment; receiving first feedback information sent by a user to be tested; and under the condition that the first feedback information indicates that the test tone is heard, updating the preset volume of the test tone, wherein the updated preset volume of the test tone is lower than the preset volume of the test tone before the update, and returning to execute the test tone with the preset volume sent to the user to be tested until the first feedback information indicates that the test tone is not heard.

The sending module 902 is specifically configured to: sending a test sound with a preset volume to a user to be tested, wherein the initial value of the preset volume is a first volume;

optionally, the hearing test module 901 is specifically configured to:

Optionally, the hearing test module 901 is specifically configured to:

SPL＝94dB-10log(D/1m)+K(fn)

Optionally, the apparatus further comprises:

The apparatus of the foregoing embodiment may be configured to implement the technical solution of the foregoing method embodiment, and the implementation principle and the technical effect are similar, which are not described herein again.

The present disclosure provides an electronic device, including: one or more processors; a memory; and one or more computer programs; wherein the one or more computer programs are stored in the memory; the one or more processors, when executing the one or more computer programs, cause the electronic device to implement the health detection method as described in the embodiments above.

The present disclosure provides a computer storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the health detection method as in the above embodiments.

The computer storage medium of the above embodiment may be used to implement the technical solutions of the above method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.

The present disclosure provides a computer program product which, when run on a computer, causes the computer to perform the health detection method as in the above embodiments.

The computer program product of the above embodiment may be used to implement the technical solutions of the above method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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 identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A health detection method, comprising:

sending a test tone to the user to be tested;

and determining the hearing test result of the user to be tested according to the volume of the test sound which cannot be heard by the user to be tested.

2. The method of claim 1, wherein determining the test tone according to the target distance information between the user to be tested and the health detection device and the environmental noise at the first time comprises:

the sending of the test tone to the user to be tested comprises:

sending a test sound with a preset volume to the user to be tested, wherein the initial value of the preset volume is the first volume;

the adjusting the test tone based on the first feedback information of the user to be tested until the test tone cannot be heard by the feedback of the user to be tested includes:

receiving first feedback information sent by the user to be tested;

and under the condition that the first feedback information indicates that the test tone is heard, updating the preset volume of the test tone, wherein the updated preset volume of the test tone is lower than the preset volume of the test tone before updating, and returning to execute the test tone of the preset volume sent to the user to be tested until the first feedback information indicates that the test tone is not heard.

3. The method of claim 2, wherein the updating the preset volume of the test tone comprises:

and updating the preset volume of the test sound according to the volume reduction value, wherein the updated preset volume of the test sound is lower than the preset volume of the test sound before updating by the volume reduction value.

4. The method of claim 2, wherein the updating the preset volume of the test tone comprises:

5. The method according to any one of claims 2-4, wherein determining the first volume of the test tone according to the target distance information and the ambient noise at the first time comprises:

6. The method according to any one of claims 2-4, wherein determining the first volume of the test tone according to the target distance information and the ambient noise at the first time comprises:

SPL＝94dB-10log(D/1m)+K(fn)

7. The method according to any one of claims 1-4, further comprising:

acquiring age information of the user to be tested;

8. The method of claim 7, further comprising:

sending gesture indicating information to the user to be tested, wherein the gesture indicating information is used for indicating the user to be tested to finish a target gesture;

acquiring the attitude information of the user to be tested;

and acquiring the gesture detection result of the user to be tested according to the matching result.

9. The method of claim 8, further comprising:

10. A health detection device, comprising:

the sending module is used for sending a testing sound to the user to be tested;

the hearing detection module is further used for adjusting the test sound based on the feedback information of the user to be tested until the test sound cannot be heard by the feedback of the user to be tested; determining the hearing test result of the user to be tested according to the volume of the test sound which cannot be heard by the user to be tested.

11. An electronic device, comprising: one or more processors; a memory; and one or more computer programs; wherein the one or more computer programs are stored in the memory; wherein the one or more processors, when executing the one or more computer programs, cause the electronic device to implement the health detection method of any of claims 1-9.

12. A computer storage medium comprising computer instructions that, when executed on an electronic device, cause the electronic device to perform the health detection method of any of claims 1-9.

13. A computer program product, characterized in that it causes a computer to carry out the health detection method according to any one of claims 1-9, when said computer program product is run on the computer.