CN112890782A - Human body temperature information monitoring terminal and monitoring method based on smart phone - Google Patents

Human body temperature information monitoring terminal and monitoring method based on smart phone Download PDF

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CN112890782A
CN112890782A CN202110168701.6A CN202110168701A CN112890782A CN 112890782 A CN112890782 A CN 112890782A CN 202110168701 A CN202110168701 A CN 202110168701A CN 112890782 A CN112890782 A CN 112890782A
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wearer
voice
smart phone
terminal
body temperature
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CN112890782B (en
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张伟
亓光远
秦兴奎
张利华
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Shenzhen Yunji Intelligent Technology Co ltd
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Shenzhen Yunji Intelligent Technology Co ltd
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/01Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/68Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
    • A61B5/6887Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient mounted on external non-worn devices, e.g. non-medical devices
    • A61B5/6898Portable consumer electronic devices, e.g. music players, telephones, tablet computers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

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  • Heart & Thoracic Surgery (AREA)
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Abstract

The invention provides a human body temperature information monitoring terminal and a monitoring method based on a smart phone. According to the embodiment of the invention, whether the terminal is shielded or not is detected in real time through the exposure detection module, and when the terminal is shielded, the shielding alarm is pushed to the smart phone of the wearer, so that the terminal is ensured to be exposed when being worn, meanwhile, the voice signal with decibels within a first threshold value range is collected through the voice collection module, a conversation fragment is further generated and transmitted to the smart phone of the bound wearer, and finally, the body temperature of the wearer is monitored after the temperature measurement module receives the temperature measurement instruction sent by the smart phone of the wearer. The intelligent temperature monitoring system has the advantages that the data collection can be realized through the terminal in the regional range for long-time temperature monitoring of a wearer, the support of a mobile phone of the wearer is not needed, the components of the terminal are simple, actual operation is realized by the intelligent mobile phone, the cost is low, and the popularization and the use are convenient.

Description

Human body temperature information monitoring terminal and monitoring method based on smart phone
Technical Field
The invention relates to the technical field of body temperature monitoring, in particular to a human body temperature information monitoring terminal and a monitoring method based on a smart phone.
Background
When an epidemic situation occurs, the body temperature of a human body needs to be monitored for many times, particularly, in a quiet closed environment such as a library, a meeting room or a movie theater, people need to communicate with people at a low sound in a short distance, the probability of infection is higher, and two people can be in close contact.
For the special scenes, a temperature measurement method is usually adopted to measure the temperature before entering, if the time spent in a closed environment is long, the temperature cannot be well monitored by single body temperature detection, and particularly for a patient in a latent period, once the patient enters a closed area, close contact persons need to screen by means of human memory, and omission is easily caused.
Therefore, how to conveniently and quickly measure the internal personnel in the special scene is a problem which needs to be solved urgently at present.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a human body temperature information monitoring terminal and a human body temperature information monitoring method based on a smart phone, and solves the problem of how to monitor the body temperature of people in a specific public area.
(II) technical scheme
In order to achieve the purpose, the invention is realized by the following technical scheme:
in a first aspect, a human body temperature information monitoring terminal based on a smart phone is provided, the terminal includes:
the voice acquisition module is used for acquiring a sound signal with decibels within a first threshold interval and generating a conversation fragment based on the sound signal;
the temperature measurement module is used for acquiring the body temperature of the wearer when receiving the temperature measurement instruction;
the exposed detection module is used for detecting whether the terminal is shielded or not in real time and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded;
and the communication module is used for sending the conversation fragments and the body temperature to the smart phone of the wearer.
Further, the exposed detection module is a light intensity detection module, and when the light intensity is smaller than a second threshold interval, the terminal is judged to be shielded.
Further, the wearer's smart phone comprises:
the voice segmentation module is used for segmenting the conversation segment into a plurality of first voice sub-segments;
the voiceprint offline matching module is used for performing offline matching on each first voice sub-segment by utilizing the voiceprint information of the wearer, which is stored in the smart phone of the wearer; the voice print server is also used for carrying out offline matching on a plurality of third voice sub-segments by utilizing the voiceprint information of the wearer;
the voice packet generation module is used for deleting the first voice sub-segment belonging to the wearer to obtain a second voice sub-segment, packaging the second voice sub-segment to generate a voice packet, and sending the voice packet to other smart phones under the same local area network;
the third voice sub-segment acquisition module is used for acquiring voice packets from other smart phones under the same local area network and recovering the voice packets into a plurality of third voice sub-segments;
the feedback report generation module is used for sending a feedback report of successful offline matching to the smart phone corresponding to the voice packet when the offline matching of the third voice sub-segment acquired from other smart phones in the same local area network is successful;
and the temperature measurement instruction generation module is used for generating a temperature measurement instruction after receiving feedback reports sent by other smart phones in the same local area network or after generating the feedback reports.
Further, the voice packet generation module is further configured to encrypt the voice packet based on an encryption rule before sending the voice packet to other smart phones in the same lan, and send the decryption rule together with the voice packet;
the third voice sub-segment obtaining module is further configured to obtain a decryption rule from other smart phones in the same local area network, and recover the voice packet into a plurality of third voice sub-segments based on the decryption rule;
the smart phone of the wearer further comprises:
the local area network information acquisition module is used for synchronously acquiring a device list connected to the local area network when the conversation fragment is generated;
and the rule updating module is used for updating the encryption rule and the corresponding decryption rule when the equipment list is changed.
Further, the smartphone of the wearer further includes:
and the close contact person generation module is used for generating close contact person labels containing the smart phone of the wearer, the smart phones corresponding to all the feedback reports and the conversation fragment generation time after receiving the feedback reports sent by other smart phones in the same local area network.
In a second aspect, a human body temperature information monitoring method based on a smart phone is provided, and the method includes:
detecting whether the terminal is shielded or not in real time, and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded;
collecting a sound signal with decibels within a first threshold value interval through a terminal worn on the person;
generating a conversation fragment based on the sound signal, and sending the conversation fragment to the smartphone of the wearer;
when the temperature measurement instruction is received, the body temperature of the wearer is obtained, and the body temperature is sent to the smart phone of the wearer.
Further, the detecting whether the terminal is blocked in real time includes:
and acquiring the light intensity of the terminal environment, and judging that the terminal is shielded when the light intensity is smaller than a second threshold interval.
Further, the method for acquiring the temperature measurement instruction comprises the following steps:
when the smart phone of a wearer acquires a conversation fragment sent by a terminal, the conversation fragment is divided into a plurality of first voice sub-fragments;
performing offline matching on each first voice sub-segment by using voiceprint information of the wearer stored in the smart phone of the wearer;
then deleting the first voice sub-segment belonging to the wearer according to the off-line matching result to obtain a second voice sub-segment,
packaging the second voice sub-segments to generate voice packets, and sending the voice packets to other smart phones in the same local area network;
after feedback reports sent by other smart phones in the same local area network are received, a temperature measuring instruction is generated;
or
After voice packets are obtained from other smart phones in the same local area network, the voice packets are recovered into a plurality of third voice sub-segments;
performing offline matching on the plurality of third voice sub-segments by using the voiceprint information of the wearer;
when the third voice sub-segment is successfully matched in an offline mode, a feedback report of successful offline matching is sent to the smart phone corresponding to the voice packet;
and after the feedback report is generated, generating a temperature measuring instruction.
Further, the method comprises:
acquiring decryption rules from other smart phones in the same local area network, and restoring the voice packet into a plurality of third voice sub-segments based on the decryption rules;
when generating the conversation fragment, synchronously acquiring a device list connected to the local area network;
and when the equipment list is changed, updating the encryption rule and the corresponding decryption rule.
Further, the method further comprises:
after receiving feedback reports sent by other smart phones in the same local area network, generating close contact person labels including the smart phone of the wearer, the smart phones corresponding to all the feedback reports and the conversation fragment generation time.
(III) advantageous effects
The method comprises the steps of detecting whether the terminal is shielded or not in real time through the exposure detection module, pushing a shielding alarm to the smart phone of a wearer when the terminal is shielded, ensuring that the terminal is exposed when the terminal is worn, acquiring a sound signal with decibel within a first threshold value range through the voice acquisition module, generating a conversation fragment and transmitting the conversation fragment to the smart phone of the bound wearer, and finally monitoring the body temperature of the wearer after receiving a temperature measurement instruction sent by the smart phone of the wearer through the temperature measurement module. The intelligent temperature monitoring system has the advantages that the data collection can be realized through the terminal in the regional range for long-time temperature monitoring of a wearer, the support of a mobile phone of the wearer is not needed, the components of the terminal are simple, actual operation is realized by the intelligent mobile phone, the cost is low, and the popularization and the use are convenient.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a system block diagram of a terminal of the present embodiment;
fig. 2 is a schematic product structure diagram of the human body temperature information monitoring terminal of the present embodiment;
fig. 3 is a flow chart of body temperature monitoring according to the present embodiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The embodiment of the application provides the human body temperature information monitoring terminal and the monitoring method based on the smart phone, and solves the problem of how to monitor the body temperature of people in a specific public area.
In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.
Example 1:
as shown in fig. 1, a human body temperature information monitoring terminal based on smart phone includes:
the voice acquisition module is used for acquiring a sound signal with decibels within a first threshold interval and generating a conversation fragment based on the sound signal;
the temperature measurement module is used for acquiring the body temperature of the wearer when receiving the temperature measurement instruction;
the exposed detection module is used for detecting whether the terminal is shielded or not in real time and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded;
and the communication module is used for sending the conversation fragments and the body temperature to the smart phone of the wearer.
The beneficial effects of this embodiment:
according to the embodiment of the invention, whether the terminal is shielded or not is detected in real time through the exposure detection module, and when the terminal is shielded, the shielding alarm is pushed to the smart phone of the wearer, so that the terminal is ensured to be exposed when being worn, meanwhile, the voice signal with decibels within a first threshold value range is collected through the voice collection module, a conversation fragment is further generated and transmitted to the smart phone of the bound wearer, and finally, the body temperature of the wearer is monitored after the temperature measurement module receives the temperature measurement instruction sent by the smart phone of the wearer. The intelligent temperature monitoring system has the advantages that the data collection can be realized through the terminal in the regional range for long-time temperature monitoring of a wearer, the support of a mobile phone of the wearer is not needed, the components of the terminal are simple, actual operation is realized by the intelligent mobile phone, the cost is low, and the popularization and the use are convenient.
Because the room is usually quiet and the talking sound between people is small in special environments such as libraries and meeting rooms, close-range communication is needed, and the terminal of the embodiment has a good use effect at this time, the following detailed description will be given to the specific implementation mode of the terminal by using the library as a monitoring area:
when a user enters a library in an epidemic situation, the social distance between people in the library needs to be kept as far as possible, a worker distributes the terminal of the embodiment at the door and binds the terminal with the smart phone of the user, the user is the wearer of the terminal, the terminal and the smart phone can realize near field communication, and particularly, the Bluetooth protocol communication can be adopted.
As shown in fig. 2, a specific product form of the terminal may be an intelligent wearable device, for example, the terminal is in a form of a smart watch or a smart bracelet. The method comprises the following steps:
the voice acquisition module is used for acquiring a sound signal with decibels within a first threshold interval and generating a conversation fragment based on the sound signal; the first threshold interval is a preset empirical value, and can be manually adjusted according to the actual environment, so that the highest value is kept at a lower decibel value, for example, close to the decibel of whisper between people.
The temperature measurement module can specifically adopt contact temperature measurement or non-contact temperature measurement and is used for acquiring the body temperature of a wearer when receiving a temperature measurement instruction sent by a bound smart phone;
and the exposed detection module is used for detecting whether the terminal is shielded or not in real time and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded.
For example, the exposed detection module adopts a light intensity detection module, the light intensity detection module can be formed by an array consisting of a plurality of light intensity sensors, when the intensity of ambient light is smaller than a second threshold interval, the terminal is judged to be shielded, the second threshold interval is also a preset experience value and is related to the illumination condition of a monitoring area, the terminal can be adjusted manually according to the actual environment, under the ideal condition, the illumination adjustment of the environment is uniform and bright, and at the moment, the second threshold interval should be degenerated into a fixed value or an interval with a small range. In consideration of the use scene, the shielding alarm can be a vibration prompt, and the user can expose the terminal after receiving the alarm, so that the accuracy of voice acquisition is ensured. And also cooperates with the infrared ranging module to determine whether it is occluded.
And the communication module is used for realizing communication between the terminal and the smart phone, for example, sending the conversation fragment and the body temperature to the smart phone of the wearer.
The following functions of the wearer's smartphone may be implemented by installing a corresponding app, including:
the voice segmentation module is used for segmenting the conversation segment into a plurality of first voice sub-segments; in order to ensure that the divided first speech sub-segment is accurate, the existing speech endpoint detection algorithm can be adopted to accurately position the starting point and the ending point of the speech from the speech with noise, remove the mute part and the noise part, find the real effective content in a conversation segment, and further divide the conversation segment into a plurality of first speech sub-segments.
The voiceprint offline matching module is used for performing offline matching on each first voice sub-segment by utilizing the voiceprint information of the wearer, which is stored in the smart phone of the wearer; and the voice print information of the wearer is used for carrying out offline matching on a plurality of third voice sub-segments. Because the voiceprint information of the wearer is only reserved in the mobile phone of the wearer for offline and offline matching, the voiceprint information of the wearer cannot be leaked, and the voiceprint matching method is safer.
The voice packet generation module is used for deleting the first voice sub-segment belonging to the wearer to obtain a second voice sub-segment, packaging the second voice sub-segment to generate a voice packet, and sending the voice packet to other smart phones under the same local area network; the broadcasted voice packet does not contain the content of the speaking of the user, and other users cannot acquire the complete conversation content, so that the safety is further improved. Before the voice packet is sent to other smart phones in the same local area network, the voice packet is encrypted based on the encryption rule, and the decryption rule is sent together with the voice packet. The method is favorable for improving the safety during voice transmission.
The third voice sub-segment obtaining module is used for obtaining the encrypted voice packet and the corresponding decryption rule from other smart phones in the same local area network and recovering the voice packet into a plurality of third voice sub-segments based on the decryption rule;
however, when generating the encryption and decryption rules, in order to further ensure the security, the timeliness of the encryption and decryption rules should be set, so the smart phone of the wearer further includes:
the local area network information acquisition module is used for synchronously acquiring a device list connected to the local area network when the conversation fragment is generated;
and the rule updating module is used for updating the encryption rule and the corresponding decryption rule when the equipment list is changed, so that on one hand, the safety can be improved, and on the other hand, a user who joins after the voice is generated is not necessarily a person who participates in the conversation, and therefore offline matching of voiceprints is not required.
The feedback report generation module is used for sending a feedback report of successful offline matching to the smart phone corresponding to the voice packet when the offline matching of the third voice sub-segment acquired from other smart phones in the same local area network is successful;
and the temperature measurement instruction generation module is used for generating a temperature measurement instruction after receiving feedback reports sent by other smart phones in the same local area network or after generating the feedback reports, and if the feedback reports are not received, the situation that no contact persons are in the conversation segment is shown. Similarly, if no feedback report is generated, it indicates that the third speech sub-segment is not self, i.e. not involved in a conversation, i.e. not a close contact.
And the close contact person generation module is used for generating close contact person labels containing the smart phone of the wearer, the smart phones corresponding to all the feedback reports and the conversation fragment generation time after receiving the feedback reports sent by other smart phones in the same local area network. Since in a quiet environment, the generated intimate contact tag indicates that the collector in the conversation fragment and the person who sent the feedback report are likely to have a close conversation, belonging to the intimate contact, thermometry is required for recording.
Example 2:
a human body temperature information monitoring method based on a smart phone comprises the following steps:
s1, detecting whether the terminal is shielded or not in real time by a bare detection module of the terminal, and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded;
s2, a voice acquisition module of the terminal acquires a sound signal with decibels within a first threshold interval; generating a conversation fragment based on the sound signal, and sending the conversation fragment to the smart phone of the wearer;
s3, when the temperature measurement module of the terminal receives the temperature measurement instruction, the body temperature of the wearer is obtained, and the body temperature is sent to the smart phone of the wearer.
Specifically, the method for acquiring the temperature measurement instruction includes the following two conditions:
the first method comprises the following steps: when the user is the collector of the conversation fragment, K1a-K4a:
k1a, when a voice segmentation module of the smart phone acquires a conversation fragment sent by a terminal, segmenting the conversation fragment into a plurality of first voice sub-fragments;
k2a, the voiceprint offline matching module of the smart phone performs offline matching on each first voice sub-segment by using the voiceprint information of the wearer stored in the smart phone of the wearer;
k3a, deleting the first voice sub-segment belonging to the wearer according to the offline matching result by a voice packet generating module of the smart phone to obtain a second voice sub-segment, packaging the second voice sub-segment to generate a voice packet, and sending the voice packet to other smart phones under the same local area network;
k4a, the temperature measurement instruction generation module of the smart phone generates the temperature measurement instruction after receiving the feedback report sent by other smart phones in the same local area network.
And the second method comprises the following steps: when the user is the receiving party of the voice packet, K1b-K4 b:
k1b, a third voice sub-segment obtaining module of the smart phone obtains the voice packet from other smart phones under the same local area network, and then restores the voice packet into a plurality of third voice sub-segments;
k2b, a voiceprint offline matching module of the smart phone performs offline matching on the third voice sub-segments by using the voiceprint information of the wearer;
k3b, when the third voice sub-segment is successfully matched in an offline mode, a feedback report generating module of the smart phone sends a feedback report of successful offline matching to the smart phone corresponding to the voice packet;
k4b, the temperature measurement instruction generation module of the smart phone generates a temperature measurement instruction after generating the feedback report.
Specifically, the decryption rules are obtained from other smart phones in the same local area network, and the voice packet is restored to a plurality of third voice sub-segments based on the decryption rules.
Specifically, when a dialog segment is generated, a device list connected to a local area network is synchronously acquired;
updating the encryption rules and the corresponding decryption rules when the device list is changed
Specifically, after receiving feedback reports sent by other smartphones in the same local area network, the close-contact person tag including the smartphone of the wearer, the smartphones corresponding to all the feedback reports, and the dialog segment generation time is generated.
It can be understood that, the human body temperature information monitoring method based on the smart phone provided by the embodiment of the present invention corresponds to the human body temperature information monitoring terminal based on the smart phone, and the explanation, examples, and beneficial effects of the relevant contents thereof may refer to the corresponding contents in the human body temperature information monitoring terminal based on the smart phone, which are not described herein again.
In summary, compared with the prior art, the method has the following beneficial effects:
1. according to the embodiment of the invention, whether the terminal is shielded or not is detected in real time through the exposure detection module, and when the terminal is shielded, the shielding alarm is pushed to the smart phone of the wearer, so that the terminal is ensured to be exposed when being worn, meanwhile, the voice signal with decibels within a first threshold value range is collected through the voice collection module, a conversation fragment is further generated and transmitted to the smart phone of the bound wearer, and finally, the body temperature of the wearer is monitored after the temperature measurement module receives the temperature measurement instruction sent by the smart phone of the wearer. The intelligent temperature monitoring system can realize the long-time temperature monitoring of a wearer in an area range, can realize the data acquisition through the terminal, does not need the support of a mobile phone of the wearer, has simple components at the terminal, realizes the actual operation by the intelligent mobile phone, has low cost and convenient popularization and use
2. According to the embodiment of the invention, the acquired conversation fragment is analyzed by the smart phone, the voice acquisition and the close contact in a special scene are associated, the identity of the conversation participant is determined by matching with a voiceprint offline matching technology, the close contact personnel of the conversation fragment acquirer can be further obtained, the body temperature of the conversation participant is acquired when the conversation participant is contacted, the measurement for 24 hours on all personnel is not needed, the temperature measurement is only carried out when the close contact occurs, and the efficiency is higher.
3. The user voiceprint information is stored in the smart phone of the user, the voice content of the user is deleted before the voice is broadcasted, and the encryption and decryption rules are updated by matching with the change of the connection equipment based on the same local area network, so that the privacy and the safety during data transmission are ensured.
It is noted that, herein, 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 above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a human body temperature information monitor terminal based on smart mobile phone which characterized in that, the terminal includes:
the voice acquisition module is used for acquiring a sound signal with decibels within a first threshold interval and generating a conversation fragment based on the sound signal;
the temperature measurement module is used for acquiring the body temperature of the wearer when receiving the temperature measurement instruction;
the exposed detection module is used for detecting whether the terminal is shielded or not in real time and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded;
and the communication module is used for sending the conversation fragments and the body temperature to the smart phone of the wearer.
2. The human body temperature information monitoring terminal based on the smart phone as claimed in claim 1, wherein the exposed detection module is a light intensity detection module, and when the light intensity is smaller than the second threshold interval, it is determined that the terminal is blocked.
3. The human body temperature information monitoring terminal based on the smart phone as claimed in claim 1, wherein the smart phone of the wearer comprises:
the voice segmentation module is used for segmenting the conversation segment into a plurality of first voice sub-segments;
the voiceprint offline matching module is used for performing offline matching on each first voice sub-segment by utilizing the voiceprint information of the wearer, which is stored in the smart phone of the wearer; the voice print server is also used for carrying out offline matching on a plurality of third voice sub-segments by utilizing the voiceprint information of the wearer;
the voice packet generation module is used for deleting the first voice sub-segment belonging to the wearer to obtain a second voice sub-segment, packaging the second voice sub-segment to generate a voice packet, and sending the voice packet to other smart phones under the same local area network;
the third voice sub-segment acquisition module is used for acquiring voice packets from other smart phones under the same local area network and recovering the voice packets into a plurality of third voice sub-segments;
the feedback report generation module is used for sending a feedback report of successful offline matching to the smart phone corresponding to the voice packet when the offline matching of the third voice sub-segment acquired from other smart phones in the same local area network is successful;
and the temperature measurement instruction generation module is used for generating a temperature measurement instruction after receiving feedback reports sent by other smart phones in the same local area network or after generating the feedback reports.
4. The human body temperature information monitoring terminal based on the smart phone as claimed in claim 3, wherein the voice packet generating module is further configured to encrypt the voice packet based on the encryption rule before transmitting the voice packet to other smart phones under the same LAN, and transmit the decryption rule together with the voice packet;
the third voice sub-segment obtaining module is further configured to obtain a decryption rule from other smart phones in the same local area network, and recover the voice packet into a plurality of third voice sub-segments based on the decryption rule;
the smart phone of the wearer further comprises:
the local area network information acquisition module is used for synchronously acquiring a device list connected to the local area network when the conversation fragment is generated;
and the rule updating module is used for updating the encryption rule and the corresponding decryption rule when the equipment list is changed.
5. The human body temperature information monitoring terminal based on the smart phone as claimed in claim 3, wherein the smart phone of the wearer further comprises:
and the close contact person generation module is used for generating close contact person labels containing the smart phone of the wearer, the smart phones corresponding to all the feedback reports and the conversation fragment generation time after receiving the feedback reports sent by other smart phones in the same local area network.
6. A human body temperature information monitoring method based on a smart phone is characterized by comprising the following steps:
detecting whether the terminal is shielded or not in real time, and pushing a shielding alarm to the smart phone of the wearer when the terminal is shielded;
collecting a sound signal with decibels within a first threshold value interval through a terminal worn on the person;
generating a conversation fragment based on the sound signal, and sending the conversation fragment to the smartphone of the wearer;
when the temperature measurement instruction is received, the body temperature of the wearer is obtained, and the body temperature is sent to the smart phone of the wearer.
7. The human body temperature information monitoring method based on the smart phone as claimed in claim 6, wherein the detecting whether the terminal is blocked in real time comprises:
and acquiring the light intensity of the terminal environment, and judging that the terminal is shielded when the light intensity is smaller than a second threshold interval.
8. The human body temperature information monitoring method based on the smart phone as claimed in claim 6, wherein the method for obtaining the temperature measurement instruction comprises:
when the smart phone of a wearer acquires a conversation fragment sent by a terminal, the conversation fragment is divided into a plurality of first voice sub-fragments;
performing offline matching on each first voice sub-segment by using voiceprint information of the wearer stored in the smart phone of the wearer;
then deleting the first voice sub-segment belonging to the wearer according to the off-line matching result to obtain a second voice sub-segment,
packaging the second voice sub-segments to generate voice packets, and sending the voice packets to other smart phones in the same local area network;
after feedback reports sent by other smart phones in the same local area network are received, a temperature measuring instruction is generated;
or
After voice packets are obtained from other smart phones in the same local area network, the voice packets are recovered into a plurality of third voice sub-segments;
performing offline matching on the plurality of third voice sub-segments by using the voiceprint information of the wearer;
when the third voice sub-segment is successfully matched in an offline mode, a feedback report of successful offline matching is sent to the smart phone corresponding to the voice packet;
and after the feedback report is generated, generating a temperature measuring instruction.
9. The human body temperature information monitoring method based on the smart phone as claimed in claim 8, wherein the method comprises:
acquiring decryption rules from other smart phones in the same local area network, and restoring the voice packet into a plurality of third voice sub-segments based on the decryption rules;
when generating the conversation fragment, synchronously acquiring a device list connected to the local area network;
and when the equipment list is changed, updating the encryption rule and the corresponding decryption rule.
10. The human body temperature information monitoring method based on the smart phone as claimed in claim 8, wherein the method further comprises:
after receiving feedback reports sent by other smart phones in the same local area network, generating close contact person labels including the smart phone of the wearer, the smart phones corresponding to all the feedback reports and the conversation fragment generation time.
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