CN111685744A - Health monitoring method and system for forbidden personnel - Google Patents

Abstract

The invention provides a health monitoring method and a system for a person to be monitored, wherein the method comprises the following steps: receiving health information sent by the wearable device to obtain a motion track of the wearable device; comparing physiological characteristic parameters with normal physiological characteristic parameters aiming at the health information sent by each wearable device, and if the difference value of the physiological characteristic parameters participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device as a first device to be monitored; finding wearable equipment with an overlapped track with the first equipment to be monitored and marking the wearable equipment as second equipment to be monitored; and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored. According to the scheme, the health condition of the forbidden person can be monitored, the action track of the forbidden person can be tracked, and if people have infectious diseases, the possibly existing infected people can be determined according to the track overlapping information.

Description

Health monitoring method and system for forbidden personnel

Technical Field

The invention relates to the technical field of information processing, in particular to a health monitoring method and system for forbidden persons.

Background

The novel coronavirus (2019-nCoV acute respiratory disease) has extremely strong spreading performance, and particularly in places with high personnel density, closed space and the like, many incidents of infection only through contact have been reported. Prison is used as a safe and closed place, once people are infected, the prison can be spread at a very high speed, and the situation that many cases for diagnosis are intensively generated in China and other countries occurs. This indicates that there is also a blind area for the health supervision of the disabled person.

Therefore, there is still great room for improvement in how to monitor the health condition of a person being monitored in real time.

Disclosure of Invention

The embodiment of the invention aims to provide a method and a system for monitoring the health of a person to be monitored, and solves the technical problem that a blind area exists in the health management of the person to be monitored such as prisoners in the prior art.

In order to solve the above technical problem, some embodiments of the present invention provide a health monitoring method for a person under surveillance, including the following steps:

receiving health information sent by wearable equipment, wherein the health information comprises personnel information, position information and physiological characteristic parameters of wearing personnel of the associated wearable equipment;

obtaining a motion track of the wearable equipment according to the relation between position information in the health information sent by each wearable equipment and time;

comparing physiological characteristic parameters with normal physiological characteristic parameters aiming at the health information sent by each wearable device, and if the difference value of the physiological characteristic participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device as a first device to be monitored;

finding wearable equipment with an overlapped track with the first equipment to be monitored and marking the wearable equipment as second equipment to be monitored;

and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored.

Optionally, the health monitoring method for the prohibited person further includes the following steps:

monitoring the change rule of the physiological characteristic parameters in the wearable device, and if the increase value or the decrease value of the physiological characteristic parameters exceeds a preset range, marking the wearable device as a first device to be monitored.

Optionally, the health monitoring method for the prohibited person further includes the following steps:

when the difference value between the physiological characteristic parameter sent by any one wearable device and the normal physiological parameter exceeds a set threshold value or the increase value or the decrease value of the physiological characteristic parameter exceeds a preset range, acquiring the current position information of the wearable device;

determining a video monitoring module closest to the wearable device according to the current position information, and controlling the video monitoring module closest to the wearable device to acquire facial feature information of a wearing person of the wearable device;

and judging whether the wearing person has a disease risk or not according to the facial feature information and the physiological feature parameters.

Still another embodiment of the present invention provides a health monitoring system for a disabled person, comprising:

a plurality of wearable devices worn by a person being prohibited; each wearable device is internally provided with a positioning module, a physiological characteristic monitoring module and a control module; the positioning module monitors the position information of the wearable device in real time and sends the position information to the control module; the physiological characteristic monitoring module monitors physiological characteristic parameters of a wearing person of the wearable device in real time and sends the physiological characteristic parameters to the control module; the control module stores personnel information of a wearing person of the wearable device, and the personnel information, the position information and the physiological characteristic parameters are associated to obtain health information of the wearing person;

the control host machine is used for receiving the health information sent by each wearable device; obtaining a motion track of the wearable equipment according to the relation between position information in the health information sent by each wearable equipment and time; comparing physiological characteristic parameters with normal physiological characteristic parameters aiming at the health information sent by each wearable device, and if the difference value of the physiological characteristic participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device as a first device to be monitored; finding wearable equipment with an overlapped track with the first equipment to be monitored and marking the wearable equipment as second equipment to be monitored; and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored.

Optionally, in the above health monitoring system for a person being monitored, in the wearable device, the physiological characteristic monitoring module includes a body temperature monitoring unit; the heart rate monitoring device further comprises at least one of a pulse monitoring unit, a heart rate monitoring unit, a vibration monitoring unit, a blood oxygen sensing unit and an electrocardiogram sensing unit.

Optionally, the health monitoring system for a person being monitored described above further includes:

the positioning tag is arranged at a monitoring point position in a monitoring area and used for transmitting a monitoring signal with a specific frequency, and the monitoring signal carries ID information of the positioning tag;

when the positioning module enters the monitoring range of the positioning tag, receiving and receiving the monitoring signal of the specific frequency, and analyzing the ID information contained in the monitoring signal and the distance between the monitoring signal and the positioning tag; and the positioning module takes the ID information and the distance as the position information and sends the position information to the control module.

Optionally, in the health monitoring system for a prohibited person, the control host is further configured to monitor a change rule of a physiological characteristic parameter in the wearable device, and if an increased value or a decreased value of the physiological characteristic parameter exceeds a preset range, the wearable device is marked as a first device to be monitored.

Optionally, the health monitoring system for the prohibited person further includes a plurality of video monitoring modules:

the video monitoring modules are distributed on monitoring points; the control host acquires the current position information of the wearable device when the difference value between the physiological characteristic parameter sent by one piece of wearable device and the normal physiological parameter exceeds a set threshold value or the increase value or the decrease value of the physiological characteristic parameter exceeds a preset range; determining a video monitoring module closest to the wearable device according to the current position information, and controlling the video monitoring module closest to the wearable device to acquire facial feature information of a wearing person of the wearable device;

and the control host machine judges whether the wearing person has a disease risk or not according to the facial feature information and the physiological feature parameters.

Optionally, in the health monitoring system for a person being monitored, the wearable device is further configured with a voice call unit;

and the control host sends the facial feature information, the physiological feature parameters and the communication mode of the voice call unit of the wearing person to terminal equipment held by medical staff when determining that the wearing person has a disease risk.

Optionally, the above health monitoring system for a person being prohibited, the wearable device comprises a bracelet, a handcuff, a hat, a helmet and/or a harness.

Compared with the prior art, the technical scheme provided by the embodiment of the invention at least has the following beneficial effects:

the health monitoring method and the system for the forbidden person can monitor the health condition of the forbidden person, can track the action track of the forbidden person, can determine the possibly existing infected person according to the track overlapping information once the infectious diseases of a certain person are found, and help the manager to take measures in time so as to prevent further infection diffusion.

Drawings

The embodiments of the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a flow chart of a health monitoring method for an inhibited person according to one embodiment of the present invention;

FIG. 2 is a flow chart of a health monitoring method for an inhibited person according to another embodiment of the present invention;

FIG. 3 is a block diagram of a health monitoring system for an inhibited person, according to an embodiment of the present invention;

FIG. 4 is a block diagram of a health monitoring system for an inhibited person according to another embodiment of the present invention;

fig. 5 is a schematic diagram of a hardware connection relationship of an electronic device for implementing a health monitoring method for a person being monitored according to an embodiment of the present invention.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or assembly referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Some embodiments of the present invention provide a health monitoring method for a person under surveillance, which may be applied to a server in a surveillance site such as a prison, as shown in fig. 1, the method including the steps of:

s101: receiving health information sent by the wearable device, wherein the health information comprises personnel information, position information and physiological characteristic parameters of a wearing person of the associated wearable device. Wearable equipment can be bracelet, handcuffs, cap, helmet and/or braces, and various sensors are configured in the wearable equipment to monitor the physiological characteristic parameters of personnel. Wherein the physiological characteristic parameter comprises body temperature; at least one of pulse, heart rate, vibration (for monitoring the vibrations of a cough), blood oxygen concentration, electrocardiogram may also be included.

S102: and obtaining the motion trail of the wearable equipment according to the relation between the position information in the health information sent by each wearable equipment and the time. The time for acquiring the position is recorded in the health information sent by the wearable device, and the position information is subjected to curve drawing in a coordinate system by taking the time as an abscissa and the position as an ordinate, so that the track of each wearable device can be obtained.

S103: and comparing physiological characteristic parameters with normal physiological characteristic parameters aiming at the health information sent by each wearable device, and if the difference value of the physiological characteristic participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device as a first device to be monitored. For example, the normal range of body temperature values is 35.5-37 ℃, and if the monitored result exceeds 37.3 ℃, the person can be determined to have fever, and relevant information such as cough vibration is correspondingly monitored, and the person is likely to have infectious diseases.

S104: and searching for the wearable device with the overlapped track with the first device to be monitored and marking the wearable device as a second device to be monitored.

S105: and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored.

It can be understood that the solution in this embodiment is a highly probabilistic determination result for the measures taken under the condition that there may be a very strong infectious disease, but the solution does not necessarily have the corresponding disease and needs to be determined by professional medical examination. Therefore, when abnormal conditions are found, corresponding persons with overlapped tracks are screened out, and if the persons with the abnormal conditions do have infectious diseases after detection, the persons with the risk of infection can be determined in time. In addition, the above scheme can also be realized in another way: when one or a part of persons are confirmed to have infectious diseases, the corresponding equipment information of the wearable equipment can be determined according to the person information of the person, then the track of the person can be obtained, and other persons with overlapped tracks can be further determined. By adopting the scheme, the health condition of the person to be monitored can be monitored, the action track of the person to be monitored can be tracked, and once an infectious disease is found in a certain person, the person to be infected which possibly exists can be determined according to the track overlapping information, so that the manager can be helped to take measures in time, and further infection diffusion is prevented.

In some embodiments of the present invention, as shown in fig. 2, the health monitoring method for a prohibited person further includes the following steps:

s106: monitoring the change rule of the physiological characteristic parameters in the wearable device, and if the increase value or the decrease value of the physiological characteristic parameters exceeds a preset range, marking the wearable device as a first device to be monitored. For some persons, the physiological characteristic parameter may have a higher or lower condition, such as a person with high blood pressure and a person with high body temperature, but for such persons, the fluctuation of the physiological characteristic parameter should be in a small range, and then whether the person may have a disease or not can be judged according to the fluctuation value.

S107: and when the difference value between the physiological characteristic parameter sent by any one wearable device and the normal physiological parameter exceeds a set threshold value or the increase value or the decrease value of the physiological characteristic parameter exceeds a preset range, acquiring the current position information of the wearable device. Because the position information and the physiological characteristic parameter information in the wearable device are correlated, the position of the wearable device can be determined in time according to the physiological characteristic parameter.

S108: and determining a video monitoring module closest to the wearable device according to the current position information, and controlling the video monitoring module closest to the wearable device to acquire facial feature information of a wearing person of the wearable device. In particular, in prison-like locations, a plurality of cameras are provided to monitor persons serving criminals, each camera's mounting location being stored in the system. When a person has the possibility of diseases, the nearest camera can be controlled to observe the facial features of the person.

S109: and judging whether the wearing person has a disease risk or not according to the facial feature information and the physiological feature parameters.

In advance, a disease recognition model is obtained by training a machine learning model, wherein in the training samples: the face image and physiological characteristic parameters of the sick person are used as input, and the label for identifying the face image as sick is used as output to train the machine model. And taking the model obtained after the training as a disease recognition model. The facial feature information and the victory feature parameters obtained in step S109 are input to the disease recognition model, and it is possible to determine whether there is a disease risk according to the output of the disease recognition model.

Some embodiments of the present invention provide a health monitoring system for a disabled person, as shown in fig. 3, including:

a plurality of wearable devices 101 worn by a person being prohibited; each wearable device 101 is internally provided with a positioning module, a physiological characteristic monitoring module and a control module; the positioning module monitors the position information of the wearable device 101 in real time and sends the position information to the control module; the physiological characteristic monitoring module monitors physiological characteristic parameters of a wearing person of the wearable device 101 in real time and sends the physiological characteristic parameters to the control module; the control module stores personnel information of a wearing person of the wearable device 101, and associates the personnel information, the position information and the physiological characteristic parameters to obtain health information of the wearing person; wherein the wearable device 101 comprises a bracelet, handcuffs, a hat, a helmet, and/or a harness. In the wearable device 101, the physiological characteristic monitoring module comprises a body temperature monitoring unit; the heart rate monitoring device further comprises at least one of a pulse monitoring unit, a heart rate monitoring unit, a vibration monitoring unit, a blood oxygen sensing unit and an electrocardiogram sensing unit.

The control host 102 is used for receiving health information sent by each wearable device 101; obtaining a motion track of the wearable device 101 according to a relationship between position information in the health information sent by each wearable device 101 and time; for the health information sent by each wearable device 101, comparing physiological characteristic parameters in the health information with normal physiological characteristic parameters, and if the difference value of the physiological characteristic participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device 101 as a first device to be monitored; finding the wearable device 101 with the overlapped track with the first device to be monitored and marking the wearable device as a second device to be monitored; and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored.

Therefore, when abnormal conditions are found, corresponding persons with overlapped tracks are screened out, and if the persons with the abnormal conditions do have infectious diseases after detection, the persons with the risk of infection can be determined in time. In addition, the above scheme can also be realized in another way: when one or a part of persons are confirmed to have infectious diseases, the corresponding equipment information of the wearable equipment can be determined according to the person information of the person, then the track of the person can be obtained, and other persons with overlapped tracks can be further determined. By adopting the scheme, the health condition of the person to be monitored can be monitored, the action track of the person to be monitored can be tracked, and once an infectious disease is found in a certain person, the person to be infected which possibly exists can be determined according to the track overlapping information, so that the manager can be helped to take measures in time, and further infection diffusion is prevented.

The health monitoring system for the prohibited person in the above scheme may further include: the positioning tag is arranged at a monitoring point position in a monitoring area and used for transmitting a monitoring signal with a specific frequency, and the monitoring signal carries ID information of the positioning tag; when the positioning module enters the monitoring range of the positioning tag, receiving and receiving the monitoring signal of the specific frequency, and analyzing the ID information contained in the monitoring signal and the distance between the monitoring signal and the positioning tag; and the positioning module takes the ID information and the distance as the position information and sends the position information to the control module. The positioning tag and the positioning module can be realized by the existing product in the prior art.

The control host 102 is further configured to monitor a change rule of the physiological characteristic parameter in the wearable device 101, and mark the wearable device 101 as a first device to be monitored if an increase value or a decrease value of the physiological characteristic parameter exceeds a preset range. For some persons, the physiological characteristic parameter may have a higher or lower condition, such as a person with high blood pressure and a person with high body temperature, but for such persons, the fluctuation of the physiological characteristic parameter should be in a small range, and then whether the person may have a disease or not can be judged according to the fluctuation value.

The health monitoring system for the prohibited person in the above scheme, as shown in fig. 4, may further include a plurality of video monitoring modules 103: the video monitoring modules 103 are distributed on monitoring points; the control host 102 acquires current location information of one of the wearable devices 101 when a difference between the physiological characteristic parameter sent by the wearable device 101 and the normal physiological parameter exceeds a set threshold or an increase value or a decrease value of the physiological characteristic parameter exceeds a preset range; determining the video monitoring module 103 closest to the wearable device 101 according to the current position information, and controlling the video monitoring module 103 closest to the current position information to acquire facial feature information of a wearer of the wearable device 101; and the control host 102 judges whether the wearing person has a disease risk according to the facial feature information and the physiological feature parameters. Because the position information and the physiological characteristic parameter information in the wearable device are correlated, the position of the wearable device can be determined in time according to the physiological characteristic parameter. In particular, in prison-like locations, a plurality of cameras are provided to monitor persons serving criminals, each camera's mounting location being stored in the system. When a person has the possibility of diseases, the nearest camera can be controlled to observe the facial features of the person.

Further, a voice call unit is also configured in the wearable device 101; when determining that the wearing person has a disease risk, the control host 102 sends the facial feature information, the physiological feature parameters and the communication mode of the voice call unit of the wearing person to the terminal equipment held by the medical staff. That is, when it is determined that there is an abnormal situation in a person, the medical staff can be timely notified to contact the person, so that the actual situation of the person can be inquired in advance.

Some embodiments of this embodiment provide a storage medium, where a program instruction is stored in the storage medium, and after reading the program instruction, a computer executes the health monitoring method for a person being monitored according to any one of the above technical solutions.

Some embodiments of this embodiment provide an electronic device, as shown in fig. 5, which is a schematic diagram of a hardware structure of the electronic device, and the electronic device includes: one or more processors 201 and a memory 202, with one processor 201 being an example in fig. 5. The apparatus for performing a health monitoring method for a prohibited person may further comprise: an input device 203 and an output device 204. The processor 201, the memory 202, the input device 203 and the output device 204 may be connected by a bus or other means, and fig. 5 illustrates the connection by a bus as an example.

Memory 202, which is a non-volatile computer-readable storage medium, may be used to store non-volatile software programs, non-volatile computer-executable programs, and modules. The processor 201 executes various functional applications and data processing of the server by running the nonvolatile software programs, instructions and modules stored in the memory 202, namely, the health monitoring method for the disabled person of the above method embodiment is realized.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: 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. A health monitoring method for a prohibited person, said method comprising the steps of:

receiving health information sent by wearable equipment, wherein the health information comprises personnel information, position information and physiological characteristic parameters of wearing personnel of the associated wearable equipment;

obtaining a motion track of the wearable equipment according to the relation between position information in the health information sent by each wearable equipment and time;

comparing physiological characteristic parameters with normal physiological characteristic parameters aiming at the health information sent by each wearable device, and if the difference value of the physiological characteristic participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device as a first device to be monitored;

finding wearable equipment with an overlapped track with the first equipment to be monitored and marking the wearable equipment as second equipment to be monitored;

and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored.

2. A health monitoring method for a prohibited person as claimed in claim 1, characterized by further comprising the steps of:

monitoring the change rule of the physiological characteristic parameters in the wearable device, and if the increase value or the decrease value of the physiological characteristic parameters exceeds a preset range, marking the wearable device as a first device to be monitored.

3. A health monitoring method for a prohibited person as claimed in claim 2, characterized by further comprising the steps of:

when the difference value between the physiological characteristic parameter sent by any one wearable device and the normal physiological parameter exceeds a set threshold value or the increase value or the decrease value of the physiological characteristic parameter exceeds a preset range, acquiring the current position information of the wearable device;

determining a video monitoring module closest to the wearable device according to the current position information, and controlling the video monitoring module closest to the wearable device to acquire facial feature information of a wearing person of the wearable device;

and judging whether the wearing person has a disease risk or not according to the facial feature information and the physiological feature parameters.

4. A health monitoring system for a prohibited person, comprising:

a plurality of wearable devices worn by a person being prohibited; each wearable device is internally provided with a positioning module, a physiological characteristic monitoring module and a control module; the positioning module monitors the position information of the wearable device in real time and sends the position information to the control module; the physiological characteristic monitoring module monitors physiological characteristic parameters of a wearing person of the wearable device in real time and sends the physiological characteristic parameters to the control module; the control module stores personnel information of a wearing person of the wearable device, and the personnel information, the position information and the physiological characteristic parameters are associated to obtain health information of the wearing person;

the control host machine is used for receiving the health information sent by each wearable device; obtaining a motion track of the wearable equipment according to the relation between position information in the health information sent by each wearable equipment and time; comparing physiological characteristic parameters with normal physiological characteristic parameters aiming at the health information sent by each wearable device, and if the difference value of the physiological characteristic participating in the normal physiological parameters exceeds a set threshold value, marking the corresponding wearable device as a first device to be monitored; finding wearable equipment with an overlapped track with the first equipment to be monitored and marking the wearable equipment as second equipment to be monitored; and determining the personnel information corresponding to the first equipment to be monitored and the personnel information corresponding to the second equipment to be monitored, and marking the personnel information as the personnel information to be monitored.

5. A health monitoring system for a disabled person as defined in claim 4, wherein:

in the wearable device, the physiological characteristic monitoring module comprises a body temperature monitoring unit; the heart rate monitoring device further comprises at least one of a pulse monitoring unit, a heart rate monitoring unit, a vibration monitoring unit, a blood oxygen sensing unit and an electrocardiogram sensing unit.

6. A health monitoring system for a prohibited person as claimed in claim 4, further comprising:

the positioning tag is arranged at a monitoring point position in a monitoring area and used for transmitting a monitoring signal with a specific frequency, and the monitoring signal carries ID information of the positioning tag;

when the positioning module enters the monitoring range of the positioning tag, receiving and receiving the monitoring signal of the specific frequency, and analyzing the ID information contained in the monitoring signal and the distance between the monitoring signal and the positioning tag; and the positioning module takes the ID information and the distance as the position information and sends the position information to the control module.

7. A health monitoring system for a disabled person as defined in claim 4, wherein:

the control host is further used for monitoring the change rule of the physiological characteristic parameters in the wearable device, and if the increase value or the decrease value of the physiological characteristic parameters exceeds a preset range, the wearable device is marked as a first device to be monitored.

8. A health monitoring system for a prohibited person as claimed in any one of claims 4 to 7, further comprising a plurality of video monitoring modules:

the video monitoring modules are distributed on monitoring points; the control host acquires the current position information of the wearable device when the difference value between the physiological characteristic parameter sent by one piece of wearable device and the normal physiological parameter exceeds a set threshold value or the increase value or the decrease value of the physiological characteristic parameter exceeds a preset range; determining a video monitoring module closest to the wearable device according to the current position information, and controlling the video monitoring module closest to the wearable device to acquire facial feature information of a wearing person of the wearable device;

and the control host machine judges whether the wearing person has a disease risk or not according to the facial feature information and the physiological feature parameters.

9. A health monitoring system for a prohibited person as claimed in claim 8, wherein:

a voice communication unit is also configured in the wearable device;

and the control host sends the facial feature information, the physiological feature parameters and the communication mode of the voice call unit of the wearing person to terminal equipment held by medical staff when determining that the wearing person has a disease risk.

10. A health monitoring system for a prohibited person as claimed in claim 9, wherein:

the wearable device comprises a bracelet, handcuffs, a hat, a helmet and/or a harness.

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