CN109199346A - System, method and device are monitored based on millimetre-wave radar medical environment physiologic information - Google Patents

Abstract

The invention discloses one kind to monitor system, method and device based on millimetre-wave radar medical environment physiologic information, wherein the described method includes: monitoring the heart rate and respiratory rate of user under medical environment by millimetre-wave radar；The heart rate of the user and the respiratory rate are gathered compared with preset and are compared；Alarm is carried out when the heart rate of the user and the respiratory rate are more than the relatively range of set；It can solve in the related technology by foregoing invention, user is limited or equipment condition of contact and the problem that causes monitoring effect bad in the monitoring process for carrying out heart rate and respiratory rate by space, and then while making user that can more easily realize the monitoring of heart rate and respiratory rate, so that the precision in monitoring process can also be improved.

Description

Medical environment physiological information monitoring system, method and device based on millimeter wave radar

Technical Field

The invention relates to the field of medical automation, in particular to a system, a method and a device for monitoring physiological information of a medical environment based on a millimeter wave radar.

Background

The heart rate and the respiratory rate of a user are one of necessary monitoring information of the user in a medical process, the heart rate and the respiratory rate of the existing user are often monitored by adopting an electrocardiograph, a pulse meter, a breathing machine and other equipment, the equipment is required to be connected with the user in a contact manner in the working process, therefore, related equipment is in work, on one hand, the user is required to monitor physiological information in places such as hospitals where professional personnel need to provide equipment installation or connection, on the other hand, the related equipment is often alarmed due to connection failure caused by actions such as mistaken touch of the user in the actual working process, and further, medical personnel are required to perform additional adjustment work.

In the related art, no solution has been proposed in the related art for the problem that the monitoring effect is poor due to space limitation or equipment connection conditions in the process of monitoring the heart rate and the respiratory rate of the user.

Disclosure of Invention

The invention aims to provide a system, a method and a device for monitoring physiological information of a medical environment based on a millimeter wave radar, so as to solve the problem of poor monitoring effect caused by space limitation or equipment connection conditions in the process of monitoring heart rate and respiratory rate of a user in the related technology.

In order to solve the above technical problem, according to an embodiment of the present invention, there is provided a medical environment physiological information monitoring system based on millimeter wave radar, the system including:

the millimeter wave radar is used for monitoring the heart rate and the respiratory rate of a user in a medical environment;

a processor for comparing the heart rate and the breathing rate of the user with a preset comparison set, and alarming when the heart rate and the breathing rate of the user exceed the range of the comparison set;

the millimeter wave radar and the processor are electrically connected with each other.

According to an embodiment of the invention, there is also provided a millimeter wave radar-based medical environment physiological information monitoring method according to the system, the method including:

monitoring the heart rate and the respiratory rate of a user in a medical environment through a millimeter wave radar;

comparing the heart rate and the breathing rate of the user with a preset comparison set;

alerting when the heart rate and the breathing rate of the user exceed the range of the comparison set.

Optionally, the comparing the heart rate and the breathing rate of the user with a preset comparison set comprises:

presetting a first comparison set and a second comparison set, wherein the first comparison set is a subset of the second comparison set;

timing when the heart rate and the respiratory rate of the user exceed the range of the first comparison set, and executing the following operations according to the timing duration:

alarming when the timed duration reaches a preset period; or,

and when the timing duration does not reach a preset period and the heart rate and the respiratory rate of the user are recovered to the range of the first comparison set in the timing process, stopping the timing and zeroing the timing duration.

Optionally, said alerting when the heart rate and the breathing rate of the user exceed the range of the comparison set comprises:

alerting when the heart rate and the breathing rate of the user exceed the range of the second comparison set.

There is also provided, in accordance with an embodiment of the present invention, apparatus for monitoring physiological information of a millimeter wave radar-based medical environment in accordance with the above-described system, the apparatus including:

the monitoring module is used for monitoring the heart rate and the respiratory rate of a user in a medical environment through a millimeter wave radar;

a comparison module for comparing the heart rate and the breathing rate of the user with a preset comparison set;

an alert module to alert when the heart rate and the breathing rate of the user exceed the range of the comparison set.

By the invention, the physiological characteristics of the user including the heart rate and the respiratory rate can be monitored by the millimeter wave radar, so that the real-time monitoring of the physiological characteristics of the user in a non-contact state is realized; therefore, the invention can solve the problem of poor monitoring effect caused by space limitation or equipment connection conditions in the process of monitoring the heart rate and the respiratory rate of a user in the related technology, and further improve the precision in the monitoring process while the user can more conveniently monitor the heart rate and the respiratory rate.

Drawings

FIG. 1 is a schematic diagram of a medical environment physiological information monitoring system based on millimeter wave radar according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for monitoring physiological information of a medical environment based on millimeter wave radar according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a medical environment physiological information monitoring device based on millimeter wave radar according to an embodiment of the invention.

Detailed Description

The present invention will be further illustrated below with reference to specific embodiments, which are to be understood as merely illustrative and not limitative of the scope of the present invention.

Example 1

Fig. 1 is a schematic diagram of a medical environment physiological information monitoring system based on millimeter wave radar according to an embodiment of the present invention, as shown in fig. 1, the system includes:

a millimeter wave radar 101 for monitoring the heart rate and respiratory rate of the user in the medical environment;

a processor 102 for comparing the heart rate and the breathing rate of the user with a preset comparison set, and alarming when the heart rate and the breathing rate of the user exceed the range of the comparison set;

the millimeter wave radar 101 and the processor 102 are electrically connected to each other.

By the system, the physiological characteristics of the user including the heart rate and the respiratory rate can be monitored by the millimeter wave radar, so that the physiological characteristics of the user in a non-contact state can be monitored in real time; therefore, in the correlation technique, the problem that the monitoring effect is not good due to the fact that the user is limited by space or connected with equipment in the monitoring process of the heart rate and the respiratory rate can be solved, and then the accuracy in the monitoring process can be improved while the user can monitor the heart rate and the respiratory rate more conveniently.

Example 2

Fig. 2 is a flowchart of a method for monitoring physiological information in a medical environment based on millimeter wave radar according to an embodiment of the present invention, and as shown in fig. 2, the method includes:

s201, monitoring the heart rate and the respiratory rate of a user in a medical environment through a millimeter wave radar;

s202, comparing the heart rate and the respiratory rate of the user with a preset comparison set;

s203, alarming when the heart rate and the respiratory rate of the user exceed the range of the comparison set.

By the method, the physiological characteristics of the user including the heart rate and the respiratory rate can be monitored by the millimeter wave radar, so that the real-time monitoring of the physiological characteristics of the user in a non-contact state is realized; therefore, in the correlation technique, the problem that the monitoring effect is not good due to the fact that the user is limited by space or connected with equipment in the monitoring process of the heart rate and the respiratory rate can be solved, and then the accuracy in the monitoring process can be improved while the user can monitor the heart rate and the respiratory rate more conveniently.

Optionally, in S202, the comparing the heart rate and the respiratory rate of the user with a preset comparison set includes:

presetting a first comparison set and a second comparison set, wherein the first comparison set is a subset of the second comparison set;

timing when the heart rate and the respiratory rate of the user exceed the range of the first comparison set, and executing the following operations according to the timing duration:

alarming when the timed duration reaches a preset period; or,

and when the timing duration does not reach a preset period and the heart rate and the respiratory rate of the user are recovered to the range of the first comparison set in the timing process, stopping the timing and zeroing the timing duration.

Optionally, in S203, the alarming when the heart rate and the respiratory rate of the user exceed the range of the comparison set includes:

alerting when the heart rate and the breathing rate of the user exceed the range of the second comparison set.

Example 3

Fig. 3 is a schematic diagram of a medical environment physiological information monitoring device based on millimeter wave radar according to an embodiment of the present invention, as shown in fig. 3, the device includes:

the monitoring module 301 is configured to monitor a heart rate and a respiratory rate of a user in a medical environment through a millimeter wave radar;

a comparison module 302 for comparing the heart rate and the breathing rate of the user with a preset comparison set;

an alert module 303 to alert when the heart rate and the breathing rate of the user exceed the range of the comparison set.

By the device, the physiological characteristics of the user including the heart rate and the respiratory rate can be monitored by the millimeter wave radar, so that the physiological characteristics of the user in a non-contact state can be monitored in real time; therefore, in the correlation technique, the problem that the monitoring effect is not good due to the fact that the user is limited by space or connected with equipment in the monitoring process of the heart rate and the respiratory rate can be solved, and then the accuracy in the monitoring process can be improved while the user can monitor the heart rate and the respiratory rate more conveniently.

Optionally, the comparing module 302 includes:

presetting a first comparison set and a second comparison set, wherein the first comparison set is a subset of the second comparison set;

timing when the heart rate and the respiratory rate of the user exceed the range of the first comparison set, and executing the following operations according to the timing duration:

alarming when the timed duration reaches a preset period; or,

and when the timing duration does not reach a preset period and the heart rate and the respiratory rate of the user are recovered to the range of the first comparison set in the timing process, stopping the timing and zeroing the timing duration.

Optionally, the alarm module 303 comprises:

alerting when the heart rate and the breathing rate of the user exceed the range of the second comparison set.

Claims (5)

1. A medical environment physiological information monitoring system based on millimeter wave radar, the system comprising:

the millimeter wave radar is used for monitoring the heart rate and the respiratory rate of a user in a medical environment;

a processor for comparing the heart rate and the breathing rate of the user with a preset comparison set, and alarming when the heart rate and the breathing rate of the user exceed the range of the comparison set;

the millimeter wave radar and the processor are electrically connected with each other.

2. A millimeter wave radar based medical environment physiological information monitoring method of the system of claim 1, the method comprising:

monitoring the heart rate and the respiratory rate of a user in a medical environment through a millimeter wave radar;

comparing the heart rate and the breathing rate of the user with a preset comparison set;

alerting when the heart rate and the breathing rate of the user exceed the range of the comparison set.

3. The method of claim 2, wherein said comparing said heart rate and said breathing rate of said user to a preset comparison set comprises:

presetting a first comparison set and a second comparison set, wherein the first comparison set is a subset of the second comparison set;

timing when the heart rate and the respiratory rate of the user exceed the range of the first comparison set, and executing the following operations according to the timing duration:

alarming when the timed duration reaches a preset period; or,

and when the timing duration does not reach a preset period and the heart rate and the respiratory rate of the user are recovered to the range of the first comparison set in the timing process, stopping the timing and zeroing the timing duration.

4. The method of claim 3, wherein said alerting when said heart rate and said breathing rate of said user exceed a range of said comparison set comprises:

alerting when the heart rate and the breathing rate of the user exceed the range of the second comparison set.

5. A millimeter wave radar based medical environment physiological information monitoring device of the system of claim 1, the device comprising:

the monitoring module is used for monitoring the heart rate and the respiratory rate of a user in a medical environment through a millimeter wave radar;

a comparison module for comparing the heart rate and the breathing rate of the user with a preset comparison set;

an alert module to alert when the heart rate and the breathing rate of the user exceed the range of the comparison set.