CN112188430A - Personnel physiological index detection method and system based on small base station - Google Patents

Abstract

The invention provides a personnel physiological index detection method and a system based on a small base station, wherein the method comprises the following steps: detecting physiological indexes of personnel in the coverage range of the radio frequency unit through a radar detection module of the radio frequency unit; outputting the physiological indexes of the personnel in the coverage range of the radio frequency unit detected by the radar detection module to an MEC server through a baseband unit; and storing the received physiological indexes of the personnel in the coverage range of the radio frequency unit through the MEC server, comparing the physiological indexes with a normal range value of the physiological indexes, and judging whether the physiological indexes of the personnel in the coverage range of the radio frequency unit are abnormal or not. The invention can realize the monitoring of the physiological indexes of the personnel in the coverage area of the small base station.

Description

Personnel physiological index detection method and system based on small base station

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of mobile communication, in particular to a personnel physiological index detection method and system based on a small base station.

[ background of the invention ]

Compared with a traditional macro base station, a Small Cell (Small Cell) is a base station device which is much smaller in product form, emission power, coverage range and the like, and is mainly applied to home scenes, channel scenes with security and protection requirements and the like. The monitoring of the physiological indexes of the personnel in the coverage area of the small base station cannot be realized based on the current small base station.

[ summary of the invention ]

The invention mainly aims to provide a personnel physiological index detection method and a personnel physiological index detection system based on a small cell base station, which can monitor the physiological index of personnel in the coverage area of the small cell base station.

In order to achieve the above object, a first aspect of the present invention provides a method for detecting a physiological index of a person based on a small cell base station, including: detecting physiological indexes of personnel in the coverage range of the radio frequency unit through a radar detection module of the radio frequency unit; outputting the physiological indexes of the personnel in the coverage range of the radio frequency unit detected by the radar detection module to an MEC server through a baseband unit; and storing the received physiological indexes of the personnel in the coverage range of the radio frequency unit through the MEC server, comparing the physiological indexes with a normal range value of the physiological indexes, and judging whether the physiological indexes of the personnel in the coverage range of the radio frequency unit are abnormal or not.

As a preferred technical solution, if the physiological index of the person within the coverage of the radio frequency unit is not within the normal range value of the physiological index, the MEC server determines that the physiological index of the person within the coverage of the radio frequency unit is abnormal.

As a preferred technical solution, when the MEC server determines that the physiological index of the person within the coverage of the radio frequency unit is abnormal, the MEC server sends a reminder to a designated mobile terminal via the internet.

As a preferred technical solution, the physiological index includes a breathing frequency and a heartbeat frequency.

As a preferred technical solution, the method further comprises: and analyzing the received physiological indexes of the personnel in the coverage range of the radio frequency unit through the MEC server and judging which type of the physiological indexes of the personnel in the coverage range of the radio frequency unit are.

As a preferred technical scheme, the small base station is a base station installed in a home or in a channel with security requirements, and the coverage area of the radar detection module includes an area where people in the home or in the channel with security requirements easily reside or pass through.

The invention provides a personnel physiological index detection system based on a small cell, which comprises an MEC server and a small cell, wherein the small cell comprises a baseband unit connected with the MEC server and a radio frequency unit connected with the baseband unit, and the radio frequency unit comprises a radar detection module for detecting the physiological index of personnel in the coverage area of the radio frequency unit; the baseband unit comprises a transmission module used for outputting the physiological indexes of the personnel within the coverage range of the radio frequency unit to the MEC server; the MEC server comprises a storage unit and a processing unit, wherein the storage unit is used for storing the received physiological indexes of the personnel in the coverage range of the radio frequency unit, and the processing unit is used for comparing the received physiological indexes of the personnel in the coverage range of the radio frequency unit with the normal range value of the physiological indexes and judging whether the physiological indexes of the personnel in the coverage range of the radio frequency unit are abnormal or not.

As a preferred technical solution, the MEC server is in communication connection with the internet; the personnel physiological index detection system also comprises a mobile terminal in communication connection with the Internet; the MEC server further comprises a reminding unit, and the reminding unit is used for sending a reminder to a specified mobile terminal through the Internet when the processing unit judges that the physiological indexes of the personnel in the coverage area of the radio frequency unit are abnormal.

As a preferred technical solution, the MEC server further includes an analyzing unit, and the analyzing unit is configured to analyze the received physiological indexes of the people within the coverage area of the radio frequency unit and determine which kind of the people the physiological indexes of the people within the coverage area of the radio frequency unit are.

As a preferred technical solution, the physiological index includes a breathing frequency and a heartbeat frequency.

The invention can detect the physiological indexes of the personnel in the coverage area of the radio frequency unit through the radar detection module, can judge whether the physiological indexes of the personnel in the coverage area of the radio frequency unit are abnormal or not through the MEC server, can play a role in monitoring the physiological indexes of the family users for the family scene, ensures that the family users can know the health condition in time, is convenient to monitor, and does not need to carry a pulsator close to the skin of the family users; for a security scene, the sensitivity of the camera can be overcome, the invisible camera can be sensed, and the function of screening suspicious personnel can be achieved.

[ description of the drawings ]

To further disclose the specific technical content of the present disclosure, please refer to the attached drawings, wherein:

fig. 1 is a schematic block diagram of a personnel physiological index detection system based on a small cell site according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a method for detecting a physiological index of a person based on a small cell site provided by the system shown in fig. 1.

Description of the symbols:

small base station 10radio unit 12

Radar detection module 122baseband unit 14

Transmission module 142power supply unit 16

MECserver 20 storage unit 22

Processing unit 24alert unit 26

Analysis unit 28

[ detailed description ] embodiments

Referring to fig. 1, the embodiment provides a system for detecting a physiological indicator of a person based on asmall cell 10, which includes thesmall cell 10 and an MEC (Mobile Edge Computing)server 20. Thesmall base station 10 is a base station installed in a home, and the coverage is mainly a range within the home. The signal coverage of thesmall base station 10 is typically around 10 meters. It is understood that thesmall base station 10 may also be a base station installed in a passageway with security requirements, in a particular room, or the like.

Thesmall base station 10 includes a housing, aradio frequency unit 12 mounted within the housing, abase band unit 14 mounted within the housing, and apower supply unit 16 mounted within the housing. Thepower supply unit 16 is used for connecting with an external power supply to supply power to therf unit 12 and thebaseband unit 14.

Theradio frequency unit 12 comprises aradar detection module 122 for detecting physiological indicators of persons within its coverage area. The physiological indicators include respiratory rate and heartbeat rate.

In this embodiment, the coverage area of theradar detection module 122 includes an area where people in a home or in a passageway requiring security easily reside or pass through, for example, an area such as a sofa, a kitchen, and an aisle in the home, and an area such as a middle position, an entrance, and the like in the passageway requiring security.

Thebaseband unit 14 includes atransmission module 142 for outputting the physiological indicators of the persons within the coverage of theradio frequency unit 12 to theMEC server 20.

The MECserver 20 is communicatively connected to the internet. The personnel physiological index detection system further comprises a mobile terminal in communication connection with the Internet. TheMEC server 20 comprises a storage unit 22, aprocessing unit 24, areminder unit 26 and ananalysis unit 28.

The storage unit 22 is used for storing the received physiological indexes of the persons within the coverage of theradio frequency unit 12.

Theprocessing unit 24 is configured to compare the received physiological index of the person within the coverage area of theradio frequency unit 12 with the normal range value of the physiological index, and determine whether the physiological index of the person within the coverage area of theradio frequency unit 12 is abnormal. The normal range value of the physiological index is preset. The normal range values of the physiological index include a respiration frequency range value and a heartbeat frequency range value, for example, the respiration frequency range value is 12-20 times/minute, the normal heartbeat frequency range is 60-100 times/minute, and so on. And when the received respiratory frequency and heartbeat frequency of the person within the coverage range of theradio frequency unit 12 are not within the respiratory frequency range value and the heartbeat frequency range value, judging that the physiological indexes of the person within the coverage range of theradio frequency unit 12 are abnormal.

Thereminding unit 26 is configured to send a reminder to a designated mobile terminal when theprocessing unit 24 determines that the physiological indicator of the person within the coverage area of theradio frequency unit 12 is abnormal, so as to play a role in reminding the user to find a problem in time. Since eachsmall base station 10 has its own base station identification, for thesmall base station 10 installed in a home, a specified mobile terminal, that is, a mobile terminal communicatively connected to the internet, such as a terminal of the person, a terminal of a family member, and the like, such as a mobile phone and the like, and for thesmall base station 10 installed in a passage where security is required, a specified terminal, such as a mobile terminal of a management department, and the like.

Theanalysis unit 28 is configured to analyze the received physiological indicators of the persons in the coverage area of theradio frequency unit 12 and determine whether the physiological indicators of the persons in the coverage area of theradio frequency unit 12 are physiological indicators of any kind of persons, such as physiological indicators of children, physiological indicators of middle-aged persons, physiological indicators of old persons, and the like, where the physiological indicators of persons in different age groups are significantly different, such as respiratory rate and heartbeat rate of children are relatively fast, respiratory rate and heartbeat rate of middle-aged persons are relatively normal, and respiratory rate and heartbeat rate of old persons are relatively slow. TheMEC server 20 may preset a physiological index reference value of a child, a physiological index reference value of a middle-aged person, a physiological index reference value of an elderly person, etc. in advance, and may analyze which kind of person the received physiological index of the person within the coverage of theradio frequency unit 12 is based on the preset physiological index reference value. In addition, because each person has own characteristics of the physiological parameters such as height, body shape, activity habits, breathing frequency, heartbeat frequency and the like, the analysis unit can judge which person the currently received physiological indexes are by summarizing and analyzing historical data, or judge which person the currently received physiological indexes are newly belonged to, and store corresponding information for the newly belonged person.

Theanalysis unit 28 is further configured to generate a corresponding physiological index report after determining which type of person the physiological index of the person in the coverage area of theradio frequency unit 12 is. The physiological index report is, for example, a breathing rate graph, a heartbeat rate graph, a breathing waveform graph, a heartbeat waveform graph, and the like.

Referring to fig. 2, the present embodiment provides a method for detecting a physiological index of a person in asmall cell site 10, including the following steps:

s2, detecting the physiological index of the person in the coverage area through theradar detection module 122 of theradio frequency unit 12.

S4, thebaseband unit 14 outputs the physiological index of the person within the coverage area of theradio frequency unit 12 detected by theradar detection module 122 to theMEC server 20.

S6, the MECserver 20 stores the received physiological indexes of the persons in the coverage area of theradio frequency unit 12 and compares the physiological indexes with the normal range values of the physiological indexes, so as to determine whether the physiological indexes of the persons in the coverage area of theradio frequency unit 12 are abnormal.

If the physiological index of the person within the coverage of theradio frequency unit 12 is not within the normal range value of the physiological index, theMEC server 20 determines that the physiological index of the person within the coverage of theradio frequency unit 12 is abnormal.

When theMEC server 20 determines that the physiological index of the person within the coverage of theradio frequency unit 12 is abnormal, theMEC server 20 sends a reminder to the specified mobile terminal via the internet.

The method of the invention also comprises the following steps: the received physiological indexes of the persons in the coverage area of theradio frequency unit 12 are analyzed by theMEC server 20, and the physiological indexes of the persons in the coverage area of theradio frequency unit 12 are judged to be the physiological indexes of which kind of persons, and a corresponding physiological index report is generated by theMEC server 20 after the physiological indexes of the persons in the coverage area of theradio frequency unit 12 are judged to be the physiological indexes of which kind of persons.

The invention can detect the physiological indexes of the personnel in the coverage area of theradio frequency unit 12 through theradar detection module 122, can judge whether the physiological indexes of the personnel in the coverage area of theradio frequency unit 12 are abnormal through theMEC server 20, can play a role in monitoring the physiological indexes of the family users for the family scenes, ensures that the family users can know the health condition in time, is convenient to monitor, does not need to carry a pulsator close to the skin of the family users, can overcome the sensitivity of a camera for the security scenes, can sense the invisibility, and can play a role in screening suspicious personnel.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A personnel physiological index detection method based on a small base station is characterized by comprising the following steps:

detecting physiological indexes of personnel in the coverage range of the radio frequency unit through a radar detection module of the radio frequency unit;

outputting the physiological indexes of the personnel in the coverage range of the radio frequency unit detected by the radar detection module to an MEC server through a baseband unit;

and storing the received physiological indexes of the personnel in the coverage range of the radio frequency unit through the MEC server, comparing the physiological indexes with a normal range value of the physiological indexes, and judging whether the physiological indexes of the personnel in the coverage range of the radio frequency unit are abnormal or not.

2. The method as claimed in claim 1, wherein if the physiological index of the person in the coverage area of the radio frequency unit is not within the normal range of the physiological index, the MEC server determines that the physiological index of the person in the coverage area of the radio frequency unit is abnormal.

3. The method as claimed in claim 2, wherein when the MEC server determines that the physiological index of the person within the coverage of the radio frequency unit is abnormal, the MEC server sends a reminder to the specified mobile terminal via the internet.

4. The method according to claim 1, wherein the physiological indexes comprise respiratory rate and heartbeat rate.

5. The method for detecting the physiological index of the person based on the small cell site as claimed in claim 1, further comprising: and analyzing the received physiological indexes of the personnel in the coverage range of the radio frequency unit through the MEC server and judging which type of the physiological indexes of the personnel in the coverage range of the radio frequency unit are.

6. The personnel physiological index detection method based on the small base station as claimed in claim 1, wherein the small base station is a base station installed in a home or in a passage with security requirement, and the coverage area of the radar detection module comprises an area where personnel in the home or in the passage with security requirement easily reside or pass through.

7. A personnel physiological index detection system based on a small base station comprises an MEC server and the small base station, wherein the small base station comprises a baseband unit connected with the MEC server and a radio frequency unit connected with the baseband unit,

the radio frequency unit comprises a radar detection module for detecting physiological indexes of people in the coverage area of the radio frequency unit;

the baseband unit comprises a transmission module used for outputting the physiological indexes of the personnel within the coverage range of the radio frequency unit to the MEC server;

the MEC server comprises a storage unit and a processing unit, wherein the storage unit is used for storing the received physiological indexes of the personnel in the coverage range of the radio frequency unit, and the processing unit is used for comparing the received physiological indexes of the personnel in the coverage range of the radio frequency unit with the normal range value of the physiological indexes and judging whether the physiological indexes of the personnel in the coverage range of the radio frequency unit are abnormal or not.

8. The small cell site based personal physiological indicator detection system of claim 7,

the MEC server is in communication connection with the Internet;

the personnel physiological index detection system also comprises a mobile terminal in communication connection with the Internet;

the MEC server further comprises a reminding unit, and the reminding unit is used for sending a reminder to a specified mobile terminal through the Internet when the processing unit judges that the physiological indexes of the personnel in the coverage area of the radio frequency unit are abnormal.

9. The system according to claim 7, wherein the MEC server further comprises an analysis unit, and the analysis unit is configured to analyze the received physiological indexes of the persons in the coverage area of the radio frequency unit and determine which type of person the physiological indexes of the persons in the coverage area of the radio frequency unit are.

10. The small cell site based personal physiological indicator detection system of claim 7, wherein the physiological indicators include respiratory rate and heartbeat rate.

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