CN109584505B - Physiological parameter monitoring method and device and computer readable storage medium - Google Patents

Abstract

The invention discloses a physiological parameter monitoring method, equipment and a computer readable storage medium, wherein the method obtains related intelligent mine lamp equipment through the intelligent mine lamp equipment, so that when the physical signs of constructors are in emergency, abnormal alarm can be implemented through the related intelligent mine lamp equipment, the conditions of illness deterioration and the like caused by poor communication environment in a mine are avoided, and better guarantee is provided for the life safety of constructors in the mine.

Description

Physiological parameter monitoring method and device and computer readable storage medium

Technical Field

The present invention relates to the field of mobile communications, and in particular, to a method and apparatus for monitoring physiological parameters, and a computer-readable storage medium.

Background

In the prior art, the multifunctional intelligent mine lamp has the functions of communication and positioning, but when the mine lamp enters a mine along with construction personnel, the communication and positioning functions cannot be normally used due to the fact that a network cannot be searched and stars cannot be searched, and therefore certain potential safety hazards are brought to the construction personnel.

In addition, physiological parameter monitoring in the prior art is mature and is applied to various technical fields, but the technology is not fully utilized in the scene of mining area construction.

Therefore, the prior art lacks a technical solution capable of monitoring physiological status in a mine.

Disclosure of Invention

In order to solve the technical defects in the prior art, the invention provides a physiological parameter monitoring method, which comprises the following steps:

monitoring intelligent mine lamp equipment entering a first area of a mining area, and attaching a first identifier to the intelligent mine lamp equipment;

determining the correlation of the intelligent miner lamp equipment according to the first identification of the intelligent miner lamp equipment, wherein the correlation comprises initial information, relative position information and a dynamic identifier of the intelligent miner lamp equipment;

if the time for the intelligent mine lamp equipment to enter the first area exceeds first preset time, acquiring sign information of a constructor through sensing equipment of the intelligent mine lamp equipment, detecting and judging whether the sign information is normal or not, and if the sign information is normal, writing attribute information of the normal sign information into the dynamic identifier, wherein the sign information comprises heart rate information and blood pressure information of the constructor;

at least determining a first intelligent mine lamp device and a second intelligent mine lamp device according to the precedence relationship of the intelligent mine lamp devices entering the first area, wherein the first intelligent mine lamp device enters the first area before the second intelligent mine lamp device enters the first area, and recording the time of the intelligent mine lamp device entering the first area according to the initial information;

if the first intelligent mine lamp device is located in the first area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the first area;

if the second intelligent miner lamp device is located in the first area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the first area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the first area;

if the second intelligent mine lamp device enters the first area, the attribute information of the abnormal state is sent to the second intelligent mine lamp device through the near field communication device of the first intelligent mine lamp device, and the first dynamic identifier of the first intelligent mine lamp device is sent to a sign early warning center by the second intelligent mine lamp device.

Optionally, the monitoring an intelligent miner lamp device entering a first area of a mining area, and attaching a first identifier to the intelligent miner lamp device includes:

writing the first identification to the dynamic identifier;

and in the mine passage of the mining area, adjusting the first identifier according to the mutual position relation of the intelligent mine lamp equipment, and writing the adjusted first identifier into the dynamic identifier.

Optionally, the determining, according to the first identifier of the intelligent miner lamp device, the interrelation of the intelligent miner lamp device, where the interrelation includes initial information, relative location information, and a dynamic identifier of the intelligent miner lamp device, includes:

determining the information category and parameter threshold of the sign information according to the initial information;

the relative position information is determined from a near field communication device or a communication means fixed within the first area.

Optionally, the method further includes:

determining a second region within the mine, the second region being a region with weaker communication signals than the first region or a region deeper in the mine than the first region;

and monitoring the intelligent mine lamp equipment entering the second area, and updating the first identifier attached to the intelligent mine lamp equipment into a second identifier.

Optionally, the method further includes:

if the first intelligent mine lamp device is located in the second area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the second area;

if the second intelligent miner lamp device is located in the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the second area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the second area;

if the second intelligent miner lamp device is monitored to enter the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

monitoring and judging whether a third intelligent miner lamp device is in the first area;

and if the third intelligent mine lamp device is located in the first area, the second intelligent mine lamp device sends the first dynamic identifier of the first intelligent mine lamp device to the third intelligent mine lamp device, and the third intelligent mine lamp device sends the attribute information of the abnormal state to the sign early warning center.

The invention also proposes a physiological parameter monitoring device comprising a memory, a processor and a computer program stored on said memory and executable on said processor, said computer program realizing, when executed by said processor:

monitoring intelligent mine lamp equipment entering a first area of a mining area, and attaching a first identifier to the intelligent mine lamp equipment;

determining the correlation of the intelligent miner lamp equipment according to the first identification of the intelligent miner lamp equipment, wherein the correlation comprises initial information, relative position information and a dynamic identifier of the intelligent miner lamp equipment;

if the time for the intelligent mine lamp equipment to enter the first area exceeds first preset time, acquiring sign information of a constructor through sensing equipment of the intelligent mine lamp equipment, detecting and judging whether the sign information is normal or not, and if the sign information is normal, writing attribute information of the normal sign information into the dynamic identifier, wherein the sign information comprises heart rate information and blood pressure information of the constructor;

at least determining a first intelligent mine lamp device and a second intelligent mine lamp device according to the precedence relationship of the intelligent mine lamp devices entering the first area, wherein the first intelligent mine lamp device enters the first area before the second intelligent mine lamp device enters the first area, and recording the time of the intelligent mine lamp device entering the first area according to the initial information;

if the first intelligent mine lamp device is located in the first area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the first area;

if the second intelligent miner lamp device is located in the first area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the first area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the first area;

if the second intelligent mine lamp device enters the first area, the attribute information of the abnormal state is sent to the second intelligent mine lamp device through the near field communication device of the first intelligent mine lamp device, and the first dynamic identifier of the first intelligent mine lamp device is sent to a sign early warning center by the second intelligent mine lamp device.

Optionally, the computer program further implements, when executed by the processor:

writing the first identification to the dynamic identifier;

and in the mine passage of the mining area, adjusting the first identifier according to the mutual position relation of the intelligent mine lamp equipment, and writing the adjusted first identifier into the dynamic identifier.

Optionally, the computer program further implements, when executed by the processor:

determining the information category and parameter threshold of the sign information according to the initial information;

the relative position information is determined from a near field communication device or a communication means fixed within the first area.

Optionally, the computer program further implements, when executed by the processor:

determining a second region within the mine, the second region being a region with weaker communication signals than the first region or a region deeper in the mine than the first region;

monitoring the intelligent mine lamp equipment entering the second area, and updating the first identifier attached to the intelligent mine lamp equipment into a second identifier;

if the first intelligent mine lamp device is located in the second area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp is located in the second area or not;

if the second intelligent miner lamp device is located in the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the second area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the second area;

if the second intelligent miner lamp device is monitored to enter the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

monitoring and judging whether a third intelligent miner lamp device is in the first area;

and if the third intelligent mine lamp device is located in the first area, the second intelligent mine lamp device sends the first dynamic identifier of the first intelligent mine lamp device to the third intelligent mine lamp device, and the third intelligent mine lamp device sends the attribute information of the abnormal state to the sign early warning center.

The present invention also proposes a computer readable storage medium having stored thereon a physiological parameter monitoring program, which when executed by a processor implements the steps of the physiological parameter monitoring method according to any one of the above.

By implementing the physiological parameter monitoring method, the device and the computer readable storage medium, the intelligent miner lamp related to the physiological parameter monitoring device is obtained through the intelligent miner lamp device, so that when the physical signs of constructors are in emergency, abnormal alarm can be implemented through the related intelligent miner lamp, the conditions of illness deterioration and the like caused by poor communication environment in mines are avoided, and better guarantee is provided for the life safety of the constructors in the mines.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a flow chart of a first embodiment of a physiological parameter monitoring method of the present invention;

FIG. 2 is a flow chart of a second embodiment of a physiological parameter monitoring method of the present invention;

FIG. 3 is a flow chart of a method of monitoring physiological parameters in accordance with a third embodiment of the present invention;

FIG. 4 is a flow chart of a fourth embodiment of a physiological parameter monitoring method of the present invention;

FIG. 5 is a flow chart of a physiological parameter monitoring method according to a fifth embodiment of the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in itself. Thus, "module", "component" or "unit" may be used mixedly.

While the following description will be made by taking an intelligent miner lamp as an example, those skilled in the art will appreciate that the configuration according to the embodiment of the present invention can be applied to a fixed type terminal in addition to elements particularly used for the purpose of an intelligent miner lamp.

Example one

FIG. 1 is a flow chart of a first embodiment of a physiological parameter monitoring method of the present invention. A method of physiological parameter monitoring, the method comprising:

s1, monitoring intelligent miner lamp equipment entering a first area of a mining area, and attaching a first identifier to the intelligent miner lamp equipment;

s2, determining the correlation of the intelligent miner lamp device according to the first identification of the intelligent miner lamp device, wherein the correlation comprises initial information, relative position information and a dynamic identifier of the intelligent miner lamp device;

s3, if the time that the intelligent mine lamp device enters the first area exceeds a first preset time, acquiring physical sign information of a constructor through a sensing device of the intelligent mine lamp device, detecting and judging whether the physical sign information is normal or not, and if the physical sign information is normal, writing the attribute information of the normal physical sign information into the dynamic identifier, wherein the physical sign information comprises heart rate information and blood pressure information of the constructor;

s4, at least determining a first intelligent miner lamp device and a second intelligent miner lamp device according to the precedence relationship of the intelligent miner lamp devices entering the first area, wherein the first intelligent miner lamp device enters the first area before the second intelligent miner lamp device enters the first area, and recording the time of the intelligent miner lamp devices entering the first area according to the initial information;

s5, if the first intelligent miner lamp device is in the first area and the first information of the first constructor acquired by the first intelligent miner lamp device is in an abnormal state, judging whether the second intelligent miner lamp device is in the first area;

s6, if the second intelligent miner lamp device is in the first area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

s7, if the second intelligent miner lamp device is not in the first area, writing the attribute information of the abnormal state into the first dynamic identifier of the first intelligent miner lamp device, and continuously monitoring whether the second intelligent miner lamp device enters the first area;

and S8, if it is monitored that the second intelligent miner lamp device enters the first area, sending the attribute information of the abnormal state to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device, and sending the first dynamic identifier of the first intelligent miner lamp device to a sign early warning center through the second intelligent miner lamp device.

Optionally, the embodiment is suitable for monitoring one intelligent miner lamp device entering the first area, and is also suitable for monitoring a plurality of intelligent miner lamp devices entering the first area;

optionally, the correlation of this embodiment is formed by a data set, where the data set includes initial information, relative position information, and a dynamic identifier;

optionally, the physical sign information includes heart rate information and blood pressure information of the constructors, and also includes blood type information and medical history information of the constructors.

The beneficial effect of this embodiment lies in, obtains the relevant intelligent miner's lamp through intelligent miner's lamp equipment to when constructor's sign emergency, can implement unusual warning through relevant intelligent miner's lamp, avoided because the emergence of the condition such as the condition of an illness deterioration that the communication environment is not good in the ore deposit, provide better guarantee for constructor's life safety in the ore deposit.

Example two

FIG. 2 is a flow chart of a method for monitoring physiological parameters according to a second embodiment of the present invention. Based on the above embodiment, optionally, the monitoring the intelligent miner light device entering the first area of the mining area, and attaching the first identifier to the intelligent miner light device includes:

s11, writing the first identifier into the dynamic identifier;

s12, in the mine road of the mining area, adjusting the first identification according to the mutual position relation of the intelligent miner lamp equipment, and writing the adjusted first identification into the dynamic identifier.

Optionally, in the mine tunnel of the mining area, the first identifier is adjusted in real time according to the mutual position relationship of the intelligent miner lamp devices, and the adjusted first identifier is written into the dynamic identifier in real time.

The beneficial effect of this embodiment lies in, obtains the mutual position relation of intelligent miner's lamp equipment relevant with it through intelligent miner's lamp equipment to when the emergency appears in constructor's sign, can implement unusual warning through relevant intelligent miner's lamp equipment, avoided the emergence of the circumstances such as the condition of an illness worsens that causes because the communication environment is not good in the ore deposit, provide better guarantee for constructor's life safety in the ore deposit.

EXAMPLE III

FIG. 3 is a flow chart of a method for monitoring physiological parameters according to a third embodiment of the present invention. Based on the foregoing embodiment, optionally, the determining the correlation of the intelligent miner lamp device according to the first identifier of the intelligent miner lamp device, where the correlation includes initial information, relative position information, and a dynamic identifier of the intelligent miner lamp device, includes:

s21, determining the information category and parameter threshold of the physical sign information according to the initial information;

s22, determining the relative position information according to the near field communication device or the communication apparatus fixed in the first area.

Optionally, the information category of the physical sign information includes heart rate information, blood pressure information, blood type information of constructors, medical history information and the like;

optionally, the parameter threshold includes a lowest parameter threshold, a highest parameter threshold, and a threshold interval.

The beneficial effect of this embodiment lies in, through the mutual position relation of the intelligent miner's lamp equipment that intelligence miner's lamp equipment acquireed and correlated with it and set for relevant sign information threshold value to when constructor's sign emergence emergency, can implement unusual warning through relevant intelligence miner's lamp, avoided because the emergence of the circumstances such as the condition of an illness aggravation that the communication environment is not good in the ore deposit and worsen, provide better guarantee for constructor's life safety in the ore deposit.

Example four

FIG. 4 is a flow chart of a method for monitoring physiological parameters in accordance with a fourth embodiment of the present invention. Based on the above embodiment, optionally, the method further includes:

s91, determining a second area in the mining area;

and S92, monitoring the intelligent miner lamp equipment entering the second area, and updating the first identifier attached to the intelligent miner lamp equipment into a second identifier.

Optionally, the second area of this embodiment is weaker than the communication signal of the first area of the above embodiment, or the second area is located deeper into the mine area;

optionally, the intelligent mine lamp device entering the second area is monitored in real time, and the first identifier attached to the intelligent mine lamp device is updated to the second identifier in real time.

The beneficial effect of this embodiment lies in, at the in-process that a plurality of mining areas switch, this embodiment can ensure equally when constructor's sign emergency appears, can implement unusual warning through relevant intelligent miner's lamp, has avoided the emergence of the condition such as the condition of illness aggravation that causes because the communication environment is not good in the ore deposit, provides better guarantee for constructor's life safety in the ore deposit.

EXAMPLE five

FIG. 5 is a flow chart of a physiological parameter monitoring method according to a fifth embodiment of the present invention. Based on the above embodiment, optionally, the method further includes:

s101, if the first intelligent mine lamp device is located in the second area and first body information of a first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the second area or not;

s102, if the second intelligent miner lamp device is located in the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

s103, if the second intelligent mine lamp device is not located in the second area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the second area;

s104, if the second intelligent miner lamp device is monitored to enter the second area, sending the attribute information of the abnormal state to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

s105, monitoring and judging whether a third intelligent miner lamp device is located in the first area;

s106, if the third intelligent miner lamp device is located in the first area, the second intelligent miner lamp device sends the first dynamic identifier of the first intelligent miner lamp device to the third intelligent miner lamp device, and the third intelligent miner lamp device sends the attribute information of the abnormal state to the sign early warning center.

The beneficial effect of this embodiment lies in, at the in-process that a plurality of mining areas switch, utilizes the mutual direct cooperative relation of a plurality of intelligent miner's lamp equipment for when the emergency appears in constructor's sign, can implement unusual warning through relevant intelligent miner's lamp, avoided because the emergence of the circumstances such as the condition of an illness aggravation that the communication environment is not good in the ore deposit causes, provide better guarantee for constructor's life safety in the ore deposit.

EXAMPLE six

Based on the above embodiments, the present invention also provides a physiological parameter monitoring device, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, and when executed by the processor, the computer program implements:

monitoring intelligent mine lamp equipment entering a first area of a mining area, and attaching a first identifier to the intelligent mine lamp equipment;

determining the correlation of the intelligent miner lamp equipment according to the first identification of the intelligent miner lamp equipment, wherein the correlation comprises initial information, relative position information and a dynamic identifier of the intelligent miner lamp equipment;

if the time for the intelligent mine lamp equipment to enter the first area exceeds first preset time, acquiring sign information of a constructor through sensing equipment of the intelligent mine lamp equipment, detecting and judging whether the sign information is normal or not, and if the sign information is normal, writing attribute information of the normal sign information into the dynamic identifier, wherein the sign information comprises heart rate information and blood pressure information of the constructor;

at least determining a first intelligent mine lamp device and a second intelligent mine lamp device according to the precedence relationship of the intelligent mine lamp devices entering the first area, wherein the first intelligent mine lamp device enters the first area before the second intelligent mine lamp device enters the first area, and recording the time of the intelligent mine lamp device entering the first area according to the initial information;

if the first intelligent mine lamp device is located in the first area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the first area;

if the second intelligent miner lamp device is located in the first area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the first area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the first area;

if the second intelligent mine lamp device enters the first area, the attribute information of the abnormal state is sent to the second intelligent mine lamp device through the near field communication device of the first intelligent mine lamp device, and the first dynamic identifier of the first intelligent mine lamp device is sent to a sign early warning center by the second intelligent mine lamp device.

EXAMPLE seven

Based on the above embodiments, optionally, the computer program further implements, when executed by the processor:

writing the first identification to the dynamic identifier;

and in the mine passage of the mining area, adjusting the first identifier according to the mutual position relation of the intelligent mine lamp equipment, and writing the adjusted first identifier into the dynamic identifier.

Example eight

Based on the above embodiments, optionally, the computer program further implements, when executed by the processor:

determining the information category and parameter threshold of the sign information according to the initial information;

the relative position information is determined from a near field communication device or a communication means fixed within the first area.

Example nine

Based on the above embodiments, optionally, the computer program further implements, when executed by the processor:

determining a second region within the mine area;

monitoring the intelligent mine lamp equipment entering the second area, and updating the first identifier attached to the intelligent mine lamp equipment into a second identifier;

if the first intelligent mine lamp device is located in the second area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the second area;

if the second intelligent miner lamp device is located in the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the second area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the second area;

if the second intelligent miner lamp device is monitored to enter the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

monitoring and judging whether a third intelligent miner lamp device is in the first area;

and if the third intelligent mine lamp device is located in the first area, the second intelligent mine lamp device sends the first dynamic identifier of the first intelligent mine lamp device to the third intelligent mine lamp device, and the third intelligent mine lamp device sends the attribute information of the abnormal state to the sign early warning center.

Example ten

Based on the foregoing embodiments, the present invention further provides a computer-readable storage medium, on which a physiological parameter monitoring program is stored, and when the physiological parameter monitoring program is executed by a processor, the method for monitoring a physiological parameter includes the steps of any one of the above-mentioned methods.

By implementing the physiological parameter monitoring method, the device and the computer readable storage medium, the intelligent miner lamp related to the physiological parameter monitoring device is obtained through the intelligent miner lamp device, so that when the physical signs of constructors are in emergency, abnormal alarm can be implemented through the related intelligent miner lamp, the conditions of illness deterioration and the like caused by poor communication environment in mines are avoided, and better guarantee is provided for the life safety of the constructors in the mines.

It should be noted that, in this document, 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 like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method of physiological parameter monitoring, the method comprising:

monitoring intelligent mine lamp equipment entering a first area of a mining area, and attaching a first identifier to the intelligent mine lamp equipment;

determining the correlation of the intelligent miner lamp equipment according to the first identification of the intelligent miner lamp equipment, wherein the correlation comprises initial information, relative position information and a dynamic identifier of the intelligent miner lamp equipment;

if the time for the intelligent mine lamp equipment to enter the first area exceeds first preset time, acquiring sign information of a constructor through sensing equipment of the intelligent mine lamp equipment, detecting and judging whether the sign information is normal or not, and if the sign information is normal, writing attribute information of the normal sign information into the dynamic identifier, wherein the sign information comprises heart rate information and blood pressure information of the constructor;

at least determining a first intelligent mine lamp device and a second intelligent mine lamp device according to the precedence relationship of the intelligent mine lamp devices entering the first area, wherein the first intelligent mine lamp device enters the first area before the second intelligent mine lamp device enters the first area, and recording the time of the intelligent mine lamp device entering the first area according to the initial information;

if the first intelligent mine lamp device is located in the first area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the first area;

if the second intelligent miner lamp device is located in the first area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the first area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the first area;

if the second intelligent mine lamp device enters the first area, the attribute information of the abnormal state is sent to the second intelligent mine lamp device through the near field communication device of the first intelligent mine lamp device, and the first dynamic identifier of the first intelligent mine lamp device is sent to a sign early warning center by the second intelligent mine lamp device.

2. The physiological parameter monitoring method of claim 1, wherein said monitoring an intelligent miner light device entering a first area of a mine and attaching a first identification to said intelligent miner light device comprises:

writing the first identification to the dynamic identifier;

and in the mine passage of the mining area, adjusting the first identifier according to the mutual position relation of the intelligent mine lamp equipment, and writing the adjusted first identifier into the dynamic identifier.

3. The physiological parameter monitoring method of claim 2, wherein said determining a correlation of said intelligent miner's lamp device from a first identification of said intelligent miner's lamp device, wherein said correlation includes initial information, relative location information, and a dynamic identifier of said intelligent miner's lamp device, comprises:

determining the information category and parameter threshold of the sign information according to the initial information;

the relative position information is determined from a near field communication device or a communication means fixed within the first area.

4. A physiological parameter monitoring method according to claim 3, further comprising:

determining a second region within the mine, the second region being a region with weaker communication signals than the first region or a region deeper in the mine than the first region;

and monitoring the intelligent mine lamp equipment entering the second area, and updating the first identifier attached to the intelligent mine lamp equipment into a second identifier.

5. A physiological parameter monitoring method according to claim 4, further comprising:

if the first intelligent mine lamp device is located in the second area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the second area;

if the second intelligent miner lamp device is located in the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the second area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the second area;

if the second intelligent miner lamp device is monitored to enter the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

monitoring and judging whether a third intelligent miner lamp device is in the first area;

and if the third intelligent mine lamp device is located in the first area, the second intelligent mine lamp device sends the first dynamic identifier of the first intelligent mine lamp device to the third intelligent mine lamp device, and the third intelligent mine lamp device sends the attribute information of the abnormal state to the sign early warning center.

6. A physiological parameter monitoring device, comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, the computer program when executed by the processor implementing:

monitoring intelligent mine lamp equipment entering a first area of a mining area, and attaching a first identifier to the intelligent mine lamp equipment;

determining the correlation of the intelligent miner lamp equipment according to the first identification of the intelligent miner lamp equipment, wherein the correlation comprises initial information, relative position information and a dynamic identifier of the intelligent miner lamp equipment;

if the time for the intelligent mine lamp equipment to enter the first area exceeds first preset time, acquiring sign information of a constructor through sensing equipment of the intelligent mine lamp equipment, detecting and judging whether the sign information is normal or not, and if the sign information is normal, writing attribute information of the normal sign information into the dynamic identifier, wherein the sign information comprises heart rate information and blood pressure information of the constructor;

at least determining a first intelligent mine lamp device and a second intelligent mine lamp device according to the precedence relationship of the intelligent mine lamp devices entering the first area, wherein the first intelligent mine lamp device enters the first area before the second intelligent mine lamp device enters the first area, and recording the time of the intelligent mine lamp device entering the first area according to the initial information;

if the first intelligent mine lamp device is located in the first area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the first area;

if the second intelligent miner lamp device is located in the first area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the first area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the first area;

if the second intelligent mine lamp device enters the first area, the attribute information of the abnormal state is sent to the second intelligent mine lamp device through the near field communication device of the first intelligent mine lamp device, and the first dynamic identifier of the first intelligent mine lamp device is sent to a sign early warning center by the second intelligent mine lamp device.

7. A physiological parameter monitoring device according to claim 6, wherein the computer program when executed by the processor further effects:

writing the first identification to the dynamic identifier;

and in the mine passage of the mining area, adjusting the first identifier according to the mutual position relation of the intelligent mine lamp equipment, and writing the adjusted first identifier into the dynamic identifier.

8. A physiological parameter monitoring device according to claim 7, wherein the computer program when executed by the processor further effects:

determining the information category and parameter threshold of the sign information according to the initial information;

the relative position information is determined from a near field communication device or a communication means fixed within the first area.

9. A physiological parameter monitoring device according to claim 8, wherein the computer program when executed by the processor further effects:

determining a second region within the mine, the second region being a region with weaker communication signals than the first region or a region deeper in the mine than the first region;

monitoring the intelligent mine lamp equipment entering the second area, and updating the first identifier attached to the intelligent mine lamp equipment into a second identifier;

if the first intelligent mine lamp device is located in the second area and the first body information of the first constructor acquired by the first intelligent mine lamp device is in an abnormal state, judging whether the second intelligent mine lamp device is located in the second area;

if the second intelligent miner lamp device is located in the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

if the second intelligent mine lamp device is not in the second area, writing the attribute information of the abnormal state into a first dynamic identifier of the first intelligent mine lamp device, and continuously monitoring whether the second intelligent mine lamp device enters the second area;

if the second intelligent miner lamp device is monitored to enter the second area, the attribute information of the abnormal state is sent to the second intelligent miner lamp device through the near field communication device of the first intelligent miner lamp device;

monitoring and judging whether a third intelligent miner lamp device is in the first area;

and if the third intelligent mine lamp device is located in the first area, the second intelligent mine lamp device sends the first dynamic identifier of the first intelligent mine lamp device to the third intelligent mine lamp device, and the third intelligent mine lamp device sends the attribute information of the abnormal state to the sign early warning center.

10. A computer readable storage medium, having a physiological parameter monitoring program stored thereon, which when executed by a processor, performs the steps of the physiological parameter monitoring method according to any one of claims 1 to 5.

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