CN116994408A

CN116994408A - Radiation risk early warning management method and system based on intelligent positioning monitoring

Info

Publication number: CN116994408A
Application number: CN202310992214.0A
Authority: CN
Inventors: 邵丽萍; 杨永辉; 谢晓博; 吴观荣; 李丹特; 周庆
Original assignee: V Power Information Technology Co ltd
Current assignee: V Power Information Technology Co ltd
Priority date: 2023-08-08
Filing date: 2023-08-08
Publication date: 2023-11-03
Anticipated expiration: 2043-08-08
Also published as: CN116994408B

Abstract

The invention provides a radiation risk early warning management method and system based on intelligent positioning monitoring, comprising the following steps: the personal radiation dose monitoring and the dose card positioning monitoring are carried out through the personal radiation Bluetooth positioning monitoring dose card; setting a Bluetooth gateway beacon group and a radiation risk early warning management APP, deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal, and deploying the Bluetooth gateway beacon group to a radiation area key point; identifying radiological staff through an infrared imaging characteristic identification module, and correlating the personal radiation Bluetooth positioning monitoring dose card with the radiological staff special for the dose card; and identifying special radiological staff for positioning the dose card, positioning and monitoring the personal radiation Bluetooth positioning and monitoring dose card and a radiation risk early warning management APP terminal, and intelligently judging whether the intelligent positioning and monitoring is in a set radiation dose consistency monitoring range area or not to perform radiation risk early warning management on a radiation area.

Description

Radiation risk early warning management method and system based on intelligent positioning monitoring

Technical Field

The invention relates to the technical field of radiation safety intelligent early warning management, in particular to a radiation risk early warning management method and system based on intelligent positioning monitoring.

Background

At present, radiation risk early warning management is still carried out through artificial monitoring judgment, how to carry out personal radiation dose monitoring and dose card positioning monitoring, obtain personal radiation dose monitoring positioning information, how to deploy a Bluetooth gateway beacon group to a radiation area key point, how to correlate a personal radiation Bluetooth positioning monitoring dose card with a radiation staff special for the dose card, how to identify the radiation staff special for the positioning dose card, position the personal radiation Bluetooth positioning monitoring dose card and the radiation risk early warning management APP terminal, and the problems of whether the accurate positioning monitoring intelligent judgment is in a set radiation dose consistency monitoring range area and the like remain to be solved; therefore, there is a need for a radiation risk early warning management method and system based on intelligent positioning monitoring to at least partially solve the problems in the prior art.

Disclosure of Invention

A series of concepts in simplified form are introduced in the summary section, which will be described in further detail in the detailed description section; the summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides a radiation risk early warning management method based on intelligent positioning monitoring, including:

s100, performing personal radiation dose monitoring and dose card positioning monitoring through a personal radiation Bluetooth positioning monitoring dose card to acquire personal radiation dose monitoring positioning information;

s200, setting a Bluetooth gateway beacon group and a radiation risk early warning management APP, deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal, and deploying the Bluetooth gateway beacon group to a radiation area key point;

s300, identifying radiological staff through an infrared imaging characteristic identification module, correlating the personal radiation Bluetooth positioning monitoring dose card with the radiological staff special for the dose card, and establishing a correlation special for one person of the dose card;

s400, identifying special radiation staff for positioning the dose card according to a special association relation of one person of the dose card, positioning and monitoring personal radiation Bluetooth positioning and monitoring the dose card and a radiation risk early warning management APP terminal, and intelligently judging whether the intelligent positioning and monitoring is in a set radiation dose consistency monitoring range region or not to perform radiation risk early warning management of a radiation region.

Preferably, S100 includes:

s101, carrying out system integration on a personal radiation dose card module, a Bluetooth positioning monitoring module and a radiation monitoring abnormal alarm buzzer to obtain a personal radiation Bluetooth positioning monitoring dose card;

s102, monitoring personal radiation dose through the personal radiation dose card module; the positioning and monitoring of the dose card are carried out through a Bluetooth positioning and monitoring module;

s103, collecting personal radiation dose monitoring data through personal radiation dose monitoring; collecting positioning data of the dose card through positioning and monitoring of the dose card; and marking the personal radiation dose monitoring data and the dose card positioning data in a 3D radiation area map to form a 3D radiation area personal radiation dose monitoring positioning information distribution diagram, and obtaining personal radiation dose monitoring positioning information.

Preferably, S200 includes:

s201, setting a Bluetooth gateway beacon group, and deploying the Bluetooth gateway beacon group to a key point of a radiation area;

s202, setting a radiation risk early warning management APP, and deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal;

s203, bluetooth induction communication is carried out with the personal radiation Bluetooth positioning monitoring dosage card through the Bluetooth gateway beacon group, and data Bluetooth transmission communication is carried out with the radiation risk early warning management APP operation terminal.

Preferably, S300 includes:

s301, monitoring human body feature recognition through infrared imaging, and establishing an infrared imaging feature recognition module;

s302, recognizing a radiological staff through an infrared imaging feature recognition module, and establishing an infrared imaging feature recognition special ID (identity) code of the radiological staff; reading a special ID (identity) code of a dose card of the personal radiation Bluetooth positioning monitoring dose card, and carrying out one-to-one association of the special ID code for infrared imaging characteristic identification and the special ID code of the dose card;

s303, according to one-to-one association of the special ID identification codes, the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff of the dose card are associated with each other, and a special association relationship of one person of the dose card is established.

Preferably, S400 includes:

s401, identifying and positioning a special radiation staff for the dose card through an infrared imaging characteristic identification module according to a special association relation of one person of the dose card; carrying out personal radiation Bluetooth positioning monitoring dose card positioning confirmation and radiation risk early warning management APP terminal position confirmation through a Bluetooth gateway beacon group;

s402, judging whether the radiation dose is in a set radiation dose consistency monitoring range area or not by identifying special radiation staff for positioning the dose card, positioning and monitoring personal radiation Bluetooth positioning and monitoring dose card and radiation risk early warning management APP terminal, and acquiring a radiation dose consistency intelligent positioning and monitoring judgment result;

S403, performing radiation risk early warning management on the radiation area according to the radiation dose consistency intelligent positioning monitoring judgment result;

according to the radiation dose consistency intelligent positioning monitoring judgment result, the radiation risk early warning management of the radiation area comprises the following steps: according to the radiation dose consistency intelligent positioning monitoring result, when the distance between the personal radiation Bluetooth positioning monitoring dose card and the radiation risk early warning management APP terminal and the special radiation staff for the dose card is larger than the set radiation dose consistency monitoring range in the radiation dose consistency management area, the radiation risk early warning management APP sends out radiation monitoring abnormal risk early warning, meanwhile, the radiation risk early warning management APP terminal is triggered to give out warning, the personal radiation dose monitoring and dose card triggers the radiation monitoring abnormal warning buzzer to send out warning buzzing, and the intelligent warning radiation area management is abnormal; and carrying out radiation risk early warning intelligent management in the radiation area.

The invention provides a radiation risk early warning management system based on intelligent positioning monitoring, which comprises the following components:

the personal radiation Bluetooth positioning monitoring subsystem is used for performing personal radiation dose monitoring and dose card positioning monitoring through the personal radiation Bluetooth positioning monitoring dose card to acquire personal radiation dose monitoring positioning information;

The method comprises the steps of setting a Bluetooth gateway beacon group and a radiation risk early warning management APP by a Bluetooth gateway early warning management APP subsystem, deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal, and deploying the Bluetooth gateway beacon group to a radiation area key point;

the infrared characteristic identification association subsystem identifies radiological staff through the infrared imaging characteristic identification module, and associates the personal radiation Bluetooth positioning monitoring dose card with the radiological staff special for the dose card to establish a special association relationship of one person of the dose card;

and identifying a positioning monitoring early warning management subsystem, identifying a positioning dose card special-purpose radiation staff according to a dose card special-purpose association relation, positioning and monitoring a personal radiation Bluetooth positioning monitoring dose card and a radiation risk early warning management APP terminal, and accurately positioning and monitoring intelligently to judge whether the radiation risk early warning management is in a set radiation dose consistency monitoring range area or not, and carrying out radiation area radiation risk early warning management.

Preferably, the personal radiation bluetooth positioning monitoring subsystem comprises:

the radiation Bluetooth positioning monitoring system integration subsystem integrates the personal radiation dose card module, the Bluetooth positioning monitoring module and the radiation monitoring abnormal alarm buzzer to obtain a personal radiation Bluetooth positioning monitoring dose card;

The personal radiation dose positioning monitoring subsystem monitors personal radiation doses through the personal radiation dose card module; the positioning and monitoring of the dose card are carried out through a Bluetooth positioning and monitoring module;

the radiation area monitoring positioning distribution subsystem is used for collecting personal radiation dose monitoring data through personal radiation dose monitoring; collecting positioning data of the dose card through positioning and monitoring of the dose card; and marking the personal radiation dose monitoring data and the dose card positioning data in a 3D radiation area map to form a 3D radiation area personal radiation dose monitoring positioning information distribution diagram, and obtaining personal radiation dose monitoring positioning information.

Preferably, the bluetooth gateway early warning management APP subsystem includes:

the Bluetooth gateway beacon subsystem is used for setting a Bluetooth gateway beacon group and deploying the Bluetooth gateway beacon group to a key point of a radiation area;

the risk early warning management APP deployment subsystem is used for setting a radiation risk early warning management APP and deploying the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal;

and the Bluetooth induction communication subsystem is used for carrying out Bluetooth induction communication with the personal radiation Bluetooth positioning monitoring dosage card through the Bluetooth gateway beacon group and carrying out data Bluetooth transmission communication with the radiation risk early warning management APP operation terminal.

Preferably, the infrared characteristic recognition correlation subsystem comprises:

the infrared imaging characteristic recognition subsystem monitors human body characteristic recognition through infrared imaging, and establishes an infrared imaging characteristic recognition module;

the special identification rack constructing system is used for identifying the radiological staff through the infrared imaging characteristic identification module and establishing an infrared imaging characteristic identification special ID identification code of the radiological staff; reading a special ID (identity) code of a dose card of the personal radiation Bluetooth positioning monitoring dose card, and carrying out one-to-one association of the special ID code for infrared imaging characteristic identification and the special ID code of the dose card;

and the ID identification special association subsystem is used for associating the personal radiation Bluetooth positioning monitoring dose card with the radiation staff special for the dose card one by one according to the special ID identification code, so as to establish a special association relationship of the dose card and one person.

Preferably, the identifying, positioning, monitoring and early-warning management subsystem comprises:

the infrared identification Bluetooth beacon positioning subsystem is used for identifying and positioning special radiological staff for the dose card through the infrared imaging characteristic identification module according to the special association relation of the dose card for one person; carrying out personal radiation Bluetooth positioning monitoring dose card positioning confirmation and radiation risk early warning management APP terminal position confirmation through a Bluetooth gateway beacon group;

The positioning monitoring intelligent judging subsystem judges whether the positioning monitoring intelligent judging subsystem is in a set radiation dose consistency monitoring range area or not by identifying a special radiation staff for positioning a dose card, positioning monitoring personal radiation Bluetooth positioning monitoring dose card and a radiation risk early warning management APP terminal, and acquires a radiation dose consistency intelligent positioning monitoring judging result;

the radiation risk early warning management subsystem is used for carrying out radiation risk early warning management on the radiation area according to the radiation dose consistency intelligent positioning monitoring judgment result;

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a radiation risk early warning management method and system based on intelligent positioning monitoring, comprising the following steps: the personal radiation Bluetooth positioning monitoring dose card is used for carrying out personal radiation dose monitoring and dose card positioning monitoring to obtain personal radiation dose monitoring positioning information; setting a Bluetooth gateway beacon group and a radiation risk early warning management APP, deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal, and deploying the Bluetooth gateway beacon group to a radiation area key point; identifying radiological staff through an infrared imaging characteristic identification module, and correlating the personal radiation Bluetooth positioning monitoring dose card with the radiological staff special for the dose card to establish a correlation special for one person of the dose card; identifying special radiological staff for positioning the dose card according to the special association relation of the dose card and the person, positioning and monitoring the personal radiation Bluetooth positioning and monitoring dose card and the radiological risk early warning management APP terminal, and intelligently judging whether the radiation risk early warning management of the radiation area is in the area of the set radiation dose consistency monitoring range or not by accurate positioning and monitoring; the traditional personal radiation dose card is innovatively integrated with the Bluetooth positioning monitoring module, so that the intelligent personal radiation dose card has an intelligent foundation; by integrating work and personal data, the background is managed uniformly, so that the management is more convenient, and the data is clearer; the system has better sensitivity and accuracy; the management system can be used for carrying out radiation risk early warning management on personnel in areas relevant to radiation instruments, such as hospitals, social health, airports, railway stations, subways, nuclear power stations and the like, improves radiation risk early warning accuracy and timeliness, obviously reduces radiation hazard, has stronger universality for large-scale popularization and deployment and strong replicability, and is suitable for large-scale application; the personal radiation dose monitoring and the dose card positioning monitoring can be more accurate; the deployment capability of the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal is greatly improved by setting the Bluetooth gateway beacon group and the radiation risk early warning management APP, the Bluetooth gateway beacon group is deployed to the key point of the radiation area, the early warning management level of the key point is obviously enhanced, and the deployment range is enlarged; the radiation staff is identified through the infrared imaging characteristic identification module, so that the identification accuracy can be improved; the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff for the dose card are mutually associated, a special association relationship of one person of the dose card is established, the dose card is prevented from being used in a mixed mode, and the association relationship is clear; according to the special association relation of one person of the dose card, special radiological staff for positioning the dose card is identified, the dose card and the radiation risk early warning management APP terminal are positioned and monitored by the personal radiation Bluetooth, the double positioning mode of the dose card terminal is more reasonable and comprehensive, and obvious technical progress is achieved; the accurate positioning monitoring intelligent judgment is whether in the area of the set radiation dose consistency monitoring range, radiation risk early warning management is carried out on the radiation area, positioning monitoring accuracy and intellectualization are remarkably improved, positioning errors are greatly reduced, radiation dose consistency monitoring is more accurate, and radiation risk early warning management timeliness, safety and long-term management technical level of the radiation area are remarkably improved.

Other advantages, objects and features of the invention will be in part apparent to those skilled in the art from consideration of the specification and practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a diagram of an embodiment of a radiation risk early warning management method and system based on intelligent positioning monitoring according to the present invention.

FIG. 2 is a diagram of an embodiment of a radiation risk early warning management system location verification based on intelligent positioning monitoring according to the present invention.

FIG. 3 is a diagram illustrating an embodiment of positioning information of a radiation risk early warning management system based on intelligent positioning monitoring according to the present invention.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the same and to refer to the description; as shown in fig. 1-3, the invention provides a radiation risk early warning management method based on intelligent positioning monitoring, which comprises the following steps:

The principle and effect of the technical scheme are as follows: the invention provides a radiation risk early warning management method based on intelligent positioning monitoring, which comprises the following steps: the personal radiation Bluetooth positioning monitoring dose card is used for carrying out personal radiation dose monitoring and dose card positioning monitoring to obtain personal radiation dose monitoring positioning information; setting a Bluetooth gateway beacon group and a radiation risk early warning management APP, deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal, and deploying the Bluetooth gateway beacon group to a radiation area key point; identifying radiological staff through an infrared imaging characteristic identification module, and correlating the personal radiation Bluetooth positioning monitoring dose card with the radiological staff special for the dose card to establish a correlation special for one person of the dose card; identifying special radiological staff for positioning the dose card according to the special association relation of the dose card and the person, positioning and monitoring the personal radiation Bluetooth positioning and monitoring dose card and the radiological risk early warning management APP terminal, and intelligently judging whether the radiation risk early warning management of the radiation area is in the area of the set radiation dose consistency monitoring range or not by accurate positioning and monitoring; the traditional personal radiation dose card is innovatively integrated with the Bluetooth positioning monitoring module, so that the intelligent personal radiation dose card has an intelligent foundation; by integrating work and personal data, the background is managed uniformly, so that the management is more convenient, and the data is clearer; the system has better sensitivity and accuracy; the management system can be used for carrying out radiation risk early warning management on personnel in areas relevant to radiation instruments, such as hospitals, social health, airports, railway stations, subways, nuclear power stations and the like, improves radiation risk early warning accuracy and timeliness, obviously reduces radiation hazard, has stronger universality for large-scale popularization and deployment and strong replicability, and is suitable for large-scale application; the personal radiation dose monitoring and the dose card positioning monitoring can be more accurate; the deployment capability of the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal is greatly improved by setting the Bluetooth gateway beacon group and the radiation risk early warning management APP, the Bluetooth gateway beacon group is deployed to the key point of the radiation area, the early warning management level of the key point is obviously enhanced, and the deployment range is enlarged; the radiation staff is identified through the infrared imaging characteristic identification module, so that the identification accuracy can be improved; the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff for the dose card are mutually associated, a special association relationship of one person of the dose card is established, the dose card is prevented from being used in a mixed mode, and the association relationship is clear; according to the special association relation of one person of the dose card, special radiological staff for positioning the dose card is identified, the dose card and the radiation risk early warning management APP terminal are positioned and monitored by the personal radiation Bluetooth, the double positioning mode of the dose card terminal is more reasonable and comprehensive, and obvious technical progress is achieved; the accurate positioning monitoring intelligent judgment is whether in the area of the set radiation dose consistency monitoring range, radiation risk early warning management is carried out on the radiation area, positioning monitoring accuracy and intellectualization are remarkably improved, positioning errors are greatly reduced, radiation dose consistency monitoring is more accurate, and radiation risk early warning management timeliness, safety and long-term management technical level of the radiation area are remarkably improved.

In one embodiment, S100 comprises:

The principle and effect of the technical scheme are as follows: the personal radiation Bluetooth positioning monitoring is utilized, the personal radiation dose card module, the Bluetooth positioning monitoring module and the radiation monitoring abnormal alarm buzzer are subjected to system integration, and the personal radiation Bluetooth positioning monitoring dose card is obtained; monitoring personal radiation dose through the personal radiation dose card module; the positioning and monitoring of the dose card are carried out through a Bluetooth positioning and monitoring module; collecting personal radiation dose monitoring data through personal radiation dose monitoring; collecting positioning data of the dose card through positioning and monitoring of the dose card; marking the personal radiation dose monitoring data and the dose card positioning data in a 3D radiation area map to form a 3D radiation area personal radiation dose monitoring positioning information distribution diagram, and obtaining personal radiation dose monitoring positioning information; the personal radiation dose monitoring and the dose card positioning monitoring can be more accurate.

In one embodiment, S200 includes:

The principle and effect of the technical scheme are as follows: setting a Bluetooth gateway beacon group by utilizing a Bluetooth gateway early warning management APP, and deploying the Bluetooth gateway beacon group to a radiation area key point; setting a radiation risk early warning management APP, and deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal; bluetooth induction communication is carried out with the personal radiation Bluetooth positioning monitoring dosage card through the Bluetooth gateway beacon group, and data Bluetooth transmission communication is carried out with the radiation risk early warning management APP operation terminal; the deployment capability of the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal is greatly improved by setting the Bluetooth gateway beacon group and the radiation risk early warning management APP, the Bluetooth gateway beacon group is deployed to the key point of the radiation area, the key point early warning management level is obviously enhanced, and the deployment range is enlarged.

In one embodiment, S300 includes:

The principle and effect of the technical scheme are as follows: monitoring human body feature recognition through infrared imaging by utilizing infrared feature recognition association, and establishing an infrared imaging feature recognition module; identifying the radiological staff through an infrared imaging characteristic identification module, and establishing an infrared imaging characteristic identification special ID identification code of the radiological staff; reading a special ID (identity) code of a dose card of the personal radiation Bluetooth positioning monitoring dose card, and carrying out one-to-one association of the special ID code for infrared imaging characteristic identification and the special ID code of the dose card; according to one-to-one association of the special ID identification codes, the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff of the dose card are associated with each other, and a special association relationship of one person of the dose card is established; the infrared imaging feature recognition module includes: the system comprises an infrared imaging camera, a point temperature measuring unit, a human body characteristic data storage unit and a characteristic recognition analysis unit; monitoring human body feature recognition through infrared imaging, establishing an infrared imaging feature recognition module includes: shooting an individual infrared image through an infrared imaging camera, and setting individual corresponding key infrared point positions identified by the individual infrared image and the human body characteristics; according to the corresponding key infrared point positions of the individuals, the infrared imaging monitoring data of the corresponding key infrared point positions of the individuals are calibrated point by point through a point temperature measuring unit, a data set is established after calibration, an infrared monitoring calibration data set of the infrared point positions of the individuals is obtained, a personal information database of the human body characteristic identification infrared point positions is established, and the personal information database is stored in a human body characteristic data storage unit; the characteristic recognition analysis unit reads the personal infrared image monitoring data, compares and analyzes the personal infrared point position infrared monitoring calibration data set data, analyzes the personal information of the human body characteristic recognition infrared point position, accurately recognizes the radiological staff, and establishes an infrared imaging characteristic recognition module; the radiation staff is identified through the infrared imaging characteristic identification module, so that the identification accuracy can be improved; the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff for the dose card are mutually associated, a special association relationship of one person of the dose card is established, the dose card is prevented from being used in a mixed mode, and the association relationship is clear.

In one embodiment, S400 includes:

The principle and effect of the technical scheme are as follows: identifying and positioning, monitoring and early warning management, and identifying and positioning special radiation staff for the dose card through an infrared imaging characteristic identification module according to a special association relation of one person of the dose card; carrying out personal radiation Bluetooth positioning monitoring dose card positioning confirmation and radiation risk early warning management APP terminal position confirmation through a Bluetooth gateway beacon group; judging whether the radiation dose is in a set radiation dose consistency monitoring range area or not by identifying special radiation staff for positioning the dose card, positioning and monitoring personal radiation Bluetooth positioning and monitoring dose card and radiation risk early warning management APP terminal, and acquiring a radiation dose consistency intelligent positioning and monitoring judgment result; performing radiation risk early warning management on the radiation area according to the radiation dose consistency intelligent positioning monitoring judgment result; according to the radiation dose consistency intelligent positioning monitoring judgment result, the radiation risk early warning management of the radiation area comprises the following steps: according to the radiation dose consistency intelligent positioning monitoring result, when the distance between the personal radiation Bluetooth positioning monitoring dose card and the radiation risk early warning management APP terminal and the special radiation staff for the dose card is larger than the set radiation dose consistency monitoring range in the radiation dose consistency management area, the radiation risk early warning management APP sends out radiation monitoring abnormal risk early warning, meanwhile, the radiation risk early warning management APP terminal is triggered to give out warning, the personal radiation dose monitoring and dose card triggers the radiation monitoring abnormal warning buzzer to send out warning buzzing, and the intelligent warning radiation area management is abnormal; performing radiation risk early warning intelligent management in a radiation area; according to the special association relation of one person of the dose card, special radiological staff for positioning the dose card is identified, the dose card and the radiation risk early warning management APP terminal are positioned and monitored by the personal radiation Bluetooth, the double positioning mode of the dose card terminal is more reasonable and comprehensive, and obvious technical progress is achieved; the accurate positioning monitoring intelligent judgment is whether in the area of the set radiation dose consistency monitoring range, radiation risk early warning management is carried out on the radiation area, positioning monitoring accuracy and intellectualization are remarkably improved, positioning errors are greatly reduced, radiation dose consistency monitoring is more accurate, and radiation risk early warning management timeliness, safety and long-term management technical level of the radiation area are remarkably improved.

The principle and effect of the technical scheme are as follows: the invention provides a radiation risk early warning management system based on intelligent positioning monitoring, which comprises the following components: the personal radiation Bluetooth positioning monitoring subsystem is used for performing personal radiation dose monitoring and dose card positioning monitoring through the personal radiation Bluetooth positioning monitoring dose card to acquire personal radiation dose monitoring positioning information; the method comprises the steps of setting a Bluetooth gateway beacon group and a radiation risk early warning management APP by a Bluetooth gateway early warning management APP subsystem, deploying the radiation risk early warning management APP to a radiation risk early warning management APP operation terminal, and deploying the Bluetooth gateway beacon group to a radiation area key point; the infrared characteristic identification association subsystem identifies radiological staff through the infrared imaging characteristic identification module, and associates the personal radiation Bluetooth positioning monitoring dose card with the radiological staff special for the dose card to establish a special association relationship of one person of the dose card; the positioning monitoring early warning management subsystem is used for identifying a special radiation staff for positioning the dose card according to a special association relation of one person of the dose card, positioning the personal radiation Bluetooth positioning monitoring dose card and the radiation risk early warning management APP terminal, and accurately positioning and monitoring intelligently judges whether the radiation risk early warning management of the radiation area is in a set radiation dose consistency monitoring range area or not; the traditional personal radiation dose card is innovatively integrated with the Bluetooth positioning monitoring module, so that the intelligent personal radiation dose card has an intelligent foundation; by integrating work and personal data, the background is managed uniformly, so that the management is more convenient, and the data is clearer; the system has better sensitivity and accuracy; the management system can be used for carrying out radiation risk early warning management on personnel in areas relevant to radiation instruments, such as hospitals, social health, airports, railway stations, subways, nuclear power stations and the like, improves radiation risk early warning accuracy and timeliness, obviously reduces radiation hazard, has stronger universality for large-scale popularization and deployment and strong replicability, and is suitable for large-scale application; the personal radiation dose monitoring and the dose card positioning monitoring can be more accurate; the deployment capability of the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal is greatly improved by setting the Bluetooth gateway beacon group and the radiation risk early warning management APP, the Bluetooth gateway beacon group is deployed to the key point of the radiation area, the early warning management level of the key point is obviously enhanced, and the deployment range is enlarged; the radiation staff is identified through the infrared imaging characteristic identification module, so that the identification accuracy can be improved; the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff for the dose card are mutually associated, a special association relationship of one person of the dose card is established, the dose card is prevented from being used in a mixed mode, and the association relationship is clear; according to the special association relation of one person of the dose card, special radiological staff for positioning the dose card is identified, the dose card and the radiation risk early warning management APP terminal are positioned and monitored by the personal radiation Bluetooth, the double positioning mode of the dose card terminal is more reasonable and comprehensive, and obvious technical progress is achieved; the accurate positioning monitoring intelligent judgment is whether in the area of the set radiation dose consistency monitoring range, radiation risk early warning management is carried out on the radiation area, positioning monitoring accuracy and intellectualization are remarkably improved, positioning errors are greatly reduced, radiation dose consistency monitoring is more accurate, and radiation risk early warning management timeliness, safety and long-term management technical level of the radiation area are remarkably improved.

In one embodiment, the personal radiating Bluetooth locating and monitoring subsystem comprises:

The principle and effect of the technical scheme are as follows: the personal radiation Bluetooth positioning monitoring is utilized, and a radiation Bluetooth positioning monitoring system integration subsystem is used for integrating the personal radiation dose card module, the Bluetooth positioning monitoring module and the radiation monitoring abnormal alarm buzzer into a system to obtain a personal radiation Bluetooth positioning monitoring dose card; the personal radiation dose positioning monitoring subsystem monitors personal radiation doses through the personal radiation dose card module; the positioning and monitoring of the dose card are carried out through a Bluetooth positioning and monitoring module; the radiation area monitoring positioning distribution subsystem is used for collecting personal radiation dose monitoring data through personal radiation dose monitoring; collecting positioning data of the dose card through positioning and monitoring of the dose card; marking the personal radiation dose monitoring data and the dose card positioning data in a 3D radiation area map to form a 3D radiation area personal radiation dose monitoring positioning information distribution diagram, and obtaining personal radiation dose monitoring positioning information; the personal radiation dose monitoring and the dose card positioning monitoring can be more accurate.

In one embodiment, the bluetooth gateway early warning management APP subsystem comprises:

The principle and effect of the technical scheme are as follows: setting a Bluetooth gateway beacon group by utilizing a Bluetooth gateway early warning management APP and a Bluetooth gateway beacon subsystem, and deploying the Bluetooth gateway beacon group to a key point of a radiation area; the risk early warning management APP deployment subsystem is used for setting a radiation risk early warning management APP and deploying the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal; the Bluetooth induction communication subsystem is used for carrying out Bluetooth induction communication with the personal radiation Bluetooth positioning monitoring dosage card through a Bluetooth gateway beacon group and carrying out data Bluetooth transmission communication with the radiation risk early warning management APP operation terminal; the deployment capability of the radiation risk early warning management APP to the radiation risk early warning management APP operation terminal is greatly improved by setting the Bluetooth gateway beacon group and the radiation risk early warning management APP, the Bluetooth gateway beacon group is deployed to the key point of the radiation area, the key point early warning management level is obviously enhanced, and the deployment range is enlarged.

In one embodiment, the infrared signature identification association subsystem comprises:

The principle and effect of the technical scheme are as follows: the infrared imaging characteristic recognition subsystem monitors human body characteristic recognition through infrared imaging by utilizing infrared characteristic recognition association, and an infrared imaging characteristic recognition module is established; the special identification rack constructing system is used for identifying the radiological staff through the infrared imaging characteristic identification module and establishing an infrared imaging characteristic identification special ID identification code of the radiological staff; reading a special ID (identity) code of a dose card of the personal radiation Bluetooth positioning monitoring dose card, and carrying out one-to-one association of the special ID code for infrared imaging characteristic identification and the special ID code of the dose card; the special association subsystem of ID marks, according to the one-to-one association of special ID codes, the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff of the dose card are associated with each other, and a special association relation of one person of the dose card is established; the infrared imaging feature recognition module includes: the system comprises an infrared imaging camera, a point temperature measuring unit, a human body characteristic data storage unit and a characteristic recognition analysis unit; monitoring human body feature recognition through infrared imaging, establishing an infrared imaging feature recognition module includes: shooting an individual infrared image through an infrared imaging camera, and setting individual corresponding key infrared point positions identified by the individual infrared image and the human body characteristics; according to the corresponding key infrared point positions of the individuals, the infrared imaging monitoring data of the corresponding key infrared point positions of the individuals are calibrated point by point through a point temperature measuring unit, a data set is established after calibration, an infrared monitoring calibration data set of the infrared point positions of the individuals is obtained, a personal information database of the human body characteristic identification infrared point positions is established, and the personal information database is stored in a human body characteristic data storage unit; the characteristic recognition analysis unit reads the personal infrared image monitoring data, compares and analyzes the personal infrared point position infrared monitoring calibration data set data, analyzes the personal information of the human body characteristic recognition infrared point position, accurately recognizes the radiological staff, and establishes an infrared imaging characteristic recognition module; the radiation staff is identified through the infrared imaging characteristic identification module, so that the identification accuracy can be improved; the personal radiation Bluetooth positioning monitoring dose card and the special radiation staff for the dose card are mutually associated, a special association relationship of one person of the dose card is established, the dose card is prevented from being used in a mixed mode, and the association relationship is clear.

In one embodiment, the identifying a positioning monitoring early warning management subsystem includes:

The principle and effect of the technical scheme are as follows: the infrared identification Bluetooth beacon positioning subsystem is used for identifying and positioning special radiation staff for the dose card through the infrared imaging characteristic identification module according to the special association relation of the dose card for one person by utilizing identification positioning monitoring early warning management; carrying out personal radiation Bluetooth positioning monitoring dose card positioning confirmation and radiation risk early warning management APP terminal position confirmation through a Bluetooth gateway beacon group; the positioning monitoring intelligent judging subsystem judges whether the positioning monitoring intelligent judging subsystem is in a set radiation dose consistency monitoring range area or not by identifying a special radiation staff for positioning a dose card, positioning monitoring personal radiation Bluetooth positioning monitoring dose card and a radiation risk early warning management APP terminal, and acquires a radiation dose consistency intelligent positioning monitoring judging result; the radiation risk early warning management subsystem is used for carrying out radiation risk early warning management on the radiation area according to the radiation dose consistency intelligent positioning monitoring judgment result; according to the radiation dose consistency intelligent positioning monitoring judgment result, the radiation risk early warning management of the radiation area comprises the following steps: according to the radiation dose consistency intelligent positioning monitoring result, when the distance between the personal radiation Bluetooth positioning monitoring dose card and the radiation risk early warning management APP terminal and the special radiation staff for the dose card is larger than the set radiation dose consistency monitoring range in the radiation dose consistency management area, the radiation risk early warning management APP sends out radiation monitoring abnormal risk early warning, meanwhile, the radiation risk early warning management APP terminal is triggered to give out warning, the personal radiation dose monitoring and dose card triggers the radiation monitoring abnormal warning buzzer to send out warning buzzing, and the intelligent warning radiation area management is abnormal; performing radiation risk early warning intelligent management in a radiation area; according to the special association relation of one person of the dose card, special radiological staff for positioning the dose card is identified, the dose card and the radiation risk early warning management APP terminal are positioned and monitored by the personal radiation Bluetooth, the double positioning mode of the dose card terminal is more reasonable and comprehensive, and obvious technical progress is achieved; the accurate positioning monitoring intelligent judgment is whether in the area of the set radiation dose consistency monitoring range, radiation risk early warning management is carried out on the radiation area, positioning monitoring accuracy and intellectualization are remarkably improved, positioning errors are greatly reduced, radiation dose consistency monitoring is more accurate, and radiation risk early warning management timeliness, safety and long-term management technical level of the radiation area are remarkably improved.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims

1. The radiation risk early warning management method based on intelligent positioning monitoring is characterized by comprising the following steps:

2. The radiation risk early warning management method based on intelligent positioning monitoring as set forth in claim 1, wherein S100 includes:

3. The radiation risk early warning management method based on intelligent positioning monitoring as set forth in claim 1, wherein S200 includes:

4. The radiation risk early warning management method based on intelligent positioning monitoring as set forth in claim 1, wherein S300 includes:

5. The radiation risk early warning management method based on intelligent positioning monitoring as set forth in claim 1, wherein S400 includes:

6. Radiation risk early warning management system based on intelligent positioning control, its characterized in that includes:

7. The radiation risk early warning management system based on intelligent positioning monitoring as set forth in claim 6, wherein the personal radiation bluetooth positioning monitoring subsystem comprises:

8. The radiation risk early warning management system based on intelligent positioning monitoring as set forth in claim 6, wherein the bluetooth gateway early warning management APP subsystem comprises:

9. The intelligent positioning monitoring-based radiation risk early warning management system as set forth in claim 6, wherein the infrared signature recognition association subsystem comprises:

10. The intelligent location monitoring-based radiological risk early warning management system of claim 6, wherein identifying a location monitoring early warning management subsystem includes: