CN112562853A - Radiation detection and health management system for nuclear practitioners - Google Patents

Abstract

The invention discloses a radiation detection and health management system for nuclear practitioners, which comprises wearable detection equipment and a server end in communication connection with the wearable detection equipment; the wearable detection device comprises a radiation sensing module and a health sensing module, wherein the radiation sensing module is used for detecting environmental radiation data, and the health sensing module is used for detecting human health data; and the server receives and summarizes the environmental radiation data and the human health data sent by the wearable detection equipment, and evaluates and warns human health. According to the invention, the environment radiation data and the human health data are acquired through the wearable detection equipment and are sent to the server side for human health assessment and early warning, so that the attention to the health condition of nuclear industry personnel is realized, the health abnormal condition of related personnel can be monitored and acquired in an early stage, and the early intervention is carried out.

Description

Radiation detection and health management system for nuclear practitioners

Technical Field

The invention relates to the field of human health management equipment, in particular to a radiation detection and health management system for nuclear practitioners.

Background

With the development of the national nuclear industry, the number of people engaged in the nuclear technology related industry is gradually increased.

At present, through related data retrieval, the wearable radiation monitoring equipment is found to be available, but health management equipment integrated for related personnel in nuclear industry and the like is not available. In view of the future development trend of the country, the nuclear industry is increasingly important in national economy, and therefore, a device for paying attention to the health condition of the nuclear industry personnel is needed, and the health abnormal condition of the relevant personnel is monitored and acquired at an early stage so as to perform early intervention.

Disclosure of Invention

The present invention is directed to providing a radiation detection and health management system for nuclear practitioners to solve the problems of the prior art.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

a radiation detection and health management system for nuclear practitioners comprises wearable detection equipment and a server end in communication connection with the wearable detection equipment;

the wearable detection device comprises a radiation sensing module and a health sensing module, wherein the radiation sensing module is used for detecting environmental radiation data, and the health sensing module is used for detecting human health data;

and the server receives and summarizes the environmental radiation data and the human health data sent by the wearable detection equipment, and evaluates and warns human health.

Further, the health sensing module comprises a heart rate sensing module, a GPS sensing module, a blood pressure sensing module and a sleep monitoring module; the health sensing module acquires human health data through a corresponding evaluation algorithm; the human health data comprises heart rate, position and moving distance, blood pressure, blood oxygen saturation and sleep degree.

Furthermore, the singlechip of the radiation sensing module and the singlechip of the health sensing module are connected through an FPC (flexible printed circuit) to realize data communication, module power supply and level matching;

connecting the RX serial port and TX serial port leads of the main board to welding points of the FPC through connection of the FPC; the voltage to ground of the RX serial port is 3.6V, the voltage to ground of the TX serial port is 3.3V, and the voltage to ground of the RX serial port is 0V and the voltage to ground of the TX serial port is 3.3V under the condition that output is suspended.

Further, the wearable detection device further comprises a database, and data transmission standards are stored in the database; the health sensing module calls a data transmission standard of a standard library to transmit data, so that compatibility of various health sensing modules is realized;

the single chip microcomputer of the radiation sensing module is connected with the FPC and carries out data transmission through a TX serial port and an RX serial port;

the data transmission of the radiation sensing module and the health sensing module is provided with an encryption module.

Further, the server side comprises a digital model, a radiation injury prediction algorithm module, a long-term nuclear personnel health management module, a visual operation module, an artificial intelligence module and a user data management module;

the digital model is connected with the radiation sensing module and the health sensing module and used for receiving environmental radiation data and human health data; the digital model is also provided with a standard interface, and the standard interface is used for data interaction with other systems;

the radiation injury prediction algorithm module and the long-term nuclear personnel health management module are connected with the digital model and used for outputting a prediction risk result according to the environmental radiation data and the human health data;

the visual operation module is respectively connected with the radiation injury prediction algorithm module and the long-term nuclear personnel health management module and is used for displaying a predicted risk result;

the artificial intelligence module is respectively connected with the digital model, the radiation injury prediction algorithm module and the long-term nuclear personnel health management module, and is optimized through the butt joint of the artificial intelligence module and the data and algorithm;

the digital model also comprises a user data management module and a standard interface;

the user data management module is used for inputting the health related data of the user or is in butt joint with the related data through a standard interface, and the health related data input of the user is automatically completed.

Furthermore, the digital model comprises relevant laboratory detection index fields related to the health of the radiometer and a literature knowledge graph module for updating the fields, wherein the literature knowledge graph module is associated with literature data, and the detection indexes related to the health of the radiometer and the corresponding fields thereof are updated by performing semantic analysis on relevant literatures; and establishing related field standards to realize efficient sharing and transmission of data.

Furthermore, the radiation damage prediction algorithm module predicts the potential damage of the radiation to the individual by combining the environmental radiation data and the human health data with the conventional health information of the individual;

the radiation injury prediction algorithm module combines the conventional health information and real-time physiological parameters of individuals, different radiation exposure risk thresholds can be obtained for different people, and accurate risk early warning is realized.

Further, the health management module of the long-term nuclear personnel records predefined health related data of a user of the wearable detection device based on a digital model, records the current health related data at regular time, and manages the recorded health related data and monitors the data completeness; all entered data combined with the accumulated and short term high intensity radiation exposure of the nuclear personnel, combined with the literature knowledge map module gives relevant health management recommendations, with the final clinical intervention being decided by the clinician.

Further, the artificial intelligence module comprises a basic core algorithm, a self-learning module and a digital model of the health of the radiometer; the basic core algorithm is used for risk monitoring of radiation risk exposure personnel, the self-learning module is combined with the digital model of the health of the radiation personnel, a dynamic module optimization method is respectively formed through algorithms such as machine learning, and accuracy of the radiation injury prediction algorithm and the long-term nuclear personnel health management module is continuously optimized.

Further, the visualization operation module is used for the conventional operation of related systems and the display of related results, including the display based on a geographic information system and the data display of related anonymized individuals.

Compared with the prior art, the invention has the beneficial effects that:

environmental radiation data and human health data are obtained through the wearable detection equipment and are sent to the server side to carry out human health assessment and early warning, the attention to the health condition of nuclear industry personnel is realized, the health abnormal condition of related personnel can be monitored and obtained in the early stage, and therefore early intervention is carried out.

Drawings

FIG. 1 is a schematic view of a radiation detection and health management system for a nuclear practitioner in accordance with the present invention.

Fig. 2 is a schematic diagram of the connection of the radiation sensing module and the health sensing module according to the present invention.

Fig. 3 is a schematic view of the connection between the radiation sensing module and the FPC according to the present invention.

Fig. 4 is a schematic front view of a single chip microcomputer of the radiation sensing module according to the present invention.

Fig. 5 is a schematic back view of a single chip of the radiation sensing module according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, the radiation detection and health management system for a nuclear practitioner according to the present invention includes a wearable detection device and a server end in communication connection with the wearable detection device;

the wearable detection device comprises a radiation sensing module and a health sensing module, wherein the radiation sensing module is used for detecting environmental radiation data, and the health sensing module is used for detecting human health data;

the health sensing module comprises a heart rate sensing module, a GPS sensing module, a blood pressure sensing module and a sleep monitoring module; the health sensing module acquires human health data through a corresponding evaluation algorithm; the human health data comprises heart rate, position and moving distance, blood pressure, blood oxygen saturation and sleep degree.

Referring to fig. 2, the single chip microcomputer of the radiation sensing module and the single chip microcomputer of the health sensing module are connected through the FPC to achieve data communication, module power supply and level matching; connecting the RX serial port and TX serial port leads of the main board to welding points of the FPC through connection of the FPC; the voltage to ground of the RX serial port is 3.6V, the voltage to ground of the TX serial port is 3.3V, and the voltage to ground of the RX serial port is 0V and the voltage to ground of the TX serial port is 3.3V under the condition that output is suspended.

Referring to fig. 3, 4 and 5, the single chip of the radiation sensing module is connected to the FPC, and performs data transmission through the TX serial port and the RX serial port;

the data transmission of the radiation sensing module and the health sensing module is provided with an encryption module.

The wearable detection equipment further comprises a database, and data transmission standards are stored in the database; the health sensing module calls a data transmission standard of a standard library to transmit data, and compatibility of various health sensing modules is achieved.

And the server receives and summarizes the environmental radiation data and the human health data sent by the wearable detection equipment, and evaluates and warns human health.

Referring to fig. 1, the server includes a digital model, a radiation damage prediction algorithm module, a long-term nuclear personnel health management module, a visual operation module, an artificial intelligence module and a user data management module;

the digital model is connected with the radiation sensing module and the health sensing module and used for receiving environmental radiation data and human health data; the digital model is also provided with a standard interface, and the standard interface is used for data interaction with other systems;

the radiation injury prediction algorithm module and the long-term nuclear personnel health management module are connected with the digital model and used for outputting a prediction risk result according to the environmental radiation data and the human health data;

the visual operation module is respectively connected with the radiation injury prediction algorithm module and the long-term nuclear personnel health management module and is used for displaying a predicted risk result;

the artificial intelligence module is respectively connected with the digital model, the radiation injury prediction algorithm module and the long-term nuclear personnel health management module, and is optimized through the butt joint of the artificial intelligence module and the data and algorithm;

the digital model also comprises a user data management module and a standard interface;

the user data management module is used for inputting the health related data of the user or is in butt joint with the related data through a standard interface, and the health related data input of the user is automatically completed.

The digital model comprises relevant laboratory detection index fields related to the health of radiometers and a literature knowledge graph module for field updating, wherein the literature knowledge graph module is associated with literature data, and the detection indexes related to the radiation health and the corresponding fields thereof are updated by performing semantic analysis on relevant literatures; and establishing related field standards to realize efficient sharing and transmission of data.

The radiation damage prediction algorithm module predicts the potential damage of the radiation to the individual by combining the environmental radiation data and the human health data with the conventional health information of the individual;

the radiation injury prediction algorithm module combines the conventional health information and real-time physiological parameters of individuals, different radiation exposure risk thresholds can be obtained for different people, and accurate risk early warning is realized.

The health management module of the long-term nuclear personnel records the predefined health related data of the wearing type detection equipment user based on the digital model, records the current health related data at regular time, and manages the recorded health related data and monitors the data completeness; all entered data combined with the accumulated and short term high intensity radiation exposure of the nuclear personnel, combined with the literature knowledge map module gives relevant health management recommendations, with the final clinical intervention being decided by the clinician.

The artificial intelligence module comprises a basic core algorithm, a self-learning module and a digital model of the health of the radiator; the basic core algorithm is used for risk monitoring of radiation risk exposure personnel, the self-learning module is combined with the digital model of the health of the radiation personnel, a dynamic module optimization method is respectively formed through algorithms such as machine learning, and accuracy of the radiation injury prediction algorithm and the long-term nuclear personnel health management module is continuously optimized.

The visual operation module is used for the conventional operation of related systems and the display of related results, including the display based on a geographic information system and the data display of related anonymized individuals.

According to the method and the system, the environment radiation data and the human health data are acquired through the wearable detection equipment and are sent to the server side for human health assessment and early warning, the health condition of nuclear industry personnel is concerned, the health abnormal condition of related personnel can be monitored and acquired in the early stage, and therefore early intervention is performed.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A radiation detection and health management system for a nuclear practitioner, characterized by: the system comprises wearable detection equipment and a server end in communication connection with the wearable detection equipment;

the wearable detection device comprises a radiation sensing module and a health sensing module, wherein the radiation sensing module is used for detecting environmental radiation data, and the health sensing module is used for detecting human health data;

and the server receives and summarizes the environmental radiation data and the human health data sent by the wearable detection equipment, and evaluates and warns human health.

2. The radiation detection and health management system for a nuclear practitioner of claim 1, wherein: the health sensing module comprises a heart rate sensing module, a GPS sensing module, a blood pressure sensing module and a sleep monitoring module; the health sensing module acquires human health data through a corresponding evaluation algorithm; the human health data comprises heart rate, position and moving distance, blood pressure, blood oxygen saturation and sleep degree.

3. The radiation detection and health management system for a nuclear practitioner of claim 1, wherein: the singlechip of the radiation sensing module and the singlechip of the health sensing module are connected through an FPC (flexible printed circuit) to realize data communication, module power supply and level matching;

connecting the lead wires of the RX serial port and the TX serial port of the singlechip to the welding points of the FPC through the connection of the FPC; the voltage to ground of the RX serial port is 3.6V, the voltage to ground of the TX serial port is 3.3V, and the voltage to ground of the RX serial port is 0V and the voltage to ground of the TX serial port is 3.3V under the condition that output is suspended.

4. The radiation detection and health management system for a nuclear practitioner of claim 1, wherein: the wearable detection equipment further comprises a database, and data transmission standards are stored in the database; the health sensing module calls a data transmission standard of a standard library to transmit data, so that compatibility of various health sensing modules is realized;

the single chip microcomputer of the radiation sensing module is connected with the FPC and carries out data transmission through a TX serial port and an RX serial port;

the data transmission of the radiation sensing module and the health sensing module is provided with an encryption module.

5. The radiation detection and health management system for a nuclear practitioner of claim 1, wherein: the server side comprises a digital model, a radiation injury prediction algorithm module, a long-term nuclear personnel health management module, a visual operation module, an artificial intelligence module and a user data management module;

the digital model is connected with the radiation sensing module and the health sensing module and used for receiving environmental radiation data and human health data; the digital model is also provided with a standard interface, and the standard interface is used for data interaction with other systems;

the radiation injury prediction algorithm module and the long-term nuclear personnel health management module are connected with the digital model and used for outputting a prediction risk result according to the environmental radiation data and the human health data;

the visual operation module is respectively connected with the radiation injury prediction algorithm module and the long-term nuclear personnel health management module and is used for displaying a predicted risk result;

the artificial intelligence module is respectively connected with the digital model, the radiation injury prediction algorithm module and the long-term nuclear personnel health management module, and is optimized through the butt joint of the artificial intelligence module and the data and algorithm;

the digital model also comprises a user data management module and a standard interface;

the user data management module is used for inputting the health related data of the user or is in butt joint with the related data through a standard interface, and the health related data input of the user is automatically completed.

6. The radiation detection and health management system for a nuclear practitioner of claim 5, wherein: the digital model comprises relevant laboratory detection index fields related to the health of radiometers and a literature knowledge graph module for field updating, wherein the literature knowledge graph module is associated with literature data, and the detection indexes related to the radiation health and the corresponding fields thereof are updated by performing semantic analysis on relevant literatures; and establishing related field standards to realize efficient sharing and transmission of data.

7. The radiation detection and health management system for a nuclear practitioner of claim 5, wherein: the radiation damage prediction algorithm module predicts the potential damage of the radiation to the individual by combining the environmental radiation data and the human health data with the conventional health information of the individual;

the radiation injury prediction algorithm module combines the conventional health information and real-time physiological parameters of individuals, different radiation exposure risk thresholds can be obtained for different people, and accurate risk early warning is realized.

8. The radiation detection and health management system for a nuclear practitioner of claim 5, wherein: the health management module of the long-term nuclear personnel records the predefined health related data of the wearing type detection equipment user based on the digital model, records the current health related data at regular time, and manages the recorded health related data and monitors the data completeness; all entered data combined with the accumulated and short term high intensity radiation exposure of the nuclear personnel, combined with the literature knowledge map module gives relevant health management recommendations, with the final clinical intervention being decided by the clinician.

9. The radiation detection and health management system for a nuclear practitioner of claim 5, wherein: the artificial intelligence module comprises a basic core algorithm, a self-learning module and a digital model of the health of the radiator; the basic core algorithm is used for risk monitoring of radiation risk exposure personnel, the self-learning module is combined with the digital model of the health of the radiation personnel, a dynamic module optimization method is respectively formed through algorithms such as machine learning, and accuracy of the radiation injury prediction algorithm and the long-term nuclear personnel health management module is continuously optimized.

10. The radiation detection and health management system for a nuclear practitioner of claim 5, wherein: the visual operation module is used for the conventional operation of related systems and the display of related results, including the display based on a geographic information system and the data display of related anonymized individuals.

Images