JP2018037120A - Dose management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system which is beneficial for accurately investigating radiation influence on a resident due to Fukushima Dai-ichi nuclear power plant accident over a long term.SOLUTION: A radiation exposure dose information management system 100 acquires nuclear power plant accident radiation exposure dose information, occupational radiation exposure dose information, and medical radiation exposure dose information from a personal dose-meter 202 owned by a radiation exposure dose evaluation object person 200, and records the nuclear power plant accident radiation exposure dose information, the occupational radiation exposure dose information, and the medical radiation exposure dose information, which are acquired, in association with personal identification information in a storage part 102. Thus, it is possible to continuously record temporally shift of personal radiation exposure for every factor, and to smoothly execute evaluation of radiation dose in accordance with a purpose of exposure management.SELECTED DRAWING: Figure 1

Description

  The present invention includes those who live or stay in an area or facility where there is a possibility of environmental pollution by radioactive materials (hereinafter referred to as “radioactive pollution”), and the radiation of the person that the person may have been exposed to in their daily activities. The present invention relates to an exposure radiation dose information management system for comprehensively managing and monitoring a personal exposure dose to a person who wishes to grasp the accumulation transition of dose (hereinafter referred to as “exposure dose assessment target person”).

  Due to the 2011 Fukushima Daiichi accident, there has been a widespread increase in radioactive contamination and the environmental air dose rate mainly in Fukushima Prefecture. Although the level of environmental pollution varies from region to region, the country recognizes that in order to investigate and explore the level of pollution and its impact on the human body, it is necessary to observe the health of residents over a long period of time.

  However, people live by exposing their bodies to medical radiation and environmental radiation outside of the Fukushima Daiichi Nuclear Accident, in addition to the government's additional dose (radiation exposure from radioactive substances caused by the Fukushima Daiichi Nuclear Accident). . When examining the effects of radiation exposure resulting from the above accidents, it is necessary to perform dose assessment by factor.

  Patent Document 1 describes a plurality of facility processing apparatuses respectively installed in a plurality of medical-related facilities and a system for providing or acquiring medical information to the facility processing apparatuses via a bidirectional communication network. .

Japanese Patent Laying-Open No. 2005-4790

  However, the conventional system is a system that provides or acquires medical information, but does not construct a network for accurately investigating the effects of radiation over a long period of time. In addition, radiation dose assessment is extremely important information for individuals and sometimes for society, and it is extremely important for individuals and society / states to appropriately collect and manage the information.

  The present invention has been devised to address the above-described problems, and in particular, provides a system that is useful for accurately investigating the radiation effects on residents due to the Fukushima Daiichi nuclear accident over a long period of time. Objective. It is also intended to be useful in determining the appropriateness of risk compensation or compensation for exposure to radiation exposure that is received by members of the public due to occupational radiation exposure or inadequate environmental protection.

  [Invention 1] In order to achieve the above object, the exposure radiation dose information management system of the invention 1 is an exposure radiation dose information management system for recording the exposure radiation dose information of the person to be evaluated for exposure dose. , Nuclear accident exposure radiation dose information indicating the radiation dose exposed due to an accident at a nuclear power plant, occupational radiation exposure information indicating exposure radiation dose due to occupational radiation exposure, and medical treatment indicating radiation exposure due to medical exposure Radiation exposure dose information recording means for associating radiation exposure dose information with the storage means.

  [Invention 2] The radiation dose information management system according to Invention 2 is the radiation dose information management system according to Invention 1, wherein the identification of the radiation dose evaluation target person is an identification card possessed by the person or assigned. This is done by identification information.

  [Invention 3] Further, the exposure radiation dose information management system according to Invention 3 is the exposure radiation dose information management system according to any one of Inventions 1 and 2, wherein the exposure radiation dose is provided to a provider of the medical exposure radiation dose information. A certain reward is given from the evaluation subject, the country, or the operator of the radiation dose information management system.

  [Invention 4] Further, the exposure radiation dose information management system according to Invention 4 is the exposure radiation dose information management system according to any one of Inventions 1 to 3, wherein the primary accident exposure dose information, the occupational exposure dose information, and When the exposure management reference value is set for each of the medical exposure radiation dose information and the exposure radiation dose information recorded in the storage means is rewritten, or when the exposure radiation dose information is recorded in the storage means, the rewriting or The exposure radiation dose of the exposure radiation dose information to be recorded is collated with the exposure management reference value corresponding to this, and the collation result is displayed, transmitted or recorded.

  [Invention 5] Further, the exposure radiation dose information management system according to Invention 5 is the exposure radiation dose information management system according to any one of Inventions 1 to 4, wherein the exposure radiation is based on the exposure radiation dose information recorded in the storage means. When it is determined that the cumulative value of the dose or the total radiation dose has reached a predetermined level, a predetermined notification is performed.

  [Invention 6] Further, an exposure radiation dose information management system according to Invention 6 is the exposure radiation dose information management system according to any one of Inventions 1 to 5, and shares or exchanges the exposure radiation dose information with another database.

  As described above, according to the exposure radiation dose information management system of the invention 1, the temporal transition of individual radiation exposure is continuously recorded for each factor, and the radiation dose can be evaluated smoothly according to the purpose of exposure management. The effect that can be implemented is obtained.

It is a figure which shows the outline | summary of the whole structure containing the exposure radiation dose information management system. It is a flowchart which shows operation | movement of the exposure radiation dose information management system 100 in the case of recording exposure dose information. It is a flowchart which shows operation | movement of the radiation dose information management system 100 in the case of managing radiation dose information.

Embodiments of the present invention will be described below.
First, the configuration of the radiation exposure dose information management system according to the present embodiment will be described.

FIG. 1 is a diagram showing an outline of the overall configuration including an exposure radiation dose information management system 100.
As shown in FIG. 1, the radiation dose evaluation target person 200 holds the personal dosimeter 202 from the neck with a strap or the like, and is always carried. Here, the radiation dose evaluation target person 200 refers to a person who lived or stayed in an area or facility where there is a possibility of radioactive contamination in a narrow sense. There is a risk of discrimination or the like when the radiation dose evaluation target person 200 possesses an identification card or the like to be described later. In order to avoid discrimination, etc., and to function as a control group, residents in areas where there is no possibility of radioactive contamination may be included in the subjects. The personal dosimeter 202 measures the radiation dose received by the personal dosimeter 202, and since the radiation dose evaluation target person 200 is closely carrying, the radiation dose measured by the personal dosimeter 202 is It can be considered that it is equivalent to the radiation dose to which the radiation dose evaluation target person 200 has been exposed. The personal dosimeter 202 may be of any system / structure as long as it can measure and record the received radiation dose. For example, a known personal dosimeter can be adopted.

  The personal dosimeter 202 includes a measurement unit that measures the received radiation dose, and a storage unit that stores radiation dose information indicating the radiation dose measured by the measurement unit. The storage unit is the amount of radiation exposed to radiation caused by an accident at a nuclear power plant (for example, the accident at the 2011 Fukushima Daiichi Nuclear Power Plant) (the amount of radiation exposed to natural radiation existing before March 11, 2011). A first storage area for storing the radiation dose information of the nuclear accident indicating the radiation dose, a second storage area for storing the occupational radiation dose information indicating the radiation dose due to occupational radiation exposure, and a radiation exposure due to medical exposure. And a third storage area for storing medical exposure radiation dose information indicating the radiation dose. In the present application, the measurement values including the radiation dose due to natural radiation existing before March 11, 2011 are handled and described. The nuclear accident exposure dose, occupational exposure dose, and medical exposure dose, including the exposure dose due to natural radiation existing before March 11, 2011, are measured. However, it is also within the technical scope of the present invention to manage the measured value after subtracting the radiation dose due to natural radiation existing before March 11, 2011. Natural radiation refers to radiation that naturally exists in the natural world without human activity, such as radiation coming from outer space or radiation coming from radioactive materials contained in the earth or the atmosphere. It is known that the radiation dose from natural radiation is about 1 [mSv] per year in Japan. Persons who receive occupational radiation exposure include, for example, workers at nuclear power plants, pilots, researchers who use radiation, researchers at facilities where radiation is generated, radiation workers (for example, X-ray equipment, Medical high-energy radiation generator, medical particle beam irradiation device, medical radiation irradiation device, medical radiation irradiation equipment, medical equipment equipped with radioisotope, medical radioisotope or positron emission tomography , Persons engaged in management or business incidental thereto). In addition, as a person who receives medical exposure, for example, a patient who inevitably receives radiation from a radiological medical device in order to cure his own illness. For example, the exposure radiation dose in a typical X-ray examination in radiology is as follows: Chest X-ray is 0.04 [mSv], Abdominal X-ray is 1.2 [mSv], Upper Gastrointestinal X-ray is 8.7 [mSv], Chest CT is 7.8 [mSv], Abdominal CT is 7.6 [mSv] ]. The personal dosimeter 202 normally records radiation dose information indicating the radiation dose measured by the measurement unit in the first storage area of the storage unit as primary accident radiation exposure dose information.

  Nuclear accident exposure radiation dose information, occupational exposure radiation dose information, and medical exposure radiation dose information (hereinafter collectively referred to as “exposure radiation dose information”) have basically resided or stayed. It includes the radiation dose measured in the area or facility and the period of residence or stay in those areas or facilities, and if possible, more detailed information such as internal exposure and external exposure. Furthermore, in addition to such detailed time-series data, or instead of such data, cumulative exposure dose such as a glass dosimeter may be held as data. For each work, the assumed radiation dose may be determined and used. Regarding medical exposure, the radiation dose to be exposed may be determined for each X-ray imaging, CT imaging, radiotherapy, and the like.

  In / out sensors 222 and 224 are provided at the gate of a workplace (for example, a radiation control area or site of a nuclear power plant) 220 that handles radioactive substances and radiation. The entrance / exit sensor 222, when the radiation dose evaluation target person 200 carrying the personal dosimeter 202 intends to enter the workplace 220, transmits entrance information indicating entry into the workplace 220 to the personal dosimeter 202. When a notification of completion of reception of the entrance information is received from the dosimeter 202, the gate is opened and the entrance of the radiation dose evaluation target person 200 is permitted. On the other hand, the entrance / exit sensor 222 transmits, to the personal dosimeter 202, exit information indicating that the person to be evaluated for radiation exposure 200 carrying the personal dosimeter 202 is leaving the workplace 220. Upon receipt of the exit information reception completion notification from the personal dosimeter 202, the gate is opened to permit the radiation dose evaluation target person 200 to leave. When the personal dosimeter 202 receives the entrance information from the entrance / exit sensor 222, the personal dosimeter 202 transmits the entrance information reception completion notification to the entrance / exit sensor 222, and then measures the measurement until the exit information is received from the input / output sensor 222. The radiation dose information indicating the applied radiation dose is recorded in the second storage area of the storage unit as occupational exposure radiation dose information. When the personal dosimeter 202 receives the exit information from the entrance / exit sensor 222, the personal dosimeter 202 transmits an exit information reception completion notification to the entrance / exit sensor 222, and the radiation dose information indicating the radiation dose measured by the measurement unit is displayed as a professional It records in the 2nd storage area of a memory | storage part as exposure radiation dose information.

  The basic configuration and operation of the input / output sensor 224 are the same as those of the input / output sensor 222. When the personal dosimeter 202 receives the entrance information from the input / output sensor 224, the personal dosimeter 202 transmits an entrance information reception completion notification to the entrance / exit sensor 224, and thereafter the input / output sensor 224 receives the exit information from the input / output sensor 224. The occupational radiation dose information (hereinafter referred to as the first work area) recorded in the area inside the gate where the 222 is provided and outside the gate where the input / output sensor 224 is provided (hereinafter referred to as the first work area). Different from 1 occupational exposure radiation dose information), radiation dose information indicating the radiation dose measured by the measurement unit is recorded in the second storage area of the storage unit as occupational exposure radiation dose information. When the personal dosimeter 202 receives the exit information from the input / output sensor 224, the personal dosimeter 202 transmits an exit information reception completion notification to the entrance / exit sensor 224, and the radiation dose information indicating the radiation dose measured by the measurement unit is displayed as occupational radiation. Recorded in the second storage area of the storage unit as quantity information.

  The occupational radiation dose information may be only the first occupational radiation dose information or recorded in an area inside the gate where the input / output sensor 224 is provided (hereinafter referred to as the second workplace area). Only occupational radiation exposure dose information (hereinafter referred to as second occupational radiation exposure dose information) may be used, or first occupational radiation exposure dose information and second occupational radiation exposure dose information may be used. When recording the first occupational radiation dose information and the second occupational radiation dose information, the first occupational radiation dose information and the second occupational radiation dose information are recorded separately as in this embodiment. Alternatively, the first occupational radiation dose information and the second occupational radiation dose information may be recorded together.

  In a medical facility (for example, a hospital) 240, a radiation medical device 242 such as an X-ray or a CT, a medical PC 244 that calculates a radiation dose due to medical exposure by the radiation medical device 242, and an exposure radiation amount calculated by the medical PC 244 A writer 246 that writes radiation dose information indicating the radiation dose information to the personal dosimeter 202 as medical radiation dose information. When receiving radiation medical care, the radiation dose evaluation target person 200 removes the personal dosimeter 202 and brings the personal dosimeter 202 close to the writer 246 after the radiation medical care is completed. When the distance between the personal dosimeter 202 and the writer 246 becomes a predetermined distance or less, the personal dosimeter 202 acquires medical radiation dose information from the medical PC 244 via the writer 246 through short-range wireless communication with the writer 246, and acquires the acquired medical The exposure radiation dose information is recorded in the third storage area of the storage unit.

  The radiation exposure dose information management system 100 includes a storage unit 102 that stores radiation exposure dose information, a personal identification information input unit 104 that inputs personal identification information for uniquely identifying a radiation exposure dose evaluation target 200, Reader 106 that reads radiation dose information from personal dosimeter 202 by distance wireless communication, nuclear accident radiation dose information acquisition unit 108 that acquires primary accident radiation dose information from personal dosimeter 202 via reader 106, reader The occupational radiation dose information acquisition unit 110 that acquires occupational radiation dose information from the personal dosimeter 202 via the 106, and the medical radiation exposure that acquires the medical radiation dose information from the personal dosimeter 202 via the reader 106. And a quantity information acquisition unit 112.

  The exposure radiation dose information management system 100 further includes the primary accident exposure dose information acquired by the primary accident exposure dose information acquisition unit 108, the occupational exposure dose information acquired by the occupational exposure dose information acquisition unit 110, and the medical treatment. Radiation exposure dose information recording unit 114 that records medical exposure dose information acquired by exposure dose information acquisition unit 112 in association with personal identification information input by personal identification information input unit 104 in storage unit 102, and storage unit 102 includes a management unit 116 that manages radiation exposure dose information 102, and a display unit 118 that performs display under the control of the management unit 116.

  The personal dosimeter 202 reads the nuclear accident exposure radiation dose information from the first storage area of the storage unit when the distance to the reader 106 becomes equal to or less than a predetermined value, and reads the read nuclear power by short-range wireless communication with the reader 106. Accident exposure radiation dose information is transmitted. The nuclear accident exposure radiation dose information is acquired by the primary accident exposure radiation dose information acquisition unit 108 via the reader 106.

  The personal dosimeter 202 reads out occupational radiation dose information from the second storage area of the storage unit when the distance to the reader 106 becomes equal to or less than a predetermined value, and reads out the occupation by the short-range wireless communication with the reader 106. Information on target radiation dose The occupational radiation dose information is acquired by the occupational radiation dose information acquisition unit 110 via the reader 106.

  The personal dosimeter 202 reads the medical radiation dose information from the third storage area of the storage unit when the distance to the reader 106 becomes equal to or less than a predetermined value, and reads the read medical exposure by short-range wireless communication with the reader 106. Send radiation dose information. The medical radiation dose information is acquired by the medical radiation dose information acquisition unit 112 via the reader 106.

  The exposure radiation dose information management system 100 has the same functions as, for example, a general computer in which a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), an I / F, and the like are connected by a bus. Configured. The nuclear accident exposure radiation dose information acquisition unit 108, the occupational exposure radiation dose information acquisition unit 110, the medical exposure dose information acquisition unit 112, the exposure radiation dose information recording unit 114, and the management unit 116 are performed as CPUs and processes executed by the CPU. Composed. The I / F is connected to the storage unit 102, the personal identification information input unit 104, the reader 106, the display unit 118, and a signal line for connecting to a network (not shown) such as the Internet. The exposure radiation dose information management system 100 is provided in, for example, a public organization, an independent administrative corporation, a for-profit corporation, an NPO corporation, or the like. However, it is not necessary to physically belong to those organizations / organizations.

  The storage unit 102 basically performs recording by means of recording means on an electronic or magnetic medium, and records a personal identification information uniquely determined for each radiation dose evaluation target person 200 as a key. It is. Preferably, a plurality of such databases are provided and multiplexed.

Next, the operation of the present embodiment will be described.
First, the operation for recording exposure radiation dose information will be described.

  FIG. 2 is a flowchart showing the operation of the radiation exposure dose information management system 100 when recording radiation exposure dose information.

  In the exposure radiation dose information management system 100, as shown in FIG. 2, the process proceeds to step S <b> 100, and the personal identification information input unit 104 performs personal identification described in the identification card possessed by the exposure radiation dose evaluation target person 200. Information is input, and the process proceeds to step S102.

  In step S102, when the personal dosimeter 202 possessed by the radiation dose evaluation target person 200 is brought close to the reader 106, short-distance wireless communication with the personal dosimeter 202 becomes possible, and the process proceeds to step S104.

  In step S104, the nuclear accident radiation exposure dose information acquisition unit 108 acquires the nuclear accident radiation exposure dose information from the personal dosimeter 202 via the reader 106, and the process proceeds to step S106.

  In step S106, the occupational radiation dose information acquisition unit 110 acquires occupational radiation dose information from the personal dosimeter 202 via the reader 106, and the process proceeds to step S108.

  In step S108, the medical radiation dose information acquisition unit 112 acquires the medical radiation dose information from the personal dosimeter 202 via the reader 106, and the process proceeds to step S109.

  In step S109, the exposure radiation dose information recording unit 114 receives the primary accident exposure dose information, occupational exposure dose information, and medical exposure dose information acquired in steps S104 to S108 as personal identification information input in step S100. The data is recorded in the storage unit 102 in association with each other, and the process proceeds to step S110.

  In step S110, it is determined whether or not the nuclear accident exposure radiation dose is greater than or equal to a first exposure management reference value (for example, xx [mSv]) based on the acquired nuclear accident exposure radiation dose information. Is determined to be less than the first exposure management reference value (NO), the process proceeds to step S112.

  In step S112, it is determined based on the acquired occupational radiation dose information whether the occupational radiation dose is greater than or equal to a second exposure management reference value (for example, xx [mSv]), and the occupational radiation dose is determined. Is determined to be less than the second exposure management reference value (NO), the process proceeds to step S114.

  In step S114, it is determined based on the acquired medical exposure radiation dose information whether the medical exposure radiation dose is greater than or equal to a third exposure management reference value (for example, xx [mSv]), and the medical exposure radiation dose is third. When it is determined that the exposure management reference value is less than (NO), the series of processing ends.

  On the other hand, when it is determined in step S114 that the medical radiation dose is equal to or greater than the third exposure management reference value (YES), the process proceeds to step S118 and a warning that the medical radiation dose is an abnormal value is displayed. Displayed on the unit 118, and the series of processing ends.

  On the other hand, if it is determined in step S112 that the occupational radiation dose is greater than or equal to the second exposure management reference value (YES), the process proceeds to step S120, and a warning that the occupational radiation dose is an abnormal value. Is displayed on the display unit 118, and a series of processing ends.

  On the other hand, when it is determined in step S110 that the nuclear accident radiation exposure dose is greater than or equal to the first exposure management reference value (YES), the process proceeds to step S122 and a warning that the nuclear accident radiation exposure dose is an abnormal value. Is displayed on the display unit 118, and a series of processing ends.

Next, the operation for managing the radiation dose information will be described.
FIG. 3 is a flowchart showing the operation of the radiation exposure dose information management system 100 when managing radiation exposure dose information.

  In the exposure radiation dose information management system 100, as shown in FIG. 3, the process proceeds to step S <b> 200, and the personal identification information input unit 104 performs personal identification described in the identification card possessed by the exposure radiation dose evaluation target 200. The information is input, and the process proceeds to step S202.

  In step S202, a target period for counting the exposure radiation dose is input, and the process proceeds to step S204.

  In step S204, the management part 116 memorize | stores the thing which concerns on the nuclear accident exposure radiation dose measured in the target period input in step S202 among the nuclear accident exposure radiation dose information corresponding to the personal identification information input in step S200. The data is read from the unit 102, and the process proceeds to step S206.

  In step S206, the management unit 116 calculates the cumulative value of the primary accident radiation exposure dose during the target period input in step S202 based on the primary accident radiation exposure dose information read in step S204, and proceeds to step S208.

  In step S208, the management unit 116 determines whether or not the cumulative value of the primary accident radiation dose calculated in step S206 is greater than or equal to a fourth exposure management reference value (for example, xx [mSv]), and the primary accident exposure. When it is determined that the cumulative value of radiation dose is greater than or equal to the fourth exposure management reference value (NO), the process proceeds to step S210.

  In step S210, the management unit 116 displays a warning that the cumulative value of the nuclear accident radiation exposure dose is an abnormal value on the display unit 118, and proceeds to step S212.

  In step S212, the management unit 116 stores information related to the occupational radiation dose measured during the target period input in step S202 among the occupational radiation dose information corresponding to the personal identification information input in step S200. The data is read from the unit 102, and the process proceeds to step S214.

  In step S214, the management unit 116 calculates the cumulative value of the occupational radiation dose in the target period input in step S202 based on the occupational radiation dose information read in step S212, and proceeds to step S216.

  In step S216, the management unit 116 determines whether or not the cumulative value of the occupational radiation dose calculated in step S214 is equal to or greater than a fifth exposure management reference value (for example, xx [mSv]). When it is determined that the cumulative value of radiation dose is greater than or equal to the fifth exposure management reference value (NO), the process proceeds to step S218.

  In step S218, the management unit 116 displays a warning that the cumulative value of occupational radiation dose is an abnormal value on the display unit 118, and proceeds to step S220.

  In step S220, the management unit 116 stores information related to the medical radiation dose measured in the target period input in step S202, among the medical radiation exposure information corresponding to the personal identification information input in step S200. And the process proceeds to step S222.

  In step S222, the management unit 116 calculates the cumulative value of the medical radiation dose during the target period input in step S202 based on the medical radiation dose information read in step S220, and the process proceeds to step S224.

  In step S224, the management unit 116 determines whether or not the cumulative value of the medical exposure radiation dose calculated in step S222 is greater than or equal to a sixth exposure management reference value (for example, xx [mSv]), and the medical exposure radiation dose. When it is determined that the cumulative value of the above is greater than or equal to the sixth exposure management reference value (NO), the process proceeds to step S226.

  In step S226, the management unit 116 displays a warning to the effect that the accumulated value of the medical radiation dose is an abnormal value on the display unit 118, and proceeds to step S228.

  In step S228, the management unit 116 calculates the total radiation dose during the target period input in step S202 based on the radiation dose information read in steps S204, S212, and S220, and the process proceeds to step S230.

  In step S230, the management unit 116 determines whether or not the total exposure radiation dose calculated in step S228 is greater than or equal to a seventh exposure management reference value (for example, xx [mSv]), and the total exposure radiation dose is the seventh exposure dose. When it is determined that the exposure management reference value is greater than or equal to (NO), the process proceeds to step S232.

  In step S232, the management unit 116 displays a warning that the total radiation dose is an abnormal value on the display unit 118, and proceeds to step S234.

  In step S234, the management unit 116 displays the cumulative value of the nuclear accident exposure radiation dose calculated in step S206 on the display unit 118, and proceeds to step S236.

  In step S236, the management unit 116 displays the cumulative value of the occupational radiation dose calculated in step S214 on the display unit 118, and proceeds to step S238.

  In step S238, the management unit 116 displays the cumulative value of the medical radiation dose calculated in step S222 on the display unit 118, and proceeds to step S240.

  In step S240, the management unit 116 displays the total radiation dose calculated in step S228 on the display unit 118, and ends the series of processes.

  On the other hand, when it is determined in step S230 that the total radiation dose is less than the seventh exposure management reference value (NO), the process proceeds to step S234.

  On the other hand, when it is determined in step S224 that the cumulative value of the medical radiation dose is less than the sixth exposure management reference value (NO), the process proceeds to step S228.

  On the other hand, when it is determined in step S216 that the cumulative value of occupational radiation dose is less than the fifth exposure management reference value (NO), the process proceeds to step S220.

  On the other hand, when it is determined in step S208 that the cumulative value of the nuclear accident radiation exposure dose is less than the fourth exposure management reference value (NO), the process proceeds to step S212.

  Thus, in this embodiment, the nuclear accident radiation exposure dose information, occupational radiation exposure dose information, and medical exposure radiation dose information are recorded in the storage unit 102 in association with the personal identification information.

  Thereby, the time transition of the individual radiation exposure can be continuously recorded for each factor, and the radiation dose can be evaluated smoothly according to the purpose of the exposure management.

  In the present embodiment, the storage unit 102 corresponds to the storage unit of the invention 1, 4 or 5, the exposure dose information recording unit 114 corresponds to the exposure dose information recording unit of the invention 1, and the personal identification information is This corresponds to the identification information of invention 2.

  In the above embodiment, the medical radiation dose information is recorded in the personal dosimeter 202, and the radiation exposure information management system 100 is configured to acquire the medical radiation dose information from the personal dosimeter 202. Not limited to this, the radiation exposure dose information management system 100 and the medical PC 244 are connected via a network, and the radiation exposure dose information management system 100 is configured to acquire medical radiation exposure dose information from the medical PC 244. You can also.

  In the case of this configuration, the radiation exposure dose information management system 100 is configured to include a medical radiation exposure dose information acquisition unit that acquires medical radiation exposure dose information from the medical PC 244 via a network. The medical exposure radiation dose information acquisition unit sets the exposure radiation dose information management system 100 in accordance with the form of the medical exposure radiation dose information from the medical facility 240 that has performed the treatment involving the medical exposure on the radiation dose evaluation target person 200. It is the transmission / reception part or input / output part of the computer which comprises.

  In other words, the medical radiation dose information is preferably transmitted directly from the medical PC 244 to the transmission / reception unit via a communication network or the Internet. For example, as insurance point billing information capable of calculating the medical radiation dose, etc. Alternatively, the data may be sent to a predetermined organization as another paper-based document, and data transmitted or circulated from those organizations may be input. Moreover, you may record via these one or more some path | routes. Even in the case of being recorded through a plurality of routes, the present invention aims at long-term exposure radiation dose evaluation, so duplication of records can be avoided by adjusting the data at the radiation exposure dose evaluation stage. .

  When the data is transmitted directly from the medical PC 244 to the transmission / reception unit, it may be transmitted to a predetermined mail address, or an input form may be provided on an appropriate website or the like and input directly there. Such communication may be performed by a terminal generally used in the medical facility 240 such as the medical PC 244, or may be built in a device that causes medical exposure.

  The medical radiation dose information includes at least information necessary for specifying the radiation dose evaluation target person 200, the medical exposure date and time, and the radiation dose. Even if the above-mentioned record duplication occurs, if all of these data are the same, the data is eventually trimmed as the same medical exposure event.

  The information necessary for specifying the exposure radiation dose evaluation target person 200 is an identification card possessed by the exposure radiation dose evaluation target person 200 or identification information assigned to the exposure radiation dose evaluation target person 200. This may be, for example, a health insurance card number, a passport number, a taxpayer number (if a system is established in the future), a social insurance number, a “social security and tax common number”, etc. From the viewpoint of protection, the radiation dose information management system 100 is preferably unique information. For this purpose, a registration system for the radiation dose evaluation target person 200 is provided, and information is uniquely given according to the registration application.

  In order to increase the reliability of the radiation exposure dose information management system 100, it is preferable that as many people as possible be registered. For this purpose, participation in the radiation exposure dose information management system 100 allows a certain reward. It is preferable that it is provided. The reward is given, for example, by the radiation exposure dose evaluation target person 200, the country, or the operator of the radiation exposure dose information management system to a provider (such as a hospital) of medical radiation exposure dose information. For this purpose, incentives such as disclosure of radiation dose when identity verification is made, free or low-cost medical consultation, discounts on medical expenses and examination expenses, or preferential or cold treatment of pension system, etc. are granted. It is preferable. For pensions, for example, the annual amount is increased as a reward for participation, and conversely, the annual amount is decreased as a non-participation penalty. In addition, it is preferable to legally obligate the provision of information on the radiation exposure dose by the medical facility 240, but this may also be a mechanism for giving some incentive.

  Further, in the above-described embodiment and its modified examples, the nuclear accident exposure radiation dose information and the occupational exposure radiation dose information are recorded separately in the personal dosimeter 202. The radiation dose information indicating the radiation dose measured by the unit is recorded in the storage unit in association with the measurement time information indicating the measurement time, and the exposure radiation dose information management system 100 and the input / output sensor 222 are connected via a network. However, the radiation exposure dose information management system 100 can also be configured as follows.

  In the case of this configuration, the radiation exposure dose information management system 100 records entrance history information in the storage unit 102 when receiving entrance information from the entrance sensor 222. The admission history information includes admission time information indicating admission time related to the received admission information and personal identification information of the radiation dose evaluation target person 200 related to the received admission information. When exit information is received from the entrance / exit sensor 222, exit history information is recorded in the storage unit 102. The exit history information includes exit time information indicating an exit time related to the received exit information, and personal identification information of the radiation dose evaluation target person 200 related to the received exit information.

  When recording radiation exposure dose information, exposure radiation dose information and measurement time information excluding medical exposure radiation dose information are acquired from the personal dosimeter 202. Then, based on the acquired radiation dose information and measurement time information, and the entry history information and exit history information in the storage unit 102, the radiation dose measured during the period of not entering the workplace 220 is calculated and calculated. The radiation dose information indicating the radiation dose thus obtained is acquired as the nuclear accident radiation dose information. Further, based on the acquired radiation dose information and measurement time information, and the entry history information and exit history information in the storage unit 102, the radiation dose measured during the period of entering the workplace 220 was calculated and calculated. Radiation exposure dose information indicating exposure dose is acquired as occupational exposure dose information.

  In the above embodiment and its modification, the radiation dose information management system 100 records the nuclear accident radiation dose information, occupational radiation dose information, and medical radiation dose information in association with each other. However, the present invention is not limited to this, and the exposure radiation dose information can be shared with or exchanged with other databases.

  For example, a radiation dose information management system that records nuclear accident exposure radiation dose information and occupational radiation dose information in association with personal identification information, and medical management that records medical exposure radiation dose information in association with personal identification information The system is connected to the system through a network, and the radiation dose information management system shares or exchanges radiation dose information with the medical management system as another database. Thus, it is also within the technical scope of the present invention to associate the nuclear accident exposure radiation dose information, occupational exposure radiation dose information, and medical exposure radiation dose information.

  Moreover, in the said embodiment and its modification, although the personal dosimeter 202 was comprised so that exposure radiation dose information might be transmitted / received by near field communication, it is not restricted to this, but radiation dose information is transmitted / received by wired communication. It can also be configured to.

  Further, in the above-described embodiment and its modification, the personal dosimeter 202 is configured to record the radiation dose information by dividing the storage area of the storage unit, but not limited thereto, the storage area is not divided, For example, it is possible to add the identification information for identifying the type of exposure radiation dose information and record the primary accident exposure dose information, occupational exposure dose information, and medical exposure dose information. For example, the identification information of the nuclear accident radiation exposure dose information can be added by setting the bit corresponding to the nuclear accident radiation exposure dose information to “1”. The same applies to occupational radiation dose information and medical radiation dose information.

  Moreover, in the said embodiment and its modification, although comprised so that the accumulated value of an exposure radiation dose might be calculated every time by step S206, S214, S222, it is not restricted to this, For example, the exposure dose of the personal dosimeter 202 It is also possible to simply record the information as raw data, and to calculate a cumulative value of the radiation dose after a predetermined period has elapsed (for example, after 50 years).

  Moreover, in the said embodiment and its modification, although the process of step S110-S122 was provided, not only this but the same process is provided, and it may also be configured as a process for simply recording the radiation dose information. it can.

  Further, in the above-described embodiment and its modification, in the operation of the flowchart of FIG. 2, each radiation dose (primary accident radiation dose, occupational radiation dose, and medical radiation dose) is greater than or equal to the radiation exposure management reference value. However, the present invention is not limited to this, and is not limited to this, and calculates the total radiation dose, which is the total of the nuclear accident radiation dose, occupational radiation dose, and medical radiation dose. When it is determined that the exposure radiation dose is greater than or equal to a predetermined exposure management reference value, a warning may be displayed.

  In the above embodiment and its modifications, the occupational radiation dose is measured at the workplace 220. However, the present invention is not limited to this, and the nuclear power plant is not limited to this in the warning area, the planned evacuation area and the emergency evacuation area. It can also be configured to measure accidental radiation dose or occupational radiation dose. That is, when entering a warning area, planned evacuation area, or emergency evacuation preparation area as a resident, measure the radiation dose measured in the area as a nuclear accident exposure radiation dose, and when entering work, Measure the measured radiation dose as occupational radiation dose. The same applies to areas newly established in the future. For example, when entering a difficult-to-return area, a restricted-residence area, or a evacuation order release preparation area as a resident, measure the radiation dose measured in the area as a nuclear accident exposure radiation dose. Measure the measured radiation dose as occupational radiation dose.

DESCRIPTION OF SYMBOLS 100 ... Exposure radiation dose information management system, 102 ... Memory | storage part, 104 ... Personal identification information input part, 106 ... Reader, 108 ... Nuclear accident exposure radiation dose information acquisition part, 110 ... Occupational exposure radiation dose information acquisition part, 112 ... Medical exposure radiation dose information acquisition unit, 114 ... Exposure dose information recording unit, 116 ... Management unit, 118 ... Display unit, 200 ... Subject of radiation dose evaluation, 202 ... Personal dosimeter, 220 ... Workplace, 222 ... Entrance / exit sensor 240 ... Medical facilities, 242 ... Radiological medical equipment, 244 ... Medical PC, 246 ... Writer

Claims (6)

A radiation dose information management system that records radiation dose information of a radiation dose assessment subject,
Storage means;
Nuclear Accident Exposure Radiation Dose Information that indicates the exposure radiation dose caused by the accident at the nuclear power plant, Occupational Exposure Radiation Dose Information that indicates the exposure radiation dose due to occupational radiation exposure, and Medical Exposure that indicates the exposure radiation dose due to medical exposure A radiation dose information management system comprising radiation dose information recording means for associating and recording radiation dose information in the storage means. In claim 1,
The radiation dose information management system according to claim 1, wherein identification of the radiation dose evaluation target person is performed by an identification card possessed by the person or assigned identification information. In any one of Claim 1 and 2,
The radiation exposure dose information management system is characterized in that a fixed reward is given to the provider of the radiation exposure dose information from the radiation dose assessment subject, the country, or an operator of the radiation exposure dose information management system. . In any one of Claims 1 thru | or 3,
When an exposure management reference value is set for each of the nuclear accident exposure radiation dose information, the occupational exposure radiation dose information, and the medical exposure radiation dose information, and the exposure radiation dose information recorded in the storage means is rewritten or the storage When the radiation dose information is recorded on the means, the radiation dose of the radiation dose information to be rewritten or recorded is collated with the corresponding exposure management reference value, and the collation result is displayed, transmitted or recorded. A radiation dose information management system characterized by: In any one of Claims 1 thru | or 4,
Radiation exposure dose information characterized in that a predetermined notification is made when it is determined that the cumulative value of exposure dose or the total exposure dose exceeds a predetermined value based on the exposure dose information recorded in the storage means. Management system. In any one of Claims 1 thru | or 5,
A radiation dose information management system for sharing or exchanging the radiation dose information with another database.