The present invention relates to a real-time monitoring radiation measurement system using Bluetooth and a method for operating same, and comprises: a radiation measurement device comprising a radiation detection sensor, an amplifier, a signal converter, and a control part; a smart device that receives radiation measurement data from the radiation measurement device via Bluetooth; and an app that enables storing and viewing of radiation measurement data transmitted to the smart device, and provides information.
H04W 4/38 - Services specially adapted for particular environments, situations or purposes for collecting sensor information
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
The present invention relates to a radiation measurement management system, wherein the system is configured by including: a radiation measurement device including a radiation detection sensor (1) for detecting a radiation amount emitted to a subject, an amplifier (11) for amplifying a weak sensor signal of the radiation amount detected by the radiation detection sensor (1), a signal converter (12) for performing conversion to an electrical square wave signal corresponding to the detected radiation amount, and a control part (13) for calculating an exposure amount of an X-ray for the subject from a signal input from the signal converter (12) and transmitting radiation exposure amount measurement data of the subject to a smart device (2) through Bluetooth communication; the smart device (2) for reception from the radiation measurement device through Bluetooth; and a manager server (3) for storing and allowing access to radiation measurement data transmitted from the smart device (2) and providing information to a corresponding authority to take action if an accumulated radiation amount for each individual approaches a preconfigured reference value, so that even when radiation is administered at various locations for individual medical examinations, efficient measurement can be carried out to prevent a disease caused by excessive radiation exposure by limiting examinations using radiation when accumulated radiation exposure amount data stored in the manager server approaches or exceeds a preconfigured reference value.
A real-time personal exposure dose monitoring system according to the present invention is characterized by comprising: at least one dosimeter in the form of a wearable device and which transmits, to the outside, exposure dose information, which is information obtained by measuring the amount of radiation received by a wearer from an external radiation source; and a monitoring server which is communicatively connected to the dosimeter and monitors, in real time, an exposure dose of the wearer wearing the corresponding dosimeter using the exposure dose information transmitted from the dosimeter.
A 3D gamma probe including a 3D gamma probe and a control device according to one technical aspect of the present invention comprises: a 3D probe for scanning a three-dimensional image of a subject, providing the same to the control device, measuring radiation emitted from the subject, and providing the same to the control device; and a control device for generating intensity compensation information on the radiation by using a distance to the subject received from the 3D probe and simultaneously forming the information together with the three-dimensional image on a display.
The present invention relates to an X-ray exposure dose measuring device for a subject and a management method thereof, the X-ray exposure measuring device comprising: an X-ray generator (1); flash multiplication devices (10, 20), each being disposed adjacent to a detection unit (2), for detecting X-rays and outputting signals, wherein the detection unit detects an X-ray dose from the X-ray generator transmitted through the subject; a comparator (30) for filtering the signals outputted from the flash multiplication devices (10, 20) at a predetermined intensity or more; a processor (40) which counts pulses generated by the X-rays filtered by the comparator, accumulates the pulses as the X-ray dose, and subtracts the X-ray dose detected by the detector (2) from a total X-ray dose generated by the X-ray generator (1) to calculate the resultant X-ray dose as an X-ray exposure dose of the subject; and an exposure dose management unit (50) which receives the X-ray dose data calculated by the processor (40), cumulatively accumulates the individual X-ray dose of the subject for a predetermined period of time, and manages individually whether or not the X-ray dose exceeds a predetermined X-ray dose limit standard. As such, the X-ray exposure measuring device has the effects capable of precisely measuring the exposure dose when the subject is tested in various X-ray inspections. By cumulatively managing these X-ray exposure dose measurements, the present invention has an effect capable of calculating and managing an annually cumulative X-ray exposure dose and five-year cumulative exposure dose which an individual undergoes during various tests, thereby efficiently preventing the problems caused by an excessive exposure dose of the subject.
G01N 23/04 - Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups , or by transmitting the radiation through the material and forming images of the material
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