Design and implementation of the distributed dosimetric system based on the principles of IoT

Design and implementation of the distributed dosimetric system based on the principles of IoT

This paper describes the architecture and components of the distributed information and management system for collecting, processing, storing, and distributing data on a radiometric and dosimetric experiment using the principle of the Internet of Things. Data exchange between elements in the system,...

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Autores principales: Vitalii Terokhin, Mykola Stervoyedov, Oleg Ridozub
Formato: article
Lenguaje:EN
RU
UK
Publicado: PC Technology Center 2021
Materias:
information management system
uml diagrams
internet of things
cdznte radiation detector
Technology (General)
T1-995
Industry
HD2321-4730.9
Acceso en línea:https://doaj.org/article/026c8ff7a85c43c6bf4ec896d21ed9bd
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spelling oai:doaj.org-article:026c8ff7a85c43c6bf4ec896d21ed9bd2021-11-04T14:13:12ZDesign and implementation of the distributed dosimetric system based on the principles of IoT1729-37741729-406110.15587/1729-4061.2021.243153https://doaj.org/article/026c8ff7a85c43c6bf4ec896d21ed9bd2021-10-01T00:00:00Zhttp://journals.uran.ua/eejet/article/view/243153https://doaj.org/toc/1729-3774https://doaj.org/toc/1729-4061This paper describes the architecture and components of the distributed information and management system for collecting, processing, storing, and distributing data on a radiometric and dosimetric experiment using the principle of the Internet of Things. Data exchange between elements in the system, as well as the analysis of the received information, involves active application of the ThingSpeak cloud service. Two-way communication with the cloud with a 15-second loop has been implemented. Data are processed in the MATLAB (America) environment, integrated into the cloud. The developed hardware and software solutions demonstrate an increased accuracy of measurements due to the use of promising cadmium telluride (CdZnTe) detectors, modern microcontroller and micro communication technology, and a new algorithm for correcting the dependence of detector sensitivity on radiation energy. Measurement with correction by the method of average charge pulse amplitude is carried out in the energy range from 60 keV to 3 MeV. The resolution of the spectrometric channel is 6.5 % at the peak of 662 keV of full absorption from the reference source, Cesium (Сs – 137). The module for a laboratory sensor network, designed to measure the dose of ionizing radiation, has a built-in spectrometric analog-digital converter, microcontroller control, and a communication unit. Constructing the diagrams demonstrates the operation of the interrupt handler in the form of a series of events occurring when requests arrive from a Web server. The peculiarity of the system is the absence of intermediate devices that make it possible to establish a connection with the Internet. The developed system, equipment, algorithms, and programs are used for experimental studies of radiation and nuclear-physical processes. Elements of the system were useful for remote laboratory work by studentsVitalii TerokhinMykola StervoyedovOleg RidozubPC Technology Centerarticleinformation management systemuml diagramsinternet of thingscdznte radiation detectorTechnology (General)T1-995IndustryHD2321-4730.9ENRUUKEastern-European Journal of Enterprise Technologies, Vol 5, Iss 9 (113), Pp 91-100 (2021)
institution DOAJ
collection DOAJ
language EN
RU
UK
topic information management system
uml diagrams
internet of things
cdznte radiation detector
Technology (General)
T1-995
Industry
HD2321-4730.9
spellingShingle information management system
uml diagrams
internet of things
cdznte radiation detector
Technology (General)
T1-995
Industry
HD2321-4730.9
Vitalii Terokhin
Mykola Stervoyedov
Oleg Ridozub
Design and implementation of the distributed dosimetric system based on the principles of IoT
description This paper describes the architecture and components of the distributed information and management system for collecting, processing, storing, and distributing data on a radiometric and dosimetric experiment using the principle of the Internet of Things. Data exchange between elements in the system, as well as the analysis of the received information, involves active application of the ThingSpeak cloud service. Two-way communication with the cloud with a 15-second loop has been implemented. Data are processed in the MATLAB (America) environment, integrated into the cloud. The developed hardware and software solutions demonstrate an increased accuracy of measurements due to the use of promising cadmium telluride (CdZnTe) detectors, modern microcontroller and micro communication technology, and a new algorithm for correcting the dependence of detector sensitivity on radiation energy. Measurement with correction by the method of average charge pulse amplitude is carried out in the energy range from 60 keV to 3 MeV. The resolution of the spectrometric channel is 6.5 % at the peak of 662 keV of full absorption from the reference source, Cesium (Сs – 137). The module for a laboratory sensor network, designed to measure the dose of ionizing radiation, has a built-in spectrometric analog-digital converter, microcontroller control, and a communication unit. Constructing the diagrams demonstrates the operation of the interrupt handler in the form of a series of events occurring when requests arrive from a Web server. The peculiarity of the system is the absence of intermediate devices that make it possible to establish a connection with the Internet. The developed system, equipment, algorithms, and programs are used for experimental studies of radiation and nuclear-physical processes. Elements of the system were useful for remote laboratory work by students
format article
author Vitalii Terokhin
Mykola Stervoyedov
Oleg Ridozub
author_facet Vitalii Terokhin
Mykola Stervoyedov
Oleg Ridozub
author_sort Vitalii Terokhin
title Design and implementation of the distributed dosimetric system based on the principles of IoT
title_short Design and implementation of the distributed dosimetric system based on the principles of IoT
title_full Design and implementation of the distributed dosimetric system based on the principles of IoT
title_fullStr Design and implementation of the distributed dosimetric system based on the principles of IoT
title_full_unstemmed Design and implementation of the distributed dosimetric system based on the principles of IoT
title_sort design and implementation of the distributed dosimetric system based on the principles of iot
publisher PC Technology Center
publishDate 2021
url https://doaj.org/article/026c8ff7a85c43c6bf4ec896d21ed9bd
work_keys_str_mv AT vitaliiterokhin designandimplementationofthedistributeddosimetricsystembasedontheprinciplesofiot
AT mykolastervoyedov designandimplementationofthedistributeddosimetricsystembasedontheprinciplesofiot
AT olegridozub designandimplementationofthedistributeddosimetricsystembasedontheprinciplesofiot
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