Structure, network protocols of the internet of things for quality production control

封面

如何引用文章

全文:

详细

The subject of research is the model and structure of the Internet of things (IoT) network for product quality control in industry and agriculture. The purpose of the article is to analyze communication protocols and structures of IoT networks. The method of analysis and structural design of IoT networks is applied. The field of application is automation of monitoring products of enterprises of the aerospace industry. The article provides an overview and analysis of existing IoT technology; it considers the protocols and composition of IoT networks, and provides variations in the structures of building such networks. 4 levels of IoT architecture are described, as well as the communication protocols are used. The directions of building the Internet of things network for product quality control are defined. A multi-agent model of such system is presented, for the implementation of which the structure of the IoT network is given.

The structure of a multi-agent system (MAS) for monitoring product quality in industry and agriculture includes many agents, such as product quality agents, communication agents, database agents, agents for analyzing information received from sensor agents, and decision-making agents. This MAS implements functions to ensure the required class of product quality and it is based on building a local network of the Internet of things. The research proposes an algorithm for processing information in such an IoT network. Analyzers (sensors) product qualities will be periodically polled and their values will be recorded in the server database. The decision-making subsystem sends data on product quality compliance to the enterprise administrator on a mobile device. The server structure is implemented using cloud IoT platforms, for which a brief overview is provided. The one IoT network implementation is developed using LTE NB-IoT technology. This approach can be used in the aerospace industry for product quality control within automation 4.0.

作者简介

Vladzimir Vishniakou

Belarusian State University of Informatics and Radioelectronics

编辑信件的主要联系方式.
Email: vish2002@list.ru

Dr. Sc., professor; Belarusian State University of Informatics and Radioelectronics

白俄罗斯, 6, P. Brovky St., Minsk, 220600

B. Shaya

Belarusian State University of Informatics and Radioelectronics

Email: vish2002@list.ru

master of technical science, PhD-student; Belarusian State University of Informatics and Radioelectronics

白俄罗斯, 6, P. Brovky St., Minsk, 220600

A. Al-Masri

Belarusian State University of Informatics and Radioelectronics

Email: vish2002@list.ru

master of technical science, PhD-student; Belarusian State University of Informatics and Radioelectronics

白俄罗斯, 6, P. Brovky St., Minsk, 220600

S. Al-Hajj

Belarusian State University of Informatics and Radioelectronics

Email: vish2002@list.ru

master of technical science, PhD-student; Belarusian State University of Informatics and Radioelectronics

白俄罗斯, 6, P. Brovky St., Minsk, 220600

参考

  1. Roslyakov A. V., Vanyashin S. V., Grebeshkov A. Yu. Internet veshchey [Internet of things]. Samara, PGUTiI Publ., 2015, 115 p.
  2. Rentyuk V. [Brief guide to wireless technologies of the Internet of things. Part 1. Networks, gateways, clouds and protocols]. Control Engineering Russia. 2017, No. 6, P. 61–65 (In Russ.).
  3. Rentyuk V. [Brief guide to wireless technologies of the Internet of things. Part 2. Short range]. Control Engineering Russia. 2018, No. 1, P. 51–57 (In Russ.).
  4. Internet of things definition. Available at: https://www.hpe.com/us/en/what-is/internet-of-things.html (accessed 4.04.2020).
  5. “IoT Signals” Summary of research learnings 2019. Available at: https://azure.microsoft.com/mediahandler/ files/resourcefiles/iot-signals/IoT-Signals-Microsoft-072019.pdf (accessed 4.04.2020).
  6. The Internet of Things (IoT) explained. Available at: https://www.dbbest.com/blog/the-internet-of-things/ (accessed 4.04.2020).
  7. The Internet of Things: Today and Tomorrow. Available at: http://chiefit.me/wp-content/uploads/ 2017/03/HPE-Aruba_IoT_Research_Report.pdf (accessed 5.09.2020).
  8. The Internet of Things, IoT, M2M would market Available at: http://www.tadviser.ru/a/302413 (accessed 5.09.2020).
  9. The aerospace and defense industries are introducing Internet of things and augmented reality technologies. Available at: https://www.ptc.com/ru/industries/aerospace- and-defense/IoT-and-Augmented-Realit (accessed 11.10.2020).
  10. Using the Internet of things and augmented reality in the aerospace industry. Available at: http://www.remmag.ru/upload_data/files/2018-0304/ MONT-PTC1.pdf (accessed 11.10.2020).
  11. Rentyuk V. [Brief guide to wireless technologies of the Internet of things. Part 4. Long range]. Control Engineering Russia. 2018, No. 3 (75), P. 82–87 (In Russ.).
  12. Review of the best IoT platforms in 2019. Tips for choosing a cloud solution. Available at: https://www.edsson.com/ru/blog/article?id=iot-platforms (accessed 4.09.2020).
  13. Twenty-one examples of IoT platforms. Available at: https://nag.ru/articles/article/32221/dvadtsat-odin-primer-iot-platform.html (accessed 14.09.2020).
  14. How cloud-based Big Data IoT platforms work with the Internet of things. Available at: https://www.bigdataschool.ru/blog/iot-platform-big-data-cloud.html (accessed 14.09.2020).
  15. Leyton-Brown K., Shoham Y. Multiagent Systems: Algorithmic, Game-Theoretic and Logical Foundations. London, Cambridge University Press, 2009, 513 p.
  16. Visniakou U. A., Al-Masri A. H., Al-Hajj S. K. Organization of management and structure in local networks internet of things. System analysis and application informatics. 2020, No. 2, P. 11–16.

补充文件

附件文件
动作
1. JATS XML
下载

版权所有 © Vishniakou V.A., Shaya B.H., Al-Masri A.H., Al-Hajj S.H., 2020

Creative Commons License
此作品已接受知识共享署名 4.0国际许可协议的许可