ДОСЛІДЖЕННЯ МЕРЕЖ І СИСТЕМ ПРОМИСЛОВОГО ІНТЕРНЕТУ РЕЧЕЙ
Ключові слова:
IoT, IIoT, автоматизація, інтеграція
Анотація
У статті розглянуто концепцію промислового Інтернету речей. Було виділено основні протоколи передачі даних промислового Інтернету речей. Системи IIoT мають високі вимоги до показників надійності доставки повідомлень, внаслідок чого часто-густо для розробки систем IIoT використовують спеціальні галузеві протоколи передачі даних, що використовуються у сфері промислової автоматизації. Технології IIoT є складовою концепції Інтернету речей. У роботі представлено архітектуру автоматизованого підприємства на основі IIoT, виділено її переваги та недоліки.Завантаження
Дані про завантаження поки що недоступні.
Посилання
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19. Zhou, J., Leppänen, T., Harjula, E., Ylianttila, M., Ojala, T., Chen, Y., Jin, H. and Yang, L. T. (2013), “CloudThings A common architecture for integrating the Internet of Things with Cloud Computing”, 2013 IEEE 17th Int. Conf. CSCWD 2013, doi: https://doi.org/10.1109/cscwd.2013.6581037
2. Wang, T., Zhou, J., Chen, X., Wang, G., Liu, A. and Liu, Y. (2018), “A Three-Layer privacy preserving cloud storage scheme based on computational intelligence in FOG computing”, IEEE Transactions on Emerging Topics in Computational Intelligence, vol. 2(1), pp. 3–12, doi: https://doi.org/10.1109/tetci.2017.2764109
3. Petrovska, I. and Kuchuk, H. (2023), “Adaptive resource allocation method for data processing and security in cloud environment”, Advanced Information Systems, vol. 7, is. 3, pp. 67–73, doi: https://doi.org/10.20998/2522-9052.2023.3.10
4. Dang, L. M., Piran, M. J., Han, D., Min, K. and Moon, H. (2019), “A survey on internet of things and cloud computing for healthcare”, Electronics, vol. 8(7), 768, doi: https://doi.org/10.3390/electronics8070768
5. Botta, A., De Donato, W., Persico, V. and Pescapè, A. (2016), “Integration of Cloud computing and Internet of Things: A survey”, Future Generation Computer Systems, vol. 56, pp. 684–700, doi: https://doi.org/10.1016/j.future.2015.09.021
6. Díáz, M., Martin, C. L. and Rubio, B. (2016), “State-of-the-art, challenges, and open issues in the integration of Internet of things and cloud computing”, Journal of Network and Computer Applications, vol. 67, pp. 99–117, doi: https://doi.org/10.1016/j.jnca.2016.01.010
7. Liu, Y., Fieldsend, J. E. and Min, G. (2017), “A framework of FOG Computing: architecture, challenges, and optimization”, IEEE Access, vol. 5, pp. 254.45–254.54, doi: https://doi.org/10.1109/access.2017.2766923
8. Kuchuk, N., Mozhaiev, O., Haichenko, А., Semenov, S., Kuchuk, H., Tiulieniev, S., Mozhaiev, M., Davydov, V., Brusakova, O. and Gnusov, Y. (2023), “Devising a method for balancing the load on a territorially distributed foggy environment”, EasternEuropean Journal of Enterprise Technologies, vol. 1(4 (121)), pp. 48–55, doi: https://doi.org/10.15587/1729-4061.2023.274177
9. Chiang, M. and Zhang, T. (2016), “Fog and IoT: An Overview of Research Opportunities”, IEEE Internet of Things Journal, vol. 3(6), pp. 854–864, doi: https://doi.org/10.1109/jiot.2016.2584538
10. Puliafito, C., Mingozzi, E. and Anastasi, G. (2017), “Fog Computing for the Internet of Mobile Things: Issues and Challenges”, 2017 IEEE Int. Conf. Smart Comput, doi: https://doi.org/10.1109/smartcomp.2017.7947010
11. Khan, S., Parkinson, S. and Qin, Y. (2017), “Fog computing security: a review of current applications and security solutions”, Journal of Cloud Computing, vol. 6(1), doi: https://doi.org/10.1186/s13677-017-0090-3
12. Hamdan, S., Ayyash, M. and Almajali, S. (2020), “Edge-Computing Architectures for Internet of Things Applications: A survey”, Sensors, vol. 20(22), 6441, doi: https://doi.org/10.3390/s20226441
13. Li, Y., Qi, F., Wang, Z., Yu, X. and Shao, S. (2020), “Distributed edge Computing offloading algorithm based on deep reinforcement learning”, IEEE Access, vol. 8, pp. 85.204–85.215, doi: https://doi.org/10.1109/access.2020.2991773
14. Premsankar, G., Di Francesco, M. and Taleb, T. (2018), “Edge Computing for the Internet of Things: a case study”, IEEE Internet of Things Journal, vol/ 5(2), pp. 1275–1284, doi: https://doi.org/10.1109/jiot.2018.2805263
15. Xue, H., Huang, B., Qin, M., Zou, H. and Yang, H. (2020), “Edge Computing for Internet of Things: A Survey”, 2020 Int. Conf. Internet Things IEEE Green Comput. Commun. IEEE Cyber, Phys. Soc. Comput. IEEE Smart Data IEEE Congr. Cybermatics, IEEE, doi: https://doi.org/10.1109/ithings-greencom-cpscom-smartdata-cybermatics50389.2020.00130
16. Liu, J., Mao, Y., Zhang, J. and Letaief, K. B. (2016), “Delay-optimal computation task scheduling for mobile-edge computing systems”, 2016 IEEE Int. Symp. Inf. Theory, IEEE, doi: https://doi.org/10.1109/isit.2016.7541539
17. Kuchuk, N., Ruban, І., Zakovorotnyi, O., Kovalenko, A., Shyshatskyi, A. and Sheviakov, I. (2023), “Traffic Modeling for the Industrial Internet of NanoThings”, 2023 IEEE 4th KhPI Week on Advanced Technology, KhPI Week 2023 - Conference Proceedings, 194480, doi: https://doi.org/10.1109/khpiweek61412.2023.10312856
18. Παπαγεωργιου, Α., Poormohammady, E. and Cheng, B. (2016), “Edge-Computing-Aware Deployment of Stream Processing Tasks Based on Topology-External Information: Model, Algorithms, and a Storm-Based Prototype”, 2016 IEEE Int. Congr. Big Data, doi: https://doi.org/10.1109/bigdatacongress.2016.40
19. Zhou, J., Leppänen, T., Harjula, E., Ylianttila, M., Ojala, T., Chen, Y., Jin, H. and Yang, L. T. (2013), “CloudThings A common architecture for integrating the Internet of Things with Cloud Computing”, 2013 IEEE 17th Int. Conf. CSCWD 2013, doi: https://doi.org/10.1109/cscwd.2013.6581037
Опубліковано
2024-09-06
Як цитувати
Datsenko Sergii Дослідження мереж і систем промислового інтернету речей / Sergii Datsenko, Denys Tarasenko // Системи управління, навігації та зв’язку. Збірник наукових праць. – Полтава: ПНТУ, 2024. – Т. 3 (77). – С. 113-115. – doi:https://doi.org/10.26906/SUNZ.2024.3.113.
Розділ
Інформаційні технології
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