Модель передачи сообщений в сети узкополосного интернета вещей газодобывающего предприятия
DOI:
https://doi.org/10.52575/2687-0932-2026-53-1-216-226Ключевые слова:
узкополосный интернет вещей, контроль оборудования, добыча газа, телеметрия, вероятностно-временной графАннотация
В статье представлено исследование, которое нацелено на обеспечение требуемых вероятностно-временных характеристик доставки сообщений в сети узкополосного интернета вещей, развернутой для контроля работы оборудования газовой добычи. С использованием математического аппарата вероятностно-временных графов разработана модель передачи сообщений в указанной сети, которая адекватно отражает зависимость вероятности и среднего времени доставки сообщений от основных параметров исследуемого процесса. Проведены вычислительные эксперименты, результаты которых показали возможность применения разработанной модели для оптимизации процесса передачи сообщений о состоянии контролируемых технических объектов газодобывающего предприятия.
Скачивания
Библиографические ссылки
Список литературы
Головнин И.В., Гаврилов А.В. 2021. Применение автономных датчиков при работе в стандарте NB-IoT на примере нефтедобывающего предприятия. Инновационные технологии: теория, инструменты, практика, 1: 142–148.
Ясир М.Д.Я., Польщиков К.А., Федоров В.И. 2023. Модель доставки сообщения в сенсорной сети с низким энергопотреблением. Экономика. Информатика, 50(2): 439–447. DOI 10.52575/2687-0932-2023-50-2-439-447.
Agrawal N.K., Kumar S., Bisht G.S., Srivastav A., Bansla V., Jain A. 2024. Development of a Novel Quality of Service Aware Video Streaming on Demand System for the Internet of Thing Enabled MANET. 2024 International Conference on Communication, Computer Sciences and Engineering (IC3SE). Gautam Buddha Nagar: 80–85.
Almufareh M.F., Humayun M., Ahmad Z., Khan A. 2024. An Intelligent LoRaWAN-Based IoT Device for Monitoring and Control Solutions in Smart Farming Through Anomaly Detection Integrated with Unsupervised Machine Learning. IEEE Access, 12: 119072–119086.
Al-Shamkhee A.A.O., Almawlawe M.D.H., Polshchykov K.A., Likhosherstov R.V. 2025. Intelligent Control for Video Broadcasting in Flying Ad Hoc Networks: A Simulation Study. The Eurasia Proceedings of Science, Technology, Engineering & Mathematics, 37: 141–149.
Alghazali S.M.M., Aljeazna W.K.M., Rasol M.N., Polshchykov K.A., Likhosherstov R.V. 2025. An algorithm for controlling the transmission of video streams in a flying ad hoc network. IAES International Journal of Artificial Intelligence, 14(5): 4290.
Arumun J., Akowua K. 2025. Wireless Sensor Technologies for Industrial Applications. Scholars Bulletin, 11(6): 105–110.
Coboi A., Nguyen M.T., Pham V.N., Vu T.C., Nguyen M.D., Nguyen D.T. 2023. Zigbee Based Mobile Sensing for Wireless Sensor Networks. Computer Networks and Communications, 1(2): 325–342.
Du R. 2025. An Overview on IEEE 802.11bf: WLAN Sensing. IEEE Communications Surveys & Tutorials, 27(1): 184–217.
Guan M., Qi L, Jin X., Guan S., Xia C., Xu C. 2023. Low-Power Heterogeneous Networking Method Based on NB-IoT and WSN. 2023 6th International Conference on Communication Engineering and Technology (ICCET). Xi'an: 26–29.
Hu Z., Xue G., Chen Y., Li M., Wang M., Lv F. 2022. City-Wide NB-IoT Network Monitoring and Diagnosing. Wireless Communications and Mobile Computing, 2022: 3153274.
Iiyambo L., Hancke G., Abu-Mahfouz A.M. 2024. A Survey on NB-IoT Random Access: Approaches for Uplink Radio Access Network Congestion Management. IEEE Access, 12: 95487–95506.
Jha H., Kaur S. 2023. A Survey on ZigBee Technology. 2023. 14th International Conference on Computing Communication and Networking Technologies (ICCCNT). Delhi: 1–5.
Lo Y.W., Tsoi M.H., Chow C.-F., Mung S.W.Y. 2025. An NB-IoT Monitoring System for Digital Mobile Radio with Industrial IoT Performance and Reliability Evaluation. IEEE Sensors Journal, 25(3): 5337–5348.
Manzoor B., Homssi B.A., Al-Hourani A. 2022. IoT Coverage Enhancement Using Repetition in Energy Constrained Devices: An Analytic Approach. IEEE Transactions on Green Communications and Networking, 6(2): 1122–1131.
Ni N., Yang F., Wang C. 2021. Research on Smart gas safety supervision system based on IOT technology. IOP Conference Series: Earth and Environmental Science, 651(3): 032013.
Porchelvi N., Titus S. 2024. Compact novel circular shaped fractal quad-port MIMO antenna loaded with DGS and stub for 6G, WiMax and weather monitoring. Optical and Quantum Electronics, 56: 1048.
Qasim N.H., Salman A.J., Salman H.M., Abdel-Rahman A.A., Kondakova A. 2024. Evaluating NB-IoT within LTE Networks for Enhanced IoT Connectivity. 35th Conference of Open Innovations Association (FRUCT). Tampere: 552–559.
Quamar M.M., Khan K.A., Khalid M. 2023. Narrowband-IoT Based Integrated Framework for Monitoring Pipeline Condition in Oil and Gas Industry. 2023 International Conference on Control, Automation and Diagnosis (ICCAD). Rome: 1–6.
Sathya V., Zhang L., Yavuz M. 2022. A Comparative Measurement Study of Commercial WLAN and 5G LAN Systems. IEEE 96th Vehicular Technology Conference (VTC2022-Fall). London: 1–7.
Taleb H., Nasser A., Andrieux G., Charara N., Cruz E.M. 2022. Energy Consumption Improvement of a Healthcare Monitoring System: Application to LoRaWAN. IEEE Sensors Journal, 22(7): 7288–7299.
Ugwuanyi S., Hansawangkit J., Irvine J. 2020. NB-IoT Testbed for Industrial Internet of Things. 2020 International Symposium on Networks, Computers and Communications (ISNCC), Montreal: 1–6.
Wang Y., Cao Q., Devaraj M. 2023. Using IoT to promote the construction of natural gas industry ecosystem. Proceedings SPIE 12599, Second International Conference on Digital Society and Intelligent Systems. Chendgu: 125992K.
Yaser M.Ja., Abdullateef D., Polshchykov K.A., Balakshin M.S. 2025. Estimating the Message Delivery Probability Without Duplication in an Industrial Internet of Things Network System. Journal of Advances in Information Technology, 16(6):830–837.
Yaser M.Ja., Polshchykov K.A., Polshchikov I.K. 2023. Algorithm for ensuring the minimum power consumption of the end node in the LoRaWAN network. Periodicals of Engineering and Natural Sciences, 11(4): 168–174.
References
Golovnin I.V., Gavrilov A.V. 2021. Primenenie avtonomnyh datchikov pri rabote v standarte NB-IoT na primere neftedobyvayushchego predpriyatiya [The use of autonomous sensors in the NB-IoT standard: an example of an oil production company]. Innovacionnye tekhnologii: teoriya, instrumenty, praktika, 1: 142–148.
Yaser M.J.Y., Polshchikov K.A., Fedorov V.I. 2023. Message Delivery Model in a Low-Power Sensor Network. Economics. Information technologies, 50(2): 439–447(in Russian). DOI: 10.52575/2687-0932-2023-50-2-439-447.
Agrawal N.K., Kumar S., Bisht G.S., Srivastav A., Bansla V., Jain A. 2024. Development of a Novel Quality of Service Aware Video Streaming on Demand System for the Internet of Thing Enabled MANET. 2024 International Conference on Communication, Computer Sciences and Engineering (IC3SE). Gautam Buddha Nagar: 80–85.
Almufareh M.F., Humayun M., Ahmad Z., Khan A. 2024. An Intelligent LoRaWAN-Based IoT Device for Monitoring and Control Solutions in Smart Farming Through Anomaly Detection Integrated with Unsupervised Machine Learning. IEEE Access, 12: 119072–119086.
Al-Shamkhee A.A.O., Almawlawe M.D.H., Polshchykov K.A., Likhosherstov R.V. 2025. Intelligent Control for Video Broadcasting in Flying Ad Hoc Networks: A Simulation Study. The Eurasia Proceedings of Science, Technology, Engineering & Mathematics, 37: 141–149.
Alghazali S.M.M., Aljeazna W.K.M., Rasol M.N., Polshchykov K.A., Likhosherstov R.V. 2025. An algorithm for controlling the transmission of video streams in a flying ad hoc network. IAES International Journal of Artificial Intelligence, 14(5): 4290.
Arumun J., Akowua K. 2025. Wireless Sensor Technologies for Industrial Applications. Scholars Bulletin, 11(6): 105–110.
Coboi A., Nguyen M.T., Pham V.N., Vu T.C., Nguyen M.D., Nguyen D.T. 2023. Zigbee Based Mobile Sensing for Wireless Sensor Networks. Computer Networks and Communications, 1(2): 325–342.
Du R. 2025. An Overview on IEEE 802.11bf: WLAN Sensing. IEEE Communications Surveys & Tutorials, 27(1): 184–217.
Guan M., Qi L, Jin X., Guan S., Xia C., Xu C. 2023. Low-Power Heterogeneous Networking Method Based on NB-IoT and WSN. 2023 6th International Conference on Communication Engineering and Technology (ICCET). Xi'an: 26–29.
Hu Z., Xue G., Chen Y., Li M., Wang M., Lv F. 2022. City-Wide NB-IoT Network Monitoring and Diagnosing. Wireless Communications and Mobile Computing, 2022: 3153274.
Iiyambo L., Hancke G., Abu-Mahfouz A.M. 2024. A Survey on NB-IoT Random Access: Approaches for Uplink Radio Access Network Congestion Management. IEEE Access, 12: 95487–95506.
Jha H., Kaur S. 2023. A Survey on ZigBee Technology. 2023. 14th International Conference on Computing Communication and Networking Technologies (ICCCNT). Delhi: 1–5.
Lo Y.W., Tsoi M.H., Chow C.-F., Mung S.W.Y. 2025. An NB-IoT Monitoring System for Digital Mobile Radio with Industrial IoT Performance and Reliability Evaluation. IEEE Sensors Journal, 25(3): 5337–5348.
Manzoor B., Homssi B.A., Al-Hourani A. 2022. IoT Coverage Enhancement Using Repetition in Energy Constrained Devices: An Analytic Approach. IEEE Transactions on Green Communications and Networking, 6(2): 1122–1131.
Ni N., Yang F., Wang C. 2021. Research on Smart gas safety supervision system based on IOT technology. IOP Conference Series: Earth and Environmental Science, 651(3): 032013.
Porchelvi N., Titus S. 2024. Compact novel circular shaped fractal quad-port MIMO antenna loaded with DGS and stub for 6G, WiMax and weather monitoring. Optical and Quantum Electronics, 56: 1048.
Qasim N.H., Salman A.J., Salman H.M., Abdel-Rahman A.A., Kondakova A. 2024. Evaluating NB-IoT within LTE Networks for Enhanced IoT Connectivity. 35th Conference of Open Innovations Association (FRUCT). Tampere: 552–559.
Quamar M.M., Khan K.A., Khalid M. 2023. Narrowband-IoT Based Integrated Framework for Monitoring Pipeline Condition in Oil and Gas Industry. 2023 International Conference on Control, Automation and Diagnosis (ICCAD). Rome: 1–6.
Sathya V., Zhang L., Yavuz M. 2022. A Comparative Measurement Study of Commercial WLAN and 5G LAN Systems. IEEE 96th Vehicular Technology Conference (VTC2022-Fall). London: 1–7.
Taleb H., Nasser A., Andrieux G., Charara N., Cruz E.M. 2022. Energy Consumption Improvement of a Healthcare Monitoring System: Application to LoRaWAN. IEEE Sensors Journal, 22(7): 7288–7299.
Ugwuanyi S., Hansawangkit J., Irvine J. 2020. NB-IoT Testbed for Industrial Internet of Things. 2020 International Symposium on Networks, Computers and Communications (ISNCC), Montreal: 1–6.
Wang Y., Cao Q., Devaraj M. 2023. Using IoT to promote the construction of natural gas industry ecosystem. Proceedings SPIE 12599, Second International Conference on Digital Society and Intelligent Systems. Chendgu: 125992K.
Yaser M.Ja., Abdullateef D., Polshchykov K.A., Balakshin M.S. 2025. Estimating the Message Delivery Probability Without Duplication in an Industrial Internet of Things Network System. Journal of Advances in Information Technology, 16(6):830–837.
Yaser M.Ja., Polshchykov K.A., Polshchikov I.K. 2023. Algorithm for ensuring the minimum power consumption of the end node in the LoRaWAN network. Periodicals of Engineering and Natural Sciences, 11(4): 168–174.
Просмотров аннотации: 0
Поделиться
Опубликован
Как цитировать
Выпуск
Раздел
Copyright (c) 2026 Экономика. Информатика
Это произведение доступно по лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная.
