ISSN 2658-4670 · EISSN 2658-7149

· Язык: en

Статья: Two-queue polling system as a model of an integrated access and backhaul network node in half-duplex mode (2024)

Читать

Статья Литература Выпуск Статистика Издательство

Читать онлайн

Integrated Access and Backhaul (IAB) technology facilitates the establishment of a compact network by utilizing repeater nodes rather than fully equipped base stations, which subsequently minimizes the expenses associated with the transition towards next-generation networks. The majority of studies focusing on IAB networks rely on simulation tools and the creation of discrete-time models. This paper introduces a mathematical model for the boundary node in an IAB network functioning in half-duplex mode. The proposed model is structured as a polling service system with a dual-queue setup, represented as a random process in continuous time, and is examined through the lens of queueing theory, integral transforms, and generating functions (GF). As a result, analytical expressions were obtained for the GF, marginal distribution, as well as the mean and variance of the number of requests in the queues, which correspond to packets pending transmission by the relay node via access and backhaul channels.

Ключевые фразы: polling, queuing system, integrated access and backhaul, half-duplex

Автор (ы): Николаев Дмитрий Игоревич, Бесчастный Виталий А., Гайдамака Юлия В.

Журнал: DISCRETE AND CONTINUOUS MODELS AND APPLIED COMPUTATIONAL SCIENCE

Предпросмотр статьи

Идентификаторы и классификаторы

УДК: 519.217. Марковские процессы
519.872. Теория массового обслуживания

Для цитирования:

НИКОЛАЕВ Д. И., БЕСЧАСТНЫЙ В. А., ГАЙДАМАКА Ю. В. TWO-QUEUE POLLING SYSTEM AS A MODEL OF AN INTEGRATED ACCESS AND BACKHAUL NETWORK NODE IN HALF-DUPLEX MODE // DISCRETE AND CONTINUOUS MODELS AND APPLIED COMPUTATIONAL SCIENCE. 2024. № 4, ТОМ 32

Текстовый фрагмент статьи

Моя история просмотров (10)

01. Выпуск: № 1

02. Статья: ПЕДАГОГИЧЕСКИЕ УСЛОВИЯ ПРОФЕССИОНАЛЬНОГО САМОСОВЕРШЕНСТВОВАНИЯ БУДУЩЕГО ПЕДАГОГА ВЫСШЕЙ ШКОЛЫ В УСЛОВИЯХ МАГИСТРАТУРЫ

03. Статья: Политика безопасности баз данных Федеральной службы исполнения наказаний

04. Статья: МЕТОДИЧЕСКИЕ ВОЗМОЖНОСТИ МУЛЬТИМЕДИЙНЫХ ПЛАТФОРМ В ОБУЧЕНИИ ИНОСТРАННОМУ ЯЗЫКУ КУРСАНТОВ

05. Статья: ОТРАЖЕНИЕ ДУХОВНОГО СОПРОТИВЛЕНИЯ ЖЕРТВ ХОЛОКОСТА В СВИДЕТЕЛЬСТВАХ ЧЛЕНОВ ЗОНДЕРКОММАНДО АУШВИЦА

06. Статья: ИСПОЛЬЗОВАНИЕ ЭЛЕМЕНТОВ ЭЛЕКТРОННОГО УЧЕБНОГО КУРСА, СОВМЕСТИМЫХ СО СТАНДАРТОМ SCORM, ДЛЯ ВИЗУАЛИЗАЦИИ УЧЕБНОЙ ИНФОРМАЦИИ И СОЗДАНИЯ КАЧЕСТВЕННОГО МУЛЬТИМЕДИЙНОГО ОБРАЗОВАТЕЛЬНОГО КОНТЕНТА В СИСТЕМЕ ДИСТАНЦИОННОГО ОБУЧЕНИЯ (LMS)

07. Статья: ПРАВОВОЙ АНАЛИЗ ВКЛЮЧЕНИЯ ВОЕННОСЛУЖАЩИХ С ОГРАНИЧЕННЫМИ ВОЗМОЖНОСТЯМИ ЗДОРОВЬЯ В СИСТЕМУ ЗАНЯТИЙ ФИЗИЧЕСКОЙ КУЛЬТУРОЙ И СПОРТОМ

08. Статья: МЕЖРЕГИОНАЛЬНЫЕ МИГРАЦИОННЫЕ ПОТОКИ В РОССИИ: СЕТЕВОЙ ПОДХОД

09. Выпуск: № 4 (26)

10. Статья: ФЕРМЕНТАТИВНАЯ АКТИВНОСТЬ ПОЧВ ПОЙМЕННОЙ ЭКОСИСТЕМЫ

Список литературы

1. 3GPP: Study on Integrated Access and Backhaul. Technical report (TR) 38.874 v16.0.0 (2018)
2. 3GPP: Integrated Access and Backhaul (IAB) radio transmission and reception. Technical Specification (TS) 38.174 v17.2.0 (2022)
3. Polese, M., Giordani, M., Zugno, T., Roy, A., Goyal, S., Castor, D. & Zorzi, M. Integrated Access and Backhaul in 5G mmWave Networks: Potential and Challenges. IEEE Communications Magazine 58, 62–68. doi:10.1109/MCOM.001.1900346 (Mar. 2020).
4. Sadovaya, Y., Molchanov, D., Mao, W., Orhan, O., Yeh, S.-p., Nikopour, H., Talwur, S. & Andreev, S. Integrated access and backhaul in millimeter-wave cellular: Benefits and challenges. IEEE
Communications Magazine 60, 81–86 (2022).
5. Gomez-Cuba, F. & Zorzi, M. Optimal link scheduling in millimeter wave multi-hop networks with MU-MIMO radios. IEEE Transactions on Wireless Communications 19, 1839–1854 (2020).
6. Alghafari, H. & Sayad Haghighi, M. Decentralized Joint Resource Allocation and Path Selection in Multi-hop Integrated Access Backhaul 5G Networks. Computer Networks, 108837. doi:10.1016/ j.comnet.2022.108837 (Feb. 2022).
7. Madapatha, C. et al. On topology optimization and routing in integrated access and backhaul networks: A genetic algorithm based approach. IEEE Open Journal of the Communications Society 2, 2273–2291 (2021).
8. Tafintsev, N., Moltchanov, D., Yeh, S.-p., Nikopour, H., Mao, W., Orhan, O., Talwar, S., Valkama, M. & Andreev, S. Joint Path Selection and Resource Allocation in Multi-Hop mmWave-based IAB Systems in ICC 2023 - IEEE International Conference on Communications (2023), 4194–4199. doi:10.1109/ ICC45041.2023.10279180.
9. Jayasinghe, P., Tölli, A., Kaleva, J. & Latva-Aho, M. Traffic Aware Beamformer Design for Flexible TDD-Based Integrated Access and Backhaul. IEEE Access 8, 205534–205549. doi:10.1109/ACCESS. 2020.3037814 (2020).
10. Yarkina, N., Moltchanov, D. & Koucheryavy, Y. Counter Waves Link Activation Policy for Latency Control in In-Band IAB Systems. IEEE Communications Letters 27, 3108–3112. doi:10 . 1109 / LCOMM.2023.3313233 (2023).
11. Neely, M. Stochastic Network Optimization with Application to Communication and Queueing Systems doi:10.2200/S00271ED1V01Y201006CNT007 (2010).
12. Tassiulas, L. & Ephremides, A. Stability properties of constrained queueing systems and scheduling policies for maximum throughput in multihop radio networks. IEEE Transactions on Automatic Control 37, 1936–1948. doi:10.1109/9.182479 (1992).
13. Silard, M., Fabian, P., Papadopoulos, G. Z. & Savelli, P. Frequency Reuse in IAB-based 5G Networks using Graph Coloring Methods in 2022 Global Information Infrastructure and Networking Symposium (GIIS) (Argostoli, Greece, 2022), 104–110. doi:10.1109/GIIS56506.2022.9937005.
14. Nikolaev, D. & Gaidamaka, Y. Leaf Node Polling Model Analysis in an Integrated Access and Backhaul Network in Information Technologies and Mathematical Modelling. Queueing Theory and Applications (eds Dudin, A., Nazarov, A. & Moiseev, A.) (Springer Nature Switzerland, Cham, 2024), 106–117. doi:10.1007/978-3-031-65385-8_8.
15. Feoktistov, V., Nikolaev, D., Gaidamaka, Y. & Samouylov, K. Analysis of Probabilistic Characteristics in the Integrated Access and Backhaul System in Distributed Computer and Communication Networks: Control, Computation, Communications (eds Vishnevskiy, V. M., Samouylov, K. E. & Kozyrev, D. V.) (Springer Nature Switzerland, Cham, 2024), 277–290. doi:10.1007/978-3-031-50482-2_22.
16. Khayrov, E. & Koucheryavy, Y. Packet Level Performance of 5G NR System Under Blockage and Micromobility Impairments. IEEE Access 11, 90383–90395. doi:10.1109/ACCESS.2023.3307021 (2023).
17. Salimzyanov, R. & Moiseev, A. Local balance equation for the probability distribution of the number of customers in the IAB network in SUITMM, Omsk (2023), 284–289.
18. Rykov, V. On analysis of periodic polling systems. Autom. Remote Control 70, 997–1018. doi:10. 1134/S0005117909060071 (2009).
19. Takagi, H. Analysis of polling systems p. 175. 175 pp. (MIT Press, 1986).
20. Takagi, H. & Kleinrock, L. A tutorial on the analysis of polling systems p. 172. 172 pp. (UCLA Computer Science Department, 1985).
21. Takagi, H. Mean message waiting times in symmetric multiqueue systems with cyclic service. Performance Evaluation 5, 271–277 (1985).
22. Zaripova, E. Metody analiza pokazateley effektivnosti telekommunikatsionnoy seti serverov protokola ustanovleniya sessiy [Methods of analyzing the efficiency indicators of the telecommunication network of session establishment protocol servers] p. 18. PhD thesis (RUDN, Moscow, 2015), 18.
23. Ge, J., Bao, L., Ding, H. & Ding, X. Performance Analysis of the First-order Characteristics of Two-level Priority Polling System Based on Parallel Gated and Exhaustive Services Mode in 2021 IEEE 4th International Conference on Electronic Information and Communication Technology (ICEICT) (2021), 10–13. doi:10.1109/ICEICT53123.2021.9531122.
24. Vishnevsky, V. & Semenova, O. Sistemy pollinga: Teoriya i primenenie v shirokopolosnykh besprovodnykh setyakh [Polling systems. Theory and applications for broadband wireless networks] p. 312. 312 pp. (Tekhnosfera, Moscow, 2012).

Выпуск

№ 4, Том 32 (2024)

Кол-во страниц: 293 страницы

Другие статьи выпуска

Superconductivity and special symmetry of twisted tri-layer graphene in chiral model (2024)

Авторы: Рыбаков Юрий Петрович, Умар Медина

Superconducting properties of twisted tri-layer graphene (TTG) are studied within the scope of the chiral model based on using the unitary matrix

Сохранить в закладках

Development and adaptation of higher-order iterative methods in (2024)

Авторы: Жанлав Тугал, Отгондорж Худер

In this article, we propose fourth- and fifth-order two-step iterative methods for solving the systems of nonlinear equations in

Сохранить в закладках

Solving a two-point second-order LODE problem by constructing a complete system of solutions using a modified Chebyshev collocation method (2024)

Авторы: Ловецкий Константин Павлович, Малых Михаил Дмитриевич, Севастьянов Леонид Александрович, Сергеев Степан Васильевич

Earlier we developed a stable fast numerical algorithm for solving ordinary differential equations of the first order. The method based on the Chebyshev collocation allows solving both initial value problems and problems with a fixed condition at an arbitrary point of the interval with equal success. The algorithm for solving the boundary value problem practically implements a single-pass analogue of the shooting method traditionally used in such cases. In this paper, we extend the developed algorithm to the class of linear ODEs of the second order. Active use of the method of integrating factors and the d’Alembert method allows us to reduce the method for solving second-order equations to a sequence of solutions of a pair of first-order equations. The general solution of the initial or boundary value problem for an inhomogeneous equation of the second order is represented as a sum of basic solutions with unknown constant coefficients. This approach ensures numerical stability, clarity, and simplicity of the algorithm.

Сохранить в закладках

On summation of Fourier series in finite form (2024)

Авторы: Малых Михаил Дмитриевич, Малышев Ксаверий Ю.

The problem of summation of Fourier series in finite form is formulated in the weak sense, which allows one to consider this problem uniformly both for classically convergent and for divergent series. For series with polynomial Fourier coefficients

Сохранить в закладках

On the problem of normal modes of a waveguide (2024)

Авторы: Кройтор Олег К., Малых Михаил Дмитриевич, Севастьянов Леонид Александрович

Various approaches to calculating normal modes of a closed waveguide are considered. A review of the literature was given, a comparison of the two formulations of this problem was made. It is shown that using a self-adjoint formulation of the problem of normal waveguide modes eliminates the occurrence of artifacts associated with the appearance of a small imaginary additive to the eigenvalues. The implementation of this approach for a rectangular waveguide with rectangular inserts in the Sage computer algebra system is presented and tested on hybrid modes of layered waveguides. The tests showed that our program copes well with calculating the points of the dispersion curve corresponding to the hybrid modes of the waveguide.

Сохранить в закладках

Asymptotic diffusion analysis of RQ system M/M/1 with unreliable server (2024)

Авторы: Воронина Наталья Михайловна, Рожкова Светлана Владимировна

The paper considers a single-line retrial queueing system with an unreliable server. Queuing systems are called unreliable if their servers may fail from time to time and require restoration (repair), only after which they can resume servicing customers. The input of the system is a simple Poisson flow of customers. The service time and uptime of the server are distributed exponentially. An incoming customer try to get service. The server can be free, busy or under repair. The customer is serviced immediately if the server is free. If it is busy or under repair, the customer goes into orbit. And after a random time it tries to get service again. The study is carried out by the method of asymptotically diffusion analysis under the condition of a large delay of requests in orbit. In this work, the transfer coefficient and diffusion coefficient were found and a diffusion approximation was constructed.

Сохранить в закладках

MMEmAsis: multimodal emotion and sentiment analysis (2024)

Авторы: Киселёв Г.А., Любишева Ярослава М., Вейценфельд Д.А.

The paper presents a new multimodal approach to analyzing the psycho-emotional state of a person using nonlinear classifiers. The main modalities are the subject’s speech data and video data of facial expressions. Speech is digitized and transcribed using the Scribe library, and then mood cues are extracted using the Titanis sentiment analyzer from the FRC CSC RAS. For visual analysis, two different approaches were implemented: a pre-trained ResNet model for direct sentiment classification from facial expressions, and a deep learning model that integrates ResNet with a graph-based deep neural network for facial recognition. Both approaches have faced challenges related to environmental factors affecting the stability of results. The second approach demonstrated greater flexibility with adjustable classification vocabularies, which facilitated post-deployment calibration. Integration of text and visual data has significantly improved the accuracy and reliability of the analysis of a person’s psycho-emotional state

Сохранить в закладках

IMRAD structure (2024)

Авторы: Кулябов Дмитрий Сергеевич, Севастьянов Леонид Александрович

We describe introduced in the journal the rubric system. We describe the general structure of an IMRAD research publication. The IMRAD structure for a research article is described in detail.

Сохранить в закладках

Статистика статьи

Статистика просмотров за 2025 год.

Издательство

Издательство: РУДН
Регион: Россия, Москва
Почтовый адрес: 117198, г. Москва, ул. Миклухо-Маклая, д. 6
Юр. адрес: 117198, г Москва, Обручевский р-н, ул Миклухо-Маклая, д 6
ФИО: Ястребов Олег Александрович (РЕКТОР)
E-mail адрес: rector@rudn.ru
Контактный телефон: +7 (495) 4347027
Сайт: https://www.rudn.ru/

Все права на тексты и товарные знаки принадлежат их законным владельцам. Подробнее...

Сайт https://scinetwork.ru (далее – сайт) работает по принципу агрегатора – собирает и структурирует информацию из публичных источников в сети Интернет, то есть передает полнотекстовую информацию о товарных знаках в том виде, в котором она содержится в открытом доступе.

Сайт и администрация сайта не используют отображаемые на сайте товарные знаки в коммерческих и рекламных целях, не декларируют своего участия в процессе их государственной регистрации, не заявляют о своих исключительных правах на товарные знаки, а также не гарантируют точность, полноту и достоверность информации.

Все права на товарные знаки принадлежат их законным владельцам!

Сайт носит исключительно информационный характер, и предоставляемые им сведения являются открытыми публичными данными.

Администрация сайта не несет ответственность за какие бы то ни было убытки, возникающие в результате доступа и использования сайта.

Спасибо, понятно.