DATA COMPOSITION AND REPRESENTATION FOR COGNITIVE COMMUNICATION SYSTEM MODEL BASED ON LTE
Article Sidebar
Main Article Content
Abstract
The paper discusses to the problem of secondary use of the licensed frequency spectrum by providing access to users using cognitive radio technology in the fourth generation LTE wireless communication network. The structure and format of transmitted data in such a network are considered as applied to the problem of constructing a model of a cognitive communication system. The role and principles of the formation of a radio environment map are presented. Structure and composition of data for REM construction are proposed. Modeling of the formation and presentation of data in the MatLab environment using the LTE Waveform Generator package has been performed. HDF5 is used for data recording. The simulation results are presented.
Article Details
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
Radio Environment Maps: The Survey of Construction Methods / M. Pesko [et al.] // KSII Transactions on Internet and Information Systems. – Vol. 8. – № 11. – 2014. – DOI: 10.3837/tiis.2014.11.008.
Mitola, J. Cognitive Radio for Flexible Mobile Multimedia Communications / J. Mitola // IEEE International Workshop on Mobile Multimedia Communications. – 1999. – P. 3–10.
Mitola, J. Cognitive radio: Making software radios more personal / J. Mitola // IEEE Pers. Commun. – 1999. – Vol. 6. – № 4. – P. 13–18.
Когнитивные сверхширокополосные радиосистемы как метод повышения эффективности использования радиочастотного спектра / Т. П. Косичкина [и др.] // T-Comm: Телекоммуникации и транспорт. – 2015. – Т. 9. – № 12. – С. 37–43.
Dwarakanath, R. C. Modeling of interference maps for Licensed Shared Access in LTE-advanced networks supporting Carrier Aggregation / R. C. Dwarakanath, J. D. Naranjo, A. Ravanshid // 2013 IFIP Wireless Days (WD). – 2013. – P. 1–6. – DOI: 10.1109/WD.2013.6686457.
Alfattani, S. Indirect Methods for Constructing Radio Environment Map / S. Alfattani, A. Yonzacoglu // 2018 IEEE Canadian Conference on Electrical & Computer Engineering (CCECE) – 2018. – P. 1–5. – DOI: 10.1109/CCECE.2018.8447654.
Мирошникова, Н. Е. Обзор систем когнитивного радио / Н. Е. Мирошникова // T-Comm: Телекоммуникации и транспорт. – 2013. – Т. 7. – № 9. – С. 108–111.
Косичкина, Т. П. Исследование моделей помех в системах когнитивного радио / Т. П. Косичкина, Г. Н. Иванов, В. О. Евдокимов // Фундаментальные проблемы радиоэлектронного приборостроения. – 2018. – Т. 18. – № 4. – С. 965–970.
Feng, X. Enabling co-channel coexistence of 802.22 and 802.11af systems in TV White Spaces / X. Feng, Q. Zhang, B. Li // 2013 IEEE International Conference on Communications (ICC). – 2013. – P. 6040–6044. – DOI: 10.1109/ICC.2013.6655567.
IEEE 802.11AH: the WiFi approach for M2M communications / T. Adame [et al.] // IEEE Wireless Communications Magazine. – IEEE, 2014
Региональное содружество в области связи: справочник по перспективам внедрения систем когнитивного радио в диапазоне УВЧ в странах участников РСС [Электронный ресурс]. – Режим доступа: https://www.rcc.org.ru/netcat_files/874/1100/h_f78e12d30f93fa2ce77ae42b7c6b9939. – Дата доступа: 28.06.2021.
Технологии построения когнитивного радио и когнитивных сетей и их влияние на рынок радиочастотных ресурсов и качество обслуживания пользователей [Электронный ресурс]. – Режим доступа: https://www.itu.int/en/ITU-D/ICT-Applications/Documents/StPtDocs/Session_4_Aksenov.pdf. – Дата доступа: 28.06.2021.
Radio environment map as enabler for practical cognitive radio networks / H. B. Yilmaz [et al.] // IEEE Communications Magazine. – Vol. 51. – № 12. – 2013. – P. 162–169. – DOI: 10.1109/MCOM.2013.6685772.
3GPP Website [Electronic resours]. – Mode of access: https://www.3gpp.org/. – Date of access:: 28.06.2021.
3GPP Technologies: Long Term Evolution [Electronic resours]. – Mode of access: https://www.3gpp.org/technologies/keywords-acronyms/98-lte. – Date of access: 28.06.2021.
Hyung, G. M. Single Carrier FDMA for Uplink Wireless Transmission /, G. M. Hyung, , L. Junsung, , D. J. Goodman // IEEE Vehicular Technology Magazine. – Vol. 1. – № 3. – 2006. – P. 30–38.
LTE CA Technology Development [Electronic resours]. – Mode of access: https://www.5gamericas.org/wp-content/uploads/2019/07/4G_Americas_Carrier_Aggregation_FINALv1_0_3.pdf. – Date of access: 28.06.2021.
Hui, L. OFDM-Based Broadband Wireless Networks. Design and Optimization / L. Hui, L. Guoqing. – 2006. –DOI:10.1002/0471757195.fmatter.
Specification 36.101 E-UTRA; UE radio transmission and reception [Electronic resours]. – Mode of access: https://www.3gpp.org/ftp/Specs/archive/36_series/36.101/. – Date of access: 28.06.2021.
Какие частоты выделены сотовым операторам в Беларуси [Электронный ресурс]. – Режим доступа: https://mpt.gov.by/ru/faq/kakie-chastoty-vydeleny-sotovym-operatoram-v-belarusi. – Дата доступа: 28.06.2021.
LTE frequency band [Electronic resours]. – Режим доступа: https://www.sqimway.com/lte_band.php. – Дата доступа: 28.06.2021.
Описание физического уровня LTE [Электронный ресурс]. – Режим доступа: http://anisimoff.org/lte/phy_description.html. – Дата доступа: 28.06.2021.
Организация каналов в LTE [Электронный ресурс]. – Режим доступа: http://anisimoff.org/lte/channels.html. – Дата доступа: 28.06.2021.
Основы сотовой связи стандарта GSM [Электронный ресурс]. – Режим доступа: http://afu.com.ua/gsm. – Дата доступа: 19.09.2021.
Требования к параметрам электромагнитной совместимости оборудования систем базовых станций и ретрансляторов стандарта LTE [Электронный ресурс]. – Режим доступа: https://digital.gov.ru/common/upload/Prilozhenija_k_pravilam_129.pdf. – Дата доступа: 19.09.2021.
Технические характеристики радиопередающих устройств базовых станций UMTS для режима FDD [Электронный ресурс]. – Режим доступа: http://1234g.ru/3g/umts/tekhnicheskie-kharakteristiki-radioperedayushchikh-ustrojstv-bazovykh-stantsij-umts-dlya-rezhima-fdd. – Дата доступа: 19.09.2021.
Физический уровень LTE [Электронный ресурс]. – Режим доступа: https://russianelectronics.ru/fizicheskij-urovenlte/. – Дата доступа: 19.09.2021.
Flexible and Spectrum Aware Radio Access through Measurements and Modelling in CRS [Electronic resours]. – Mode of access: http://www.lopezbenitez.es/tech_reports/FARAMIR_D21.pdf. – Date of access: 28.06.2021.
On the construction of Radio Environment Maps for Cognitive Radio Networks / Z. Wei [et al.] // 2013 IEEE Wireless Communications and Networking Conference (WCNC). – 2013. – P. 4504–4509. – DOI: 10.1109/WCNC.2013.6555304.
Radio environment maps for military cognitive networks: density of small-scale sensor network vs. map quality / M. Suchański [et al.] // Cognitive Radio-Oriented Wireless Networks. – 2019. – P. 195–207. – DOI: 10.1007/978-3-030-25748-4_15.
Yilmaz, H. B. Location estimation-based radio environment map construction in fading channels / H. B. Yilmaz, T. Tugcu // Wirel. Commun. Mob. Comput. – 2015. – P. 421–430.
The HDF5 library & file format [Electronic resours]. – Mode of access: https://www.hdfgroup.org/solutions/hdf5/. – Date of access: 28.06.2021.
Most read articles by the same author(s)
- R. BOHUSH, Y. ADAMOVSKIY, H. CHEN, REAL-TIME SMOKE DETECTION IN VIDEO, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 2 (2023)
- V. CHERTKOV, Р. П. БОГУШ, N. NAUMOVICH, TERRASAR-X PRODUCT CONVERSION TO HDF5 FORMAT, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2019)
- A. TOLMACHEV, V. CHERTKOV, ANTENNA SYSTEM FOR SMALL-SIZED TEST GENERATOR RADIO, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2018)
- O. GOLUBEVA, V. CHERTKOV, K. HARYST, G. PESHKOVA, SOFTWARE FOR AUTOMATION OF PERSONNEL PROFESSIONAL SELECTION AND EMPLOYEE ATTESTATION OF JSC «NAFTAN» BASED ON THE MODEL OF KEY COMPETENCIES, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 1 (2024)
- M. IVANOU, V. ZHELEZNYAK, V. CHERTKOV, REVIEW OF METHODS OF DETECTING NONLINEAR ELEMENTS BY THE NONLINEAR RADAR, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2017)
- R. BOHUSH, I. ZAKHARAVA, N. NAUMOVISH, SIMULATION OF COMPRESSION ECBAQ MODIFICATION WITH REPRESENTATION IN CEOS FORMAT OF EARTH REMOTE SENSING DAT, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2017)
- V. CHERTKOV, R. BOHUSH, N. NAUMOVICH, FEATURES STRUCTURE AND FORMAT OF PRESENTATION OF RADAR SATELLITE DATA TERRASAR-X, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2017)
- V. CHERTKOV, R. BOHUSH, A. ANDROSCHUK, NON-RECURSIVE IMAGE FILTERING USING FPGA, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2015)
- M. IVANOU, V. ZHELEZNIAK, V. CHERTKOV, METHOD OF INCREASING THE SENSITIVITY OF NON-LINEAR RADAR, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2016)
- N. LUPENKO, R. BOHUSH, H. CHEN, ANALYSIS OF METHODS FOR DISTANCE ESTIMATION TO AN OBJECT FROM A SINGLE VIDEO CAMERA IMAGE USING NEURAL NETWORKS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 2 (2024)