Technologies of dynamic access and shared use of the radioelectric spectrum

Autores

  • Gerardo Martínez Cruz Instituto Federal de Telecomunicaciones - México

DOI:

https://doi.org/10.26512/lstr.v11i2.27018

Palavras-chave:

Technologies of Dynamic Access. Shared Use Spectrum. Massive MIMO. Device-to-Device.

Resumo

Purpose ”“ The quest to reduce the digital divide and increasing the traffic capacity of mobile networks to meet the demand for future connectivity led the Federal Institute of Telecommunications (IFT), through the Directorate of Engineering and Technology.

Methodology ”“ Analysis of the state of the art of the technologies of dynamic access and shared use of the radioelectric spectrum (TADUCE) in order to identify those that are susceptible to adoption in Mexico. The technologies analyzed in the research are those based on LTE (Long Term Evolution) that operate in frequency bands of free use, emerging technologies based on MIMO, Cognitive Radio (RC), Device-to-Device (D2D) and TV White Spaces (TVWS) communications.

Findings ”“ The DIT establishes different recommendations that the IFT must consider in order for these technologies to be optimally implemented in the country.

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Biografia Autor

Gerardo Martínez Cruz, Instituto Federal de Telecomunicaciones - México

Ingeniero en Telecomunicaciones por la Universidad Nacional Autónoma de México. Actualmente, Gerardo es estudiante de la Maestría en Derecho de las TIC en el INFOTEC, con especialidad de Derecho de las Telecomunicaciones, y se desempeña como Subdirector de Ingeniería del Espectro en el Instituto Federal de Telecomunicaciones.

Referências

BJÖRNSON, Emil; Larsson, Erick G. y Marzetta, Thomas L. (2016) Massive MIMO: Ten Myths and One Critical Question, IEEE Communications Magazine, 116.

CHEN, Bolin; Chen, Jiming; Gao, Yuan y Zhang, Jie. (2017) Coexistence of LTE-LAA and Wi-Fi on 5 GHz With Corresponding Deployment Scenarios: A Survey, IEEE Communications Surveys & Tutorials, 19, 1, 10.

CISCO. (2017) Forecasting the World’s Digital Transformation, Estados Unidos, disponible en: https://www.cisco.com/c/m/en_us/solutions/service-provider/vni-complete-forecast/infographic.html

CISCO. (2017) The Zettabyte Era: Trends and Anlysis, Estados Unidos, disponible en: https://www.cisco.com/c/en/us/solutions/collateral/service-provider/visual-networking-index-vni/vni-hyperconnectivity-wp.html

DELOITTE. (2014) The Impact of Licensed Shared Use of Spectrum, Reino Unido, GSMA, 15, disponible en: https://www.gsma.com/spectrum/wp-content/uploads/2014/02/The-Impacts-of-Licensed-Shared-Use-of-Spectrum.-Deloitte.-Feb-20142.pdf

FCC. (2002) NOTICE OF INQUIRY. In Matter of Additional Spectrum for Unlicensed Devices Below 900 MHz and in the 3 GHz Band, Estados Unidos, disponible en: https://apps.fcc.gov/edocs_public/attachmatch/FCC-02-328A1.pdf

FCC. (2004) NOTICE OF PROPOSED RULE MAKING. In Matter of Unlicensed Operation in the TV Broadcast Bands, Estados Unidos, disponible en: https://apps.fcc.gov/edocs_public/attachmatch/FCC-04-113A1.pdf

FLORE, Dino. (2016) LAA standardization: coexistence is the key, Third Generation Partnership Project, disponible en: http://www.3gpp.org/news-events/3gpp-news/1789-laa_update

INTEL. (2016) Alternative LTE Solutions in Unlicensed Spectrum: Overview of LWA, Estados Unidos, LTE-LAA and Beyond, 13, disponible en: https://www.intel.com/content/dam/www/public/us/en/documents/white-papers/unlicensed-lte-paper.pdf

ISMAIEL, Bushra; ABOLHASAN, Mehran y SMITH, David. (2017) A Survey and Comparison Of Device-To-Device Architecture Using LTE unlicensed Band, 2017 IEEE 85th Vehicular Technology Conference (VTC Spring), Australia, 2.

Kim, Taisiya; Park, Soo K. y Lee, Bong G. (2015) Korean Mobile Operators' Value Map for LTE D2D, International Journal of Digital Information and Wireless Communications (IJDIWC), Corea, 141-142.

Kwon, Hwan-Joon; Jeon, Jeongho y Bhorkar, Abhijeet. (2017) Licensed-Assisted Access to Unlicensed Spectrum in LTE Release 13, IEEE Communications Magazine, 203.

LTE-U Forum. (2017) LTE-U SDL Coexistence Specifications V1.3, 4, disponible en: http://www.lteuforum.org/uploads/3/5/6/8/3568127/lte-u_forum_lte-u_sdl_coexistence_specifications_v1.3.pdf

Malladi, Durga. (2016) Best use of unlicensed spectrum, Estados Unidos, Qualcomm Technologies, Inc., 6, disponible en: https://www.qualcomm.com/media/documents/files/making-the-best-use-of-unlicensed-spectrum-presentation.pdf

Microsoft. (2016) A Rural Broadband Strategy. Connecting Rural America to New Oportunities, Estados Unidos, 16. Disponible en: https://msblob.blob.core.windows.net/ncmedia/2017/07/Rural-Broadband-Strategy-Microsoft-Whitepaper-FINAL-7-10-17.pdf

Molisch, Andreas F. (2010) Wireless Communications, Reino Unido, John Wiley & Sons, 2a ed., 506.

MULTEFIRE. (2016) MulteFire Release 1.0 Technical Paper. A New Way to Wireless, Estados Unidos, MulteFire Alliance, 3, disponible en: https://www.multefire.org/specification/specification-release-1-0-1download/

Mumtaz, Shahid y Rodriguez, Jonathan. (2014) Smart Device to Smart Device Communication, Suiza, Springer Science + Business Media, 5.

National Instruments. (2017) 5G Massive MIMO Testbed: From Theory to Reality, Estados Unidos, disponible en: http://www.ni.com/white-paper/52382/en/#toc4

NETMANIAS. (2017) Analysis of LTE ”“ WiFi Aggregation Solutions, Corea, disponible en: https://www.netmanias.com/en/post/reports/8532/laa-lte-lte-u-lwa-mptcp-wi-fi/analysis-of-lte-wifi-aggregation-solutions

Ofcom. (2015) Implementing TV White Spaces, Reino Unido, Office of Communications, disponible en: https://www.ofcom.org.uk/__data/assets/pdf_file/0034/68668/tvws-statement.pdf

Ofcom. (2015) New Spectrum for Audio PMSE, Reino Unido, Office of Communications, disponible en: https://www.ofcom.org.uk/consultations-and-statements/category-2/new-spectrum-audio-pmse

Ofcom. (2016) White Space Database Operators, Reino Unido, Office of Communications, disponible en: https://tvws-databases.ofcom.org.uk/

QUALCOMM. (2017) Qualcomm Research. LTE in Unlicensed Spectrum: Harmonious Coexistence with Wi-Fi, Estados Unidos, 6, disponible en: https://www.qualcomm.com/media/documents/files/lte-unlicensed-coexistence-whitepaper.pdf

RICKNÄS, Mikael (2013) Samsung takes first 5G steps with advanced antenna. But not everyone is convinced the underlying technology will work, Australia, PC World From IDG (News), disponible en: https://www.pcworld.idg.com.au/article/461656/

SHEPARD, Clayton; YU, Hang; ANAND, Narendra; Li, Li E.; MARZETTA, Thomas; Yang, Richard y Zhong, Lin. (2012) Argos: Practical Many-Antenna Base Stations, The 18th Annual International Conference on Mobile Computing and Networking, Turquía, 9, disponible en: http://argos.rice.edu/pubs/Shepard-MobiCom12.pdf

Song, Lingyang; Niyato, Dusit; Han, Zhu y Hossain, Ekram. (2015) Wireless Device-to-Device Communications and Networks, Reino Unido, Cambridge University Press, 1a ed., 6, 7.

SUZUKI, Hajime; KENDALL, Rodney y ANDERSON, Kevin. (2012) Highly Spectrally Efficient Ngara Rural Wireless Broadband Access Demonstrator, International Symposium on Communications and Information Technologies (ISCIT), 914.

TEHRANI, Mohsen N.; UYSAL, Murat y YANIKOMEROGLU, Halim. (2014) Device-to-Device Communication in 5G Cellular Networks: Challenges, Solutions, and Future Directions, IEEE Communications Magazine, 86.

UIT-R. (2009) Informe UIT-R SM.2152. Definiciones de sistema radioeléctrico determinado por programas informáticos (RDI) y sistema radioeléctrico cognoscitivo (SRC), Suiza, Sector de Radiocomunicaciones de la UIT (Serie SM, Gestión del Espectro), 2, disponible en: https://www.itu.int/dms_pub/itu-r/opb/rep/R-REP-SM.2152-2009-PDF-S.pdf

UNIVERSITY OF BRISTOl. (2016) Bristol and Lund set a new world record in 5G wireless spectrum efficiency, Reino Unido, University of Bristol (News), disponible en: http://www.bristol.ac.uk/news/2016/march/massive-mimo.html

VIEIRA, Joao; Malkowsky, Steffen y Nieman, Karl. (2014) A flexible 100-antenna testbed for Massive MIMO, IEEE Globecom 2014 Workshop - Massive MIMO: From Theory to Practice, Estados Unidos, 290.

WANG, Cheng-Xian; Hong, Xuemin y Ge, Xiaohu. (2010) Cooperative MIMO Channel Models: A Survey, IEEE Communications Magazine, 81.

WANG, Jianfeng; Ghosh, Monisha y Challapali, Kiran. (2011) Emerging Cognitive Radio Applications: A Survey, IEEE Communications Magazine, 74.

Publicado

2019-09-02

Como Citar

CRUZ, Gerardo Martínez. Technologies of dynamic access and shared use of the radioelectric spectrum. Law, State and Telecommunications Review, [S. l.], v. 11, n. 2, p. 53–70, 2019. DOI: 10.26512/lstr.v11i2.27018. Disponível em: https://periodicos.unb.br/index.php/RDET/article/view/27018. Acesso em: 27 nov. 2024.