Show simple item record

dc.contributores-ES
dc.creatorCortés, Antonio
dc.date2018-12-11
dc.date2018-12-11
dc.date.accessioned2018-12-14T15:09:33Z
dc.date.available2018-12-14T15:09:33Z
dc.identifierhttp://revistas.utp.ac.pa/index.php/prisma/article/view/2062
dc.identifier.urihttp://ridda2.utp.ac.pa/handle/123456789/5888
dc.descriptionEn la actualidad unas de las dificultades que presentan las redes inalámbricas de área local (WLAN) en espacios internos, por ejemplo, edificios, oficinas, distribución de cubículos entre pisos, es la adecuada cobertura a la cual tiene acceso diversos tipos de artefactos como son los celulares, laptops, computadoras, a través de la conexión inalámbrica que provee los diversos puntos de acceso (AP) distribuidos en diversos espacios por dónde transitan o trabajan las personas. En este artículo presentamos un análisis de los escenarios internos, al considerar una serie de elementos básicos, características, herramientas y cuestiones prácticas en el momento de la planificación de una red inalámbrica. Existen una serie de herramientas como inSSIDer, NetSurveyor, NetSpot y Vistumbler orientados a la planificación y diseño de redes LAN inalámbricas 802.11 a/b/g/n/ac en la obtención de rendimiento, seguridad y cumplimiento óptimo de la red. Los resultados obtenidos mediante experimentación permiten obtener información relevante para el planificador de la red encargado de diseñar e implementar la red LAN inalámbrica. De igual modo, se hace uso de una serie de escenarios para la simulación, los cuales están configurados con ciertas características, lo que permite la verificación de la velocidad de conexión, frecuencia de la señal y capacidad de transmisión afrontando las etapas de congestión de la red.es-ES
dc.formatapplication/pdf
dc.formattext/html
dc.languagespa
dc.publisherUniversidad Tecnológica de Panamáes-ES
dc.relationhttp://revistas.utp.ac.pa/index.php/prisma/article/view/2062/pdf
dc.relation/*ref*/A. Farsi, N. Achir & Boussetta, K. Ann. WLAN planning: Separate and joint optimization of both access point placement and channel assignment. Telecommunications. 2015, 70(5): p. 263 – 274. [2] Y-K. Lin, Y-C. Tsao, S-W, Lin. Wireless LAN Access Point Location Planning. In: Proceedings of the institute of industrial engineers Asian conference 2013. Springer, Singapore. 2013, 1(1): p. 907 – 914. [3] K. Farkas, Á. Huszák, et al. Optimization of Wi-Fi Access Point Placement for Indoor Localization. Informatics & It Today, 2013, 1(1): p.28-33. [4] Á. Huszák, G. Gódor, et al. On the Placement of Wi-Fi Access Points for Indoor Localization. En: 1st Global Virtual Conference. 19. Information Technology. Hungary: EDIS – Publishing Institution of the University of Zilina, 2013, p. 8 – 12. [5] R.Henniger .Current approaches of Wifi Positioning. Service – Centric Networking – Seminar WS 2011/2012, 2012, p. 1-8. [6] B. Bellalta, L. Bononi, R.Bruno, et al. Next generation IEEE 802.11 Wireless Local Area Networks: Current status, future directions and open challenges. Computer Communications, 2015, 23(37): p. 1-25. [7] Z. Farid, R. Nordin, et al. Recent Advances in Wireless Indoor Localization Techniques and System. Journal of Computer Network and Communications, 2013, 2013 (2013): p. 1 – 12. [8] N. Liu, D. Plets , K. Vanhecke , L. Martens, et al. Wireless indoor network planning for advanced exposure and installation cost minimization. EURASIP Journal on Wireless Communications and Networking, 2015, 2015(199): p. 1-14. [9] P. Wertz, M. Sauter, M. Landstofer et al. Automatic Optimization Algorithms for the Planning of Wireless Local Area Networks, Vehicular Technology Conference, 2004 IEEE, Vol. 4, pp. 3010 – 3014. [10] A. Gondran, A. Caminada, J. Fondrevelle and O. Boala. Wireless LAN planning: a didactical model to optimise the cost and effective payback, Int. J. Mobile Networking Desing and Innovation, Vol. 2. No.1, pp. 13-25, 2007. [11] Lu. Jia-Liang, F.Valois. Performance evaluation of 802.11 WLAN in a real indoor environment, Wireless and Mobile Computing Networking and Communications, 2006. (WiMob’2006). IEEE Internacional Conference on, vol. no. , pp. 140 – 147, 19 – 21, June 2006. [12] L. Junjie. Survey of Wireless Based Indoor Localization Technologies. http://www.cse.wustl.edu/~jain/cse574-14/ftp/indoor/index.html, April 30,2014, pp.1-17
dc.relation/*ref*/InSSIDer. https://www.metageek.com/products/inssider/ [14] B. Wenche et. al. WLAN network planning and setup – Best Practice Document. TERENA, December 2010. https://www.terena.org/campus-bp/ [15] V.Honkavirta, T. Perälä, S. Ali-Löytty, R. Piché. A comparative survey of WLAN location fingerprinting methods. Proceedings of the 6th Workshop on Positioning, Navigation and Communication 2009 WPNC'09, March 19, 2009, Hannover, Germany pp. 243-251. [16] L. Youngseok, K. Kyongae, and Ch. Yanghee. Optimization of AP Placement and Channel Assigmente in Wireless LANs. Proceedings of the 22th Annual IEEE. Conference on Local Computer Network (LCN’02), IEEE Computer Society, 2002, pp. 1-6. [17] S. Selena, J.M., Louis David, H.Jeffrey. Landscape of connectivity. Measuring and representing fluctuations in wireless network traffic in space.Automation in Construction, Elsevier, May 2018, pp. 1 – 17. [18] X. Yalong, Z. Shigeng, C.Jiannong, W. Haodong, W. Jianxin, Exploiting Distribution of Channel State Information for Accurate Wireless Indoor Localization, Computer Communications (2017), doi: 10.1016/j.comcom.2017.10.013 [19] S. Stephen. Network Planning with a Performance – Prediction Tool. Internacional Journal of Network Management, 9, 1999, pp. 167 – 173 [20] R.C. Rodrigues, G.R. Mateus, A.A.F. Loureino. On the design and capacity planning of a Wireless local area network, Network Operations and Management Symposium, 2000. NOMS 2000. 2000 IEEE/IFIP, pp.335-348. [21] Z. Lei, R.P. José, R.O.F. Jean, A.G.N. José, W.M. David, B.Cesar, C. Luis. Propagation modeling for outdoor – to – indoor and indoor – to – indoor wireless links in high – speed train. Measurement, Elsevier, Vol. 100, November 2017, pp. 43 – 52. [22] M. B. Ismail, A. F. A. Boud, andW. N.W. Ibrahim, “Implementation of location determination in a wireless local area network (WLAN) environment,” in Proceedings of the 10th International Conference on Advanced Communication Technology (ICACT ’34), pp. 894–899, February 2008. [23] F. Zariel, N. Rosdiadee, and I. Moham. Recent Advances on Wireless Indoor Localization Techniques and System. Hindawi Publishing Corporation, Journal of Computer Networks and Communications, Volume 2013, 12 pages, doi /10115/2013/185138. [24] C.Marc, M. E. Israel, and B.A. Francisco, “Location in wireless local area networks,” in Location-Based Services Handbook, pp.67–90, CRC Press, 2010. [25] L. Ning, P.Dariel, V.Kris, M. Lue and J.Wout. Wirelss indoor networking planning for advanced exposure and installation cost minimization. EURASIP Journal on Wireless Communications and Networking, 2015, 2015:199, DOI 10.1186/s 13638-015-0425-z. [26] D. Liang, Z. Zhang and M. Peng, "Access Point Reselection and Adaptive Cluster Splitting-Based Indoor Localization in Wireless Local Area Networks," in IEEE Internet of Things Journal, vol. 2, no. 6, pp. 573-585, Dec. 2015. [27] M. Ren and Y. Zou, “A novel multiple sparse source localization using triangular pyramid microphone array,” IEEE Signal Processing Letters, vol. 19, no. 2, pp. 83-86, Feb. 2012. [28] M. Peng, D. Liang, Y. Wei, J. Li, and H. Chen, “Self-configuration and self- optimization in LTE-Advanced heterogeneous networks,” IEEE Communications Magazine, vol. 51, no. 5, pp. 36-45, May 2013. [29] A. Gureev, V. I. Selivantsev, T. Tun and Y. Pavlyuk, "Using experimental data for indoor wireless system planning," 2018 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), Moscow, 2018, pp. 1731-1733. [30] A. Cirigliano, R. Cordone, A. A. Nacci and M. D. Santambrogio, "Toward Smart Building Design Automation: Extensible CAD Framework for Indoor Localization Systems Deployment," in IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, vol. 37, no. 1, pp. 133-145, Jan. 2018. [31] NetSurveyor. http://nutsaboutnets.com/ [32] Vistumbler. https://www.vistumbler.net/ [33] NetSpot. https://www.netspotapp.com/
dc.rightsinfo:eu-repo/semantics/openAccess
dc.rightshttps://creativecommons.org/licenses/by-nc-sa/4.0/
dc.source2312-637X
dc.source2076-8133
dc.sourcePrisma Tecnológico; Vol. 9, Núm. 1 (2018): Revista Prisma Tecnológico; 15-20es-ES
dc.subjectredes; inalámbricas; planificaciónes-ES
dc.titlePlanficación en redes de área local inalámbricas en escenarios internos: elementos, herramientas y cuestiones prácticases-ES
dc.typeinfo:eu-repo/semantics/article
dc.typeinfo:eu-repo/semantics/publishedVersion
dc.typeinfo:eu-repo/semantics/article
dc.typeinfo:eu-repo/semantics/publishedVersion


Files in this item

FilesSizeFormatView

There are no files associated with this item.

This item appears in the following Collection(s)

  • Vol. 9, Núm. 1 (2018): Revista Prisma Tecnológico [8]
    La habilidad para identificar problemas y reconocer múltiples soluciones, o pensar en soluciones completamente nuevas, es una característica esencial de todo profesional sobresaliente. Con esto en mente, me atrevo a asegurar que esta habilidad exige, en el presente y el futuro, altas dosis de creatividad e imaginación espontánea, recurrente y creciente entre los ingenieros que formamos.

Show simple item record