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Wireless Broadband Access with the Application of IEEE 802.11b based Wi-Fi Model

International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Year of Publication: 2016
Aditi Daund, Pankaj Kumar Vyas

Aditi Daund and Pankaj Kumar Vyas. Wireless Broadband Access with the Application of IEEE 802.11b based Wi-Fi Model. International Journal of Computer Applications 154(5):39-44, November 2016. BibTeX

	author = {Aditi Daund and Pankaj Kumar Vyas},
	title = {Wireless Broadband Access with the Application of IEEE 802.11b based Wi-Fi Model},
	journal = {International Journal of Computer Applications},
	issue_date = {November 2016},
	volume = {154},
	number = {5},
	month = {Nov},
	year = {2016},
	issn = {0975-8887},
	pages = {39-44},
	numpages = {6},
	url = {},
	doi = {10.5120/ijca2016912143},
	publisher = {Foundation of Computer Science (FCS), NY, USA},
	address = {New York, USA}


Wireless Broadband Access service is now a day’s more popular for data transmission. Traditional high-speed broadband solutions rely upon wired technologies specifically digital subscriber line (DSL). Wi-Fi is helpful in providing any type of connectivity such as the fixed or portable connectivity while not the need of LoS (Line of Sight) of the base station. Mobile Broadband Wireless Network (MBWN) could be a versatile and economical answer for remote areas where wired technology and additionally terminal quality can't be provided. The IEEE 802.11 family based Wi-Fi is the most promising technologies for broadband wireless metropolitan area networks (WMANs) and these are capable of providing high output even on long distances with varied QoS. In this paper the basic physical layer architecture is discussed and on the basis of the study a new Wi-Fi model is developed for supporting the wireless broadband access.


  1. Cover TM, Thomas JA (2006) Elements of information theory. 2nd Edn, (Wiley series in telecommunications and signal processing). Wiley, New Jersey
  2. Kleinrock L (2010) An early history of the internet [history of communications]. IEEE Commun Mag 48(8):26–36
  3. Leiner BM, Cerf VG, Clark DD, Kahn RE, Kleinrock L, Lynch DC, Postel J, Roberts LG, Wolff S (2009) A brief history of the internet. SIGCOMM Comput Commun Rev 39(5):22–31
  4. Karjaluoto H (2007) An investigation of third generation (3g) mobile technologies and services. Contemp Manag Res 2(2):91–104
  5. Kennedy M, Ksentini A, Hadjadj-Aoul Y, Muntean G (2013) Adaptive energy optimization in multimedia-centric wireless devices: a survey. IEEE Commun Surv Tutor 15(2):768–786
  6. Yucek T, Arslan H (2009) A survey of spectrum sensing algorithms for cognitive radio applications. IEEE Commun Surv Tutor 11(1):116–130
  7. Ferrus R, Sallent O, Agusti R (2010) Interworking in heterogeneous wireless networks: comprehensive framework and future trends. IEEE Wirel Commun 17(2):22–31
  8. Stankiewicz R, Jajszczyk A (2011) A survey of qoe assurance in converged networks. Comput Netw 55(7):1459–1473
  9. Marsch P, Raaf B, Szufarska A, Mogensen P, Guan H, Farber M, Redana S, Pedersen K, Kolding T (2012) Future mobile communication networks: challenges in the design and operation. IEEE Veh Technol Mag 7(1):16–23
  10. Fehske A, Fettweis G, Malmodin J, Biczok G (2011) The global footprint of mobile communications: the ecological and economic perspective. IEEE Commun Mag 49(8):55–62
  11. Rexford J, Dovrolis C (2010) Future internet architecture: cleanslate versus evolutionary research. ACM Commun 53(9):36–40
  12. Yu M, Rexford J, Freedman MJ, Wang J (2010) Scalable flowbased networking with difane. SIGCOMM Comput Commun Rev 41(4):351–362
  13. Kim H, Feamster N (2013) Improving network management with software defined networking. IEEE Commun Mag 51(2):114–119
  14. Astuto BN, Mendon M, Nguyen XN, Obraczka K, Turletti T (2014) A survey of software-defined networking: past, present, and future of programmable networks. IEEE Commun Surv Tutor 16(3):1617–1634
  15. Lara A, Kolasani A, Ramamurthy B (2013) Network innovation using open flow: a survey. IEEE Commun Surv Tutor 99:1–20
  16. McKeown N, Anderson T, Balakrishnan H, Parulkar G, Peterson L, Rexford J, Shenker S, Turner J (2008) Openflow: enabling innovation in campus networks. SIGCOMM Comput Commun Rev 38(2):69–74
  17. Chowdhury NMK, Boutaba R (2010) A survey of network virtualization. Comput Netw 54(5):862–876
  18. Feamster N, Gao L, Rexford J (2007) How to lease the internet in your spare time. SIGCOMM Comput Commun Rev 37(1):61–64
  19. Chowdhury N, Boutaba R (2009) Network virtualization: state of the art and research challenges. IEEE Commun Mag 47(7):20–26
  20. ETSI (2012) Network functions virtualisation white paper. White Paper.pdf. Accessed Oct 2012
  21. Jain R (2013) Network virtualization and software defined networking for cloud computing: a survey. IEEE Commun Mag 51(11):24–31
  22. Ericsson (2012) Mobile report on the pulse of the networked society. Ericsson Mobility Report. Accessed Nov 2012
  23. Banerjee A, Chen X, Erman J, Gopalakrishnan V, Lee S, Merwe J (2013) Moca: A lightweight mobile cloud offloading architecture.
  24. In: Proceedings of the 8th ACM international workshop on mobility in the evolving internet architecture, ser. MobiArch ’13, New York, pp 11–16
  25. Chen BX (2012) Carriers warn of crisis in mobile spectrum. The New York Times. bole.html?pagewanted=all. Accessed April 2012
  26. Research R (2010) Mobile broadband capacity constraints and the need for optimization. 02 Rysavy Mobile Broadband Capacity Constraints.pdf. Accessed Feb 201
  27. Open network foundation (onf) (2013). https://www.opennet


Digital Subscriber Line(DSL), Line of Site (LoS), Broadband wireless access (BWA), Point-to Multipoint (P2MP), PLCP,PPDU etc…