Performance Enhancement in Wireless Network by Considering Attenuation Factors

Authors

  • Dr. Sangeeta  Assistant Professor, Department of CSE, Chaudhary Devilal University, Sirsa, Haryana, India
  • Pankaj  M.Tech. Scholar, Department of CSE, Chaudhary Devilal University, Sirsa, Haryana, India

Keywords:

Wireless network, attenuation, Radio over Fiber Technology.

Abstract

In this day and age, there is an ever-increasing need for wireless communication. There is a substantial amount of work that has to be done in the field of wireless communication. In the context of cloud computing and Internet of Things technologies, wireless connectivity has been utilized rather often. As a result, there is a need to find a solution in order to obtain the optimal configuration of wireless communication in order to experience the least amount of attenuation. Present paper is considering the factors that influencing the performance of wireless network. Major factor, that is influencing quality of service in wireless network is attenuation. This paper is reviewing the existing research that are considering attenuation factors. Present research is focused on Radio over Fiber Technology (RoF) and considering its architecture.

References

  1. V. Sarup, A. Gupta, “A Study of various Trends and Enabling Technologies in Radio over Fiber (RoF) Systems” Optik - International Journal for Light and Electron Optics , Vol.126, No. 20, pp.2606-2611, October 2015.
  2. Mazin Al Noor, “Green Radio Communication Networks Applying Radio-over- Fiber Technology for Wireless Access”, Ph.D Thesis, 2011.
  3. Christina Lim, Ampalavanapillai Nirmalathas, Masuduzzaman Backul, Prasanna Gamage, Ka Lun Lee, Yizhuo Yang, Dalma Novak and Rod Waterhouse. “Fiber-Wireless Networks and Subsystem Technologies” Journal of Lightwave Technology, Vol.28, No.4, pp.390-405, February 2010
  4. Navid Ghazisaidi and Martin Maier, “Fiber-Wireless (FiWi) Networks: Comparative Techno Economic Analysis of EPON and WiMAX”, Global Telecommunication Conference, Vol.1, pp. 1-6, March 2010
  5. Anthony Ng’oma, “Radio-over Fiber Technology for Broadband Wirless Communication Systems” Ph.D Thesis, 2005
  6. W. Chen, S.Y. Li, P.X. Lu, D.X. Wang, W.Y. Luo, “Dispersion Compensation Optical Fiber Modules For 40 Gbps WDM Communication Systems” Frontiers of Optoelectronics in China, Vol. 3, No. 4, 2010, pp. 333-338, January 2010
  7. H. B. Kim and A. Wolisz, “Radio over Fiber based Wireless Access Network Architecture for Rural Areas,” in Proc. 14th IST Mobile & Wireless Commun. Summit, Dresden, Germany, June 2005
  8. Koonen, A. M. J., Larrodé, M. G., Ng’oma A., Wang K., Yang, H., Zheng Y., Tangdiongga Y., “Perspectives of Radio over Fiber Technologies”, Conference on Optical Fiber communication/National Fiber Optic Engineers Conference (OFC/NFOEC), pp. 1-3, 2008
  9. G.J. Simonis, K.G. Purchase, “Optical generation, distribution, and control of microwaves using laser heterodyne”, IEEE Trans. Microwave Theory Technol.,Vol.38 , No.5, pp.667–669, May 1990
  10. D. Wake, C.R. Lima, P.A. Davies, “Optical generation of mm-wave signals for fiber-radio systems using a dual-mode DFB semiconductor laser” IEEE Trans. Microwave Theory Technol.,Vol.43, No.9 , pp.2270–2276, September 1995
  11. D. Novak, Z. Ahmed, R.B. Waterhouse, R.S. Tucker, “Signal generation using pulsed semiconductor lasers for application in mm-wave wireless links”, IEEE Trans. Microwave Theory Technol.,Vol.43, No.9, pp.733–734,September 1995
  12. D. Kim, M. Pelusi, Z. Ahmed, D. Novak, H.F. Liu, Y. Ogawa, “Ultra-stable mm-wave signal generation using hybrid mode-locking of a monolithic DBR laser”, Electronic Letters.,Vol. 31, No.15, pp. 733–734,1995
  13. L.D. Westbrook, D.G. Moodie, “Simultaneous bidirectional analogue fiber optic transmission using an electro-absorption modulator”, Electron Lett.,Vol. 47,No.7, pp.1806–1807,1996
  14. Stohr, K. Kitayama, D. Jager, “Full-duplex fiber-optic RF subcarrier transmission using a dual-function modulator/photodetector”, IEEE Trans. Microwave Theory Technology, Vol.47, No.7, pp. 1338–1341, July 1999
  15. T. Kuri, K. Kitayama, Y. Takahashi, “60-GHz-band full-duplex radio-on-fiber system using two-RF-port electro-absorption transceiver”, IEEE Photonics Technol. Lett., Vol. 12, No.4,pp 419–421, April 2000
  16. T. Kurniawan, A. Nirmalathas, C. Lim, D. Novak, R. Waterhouse, “Performance analysis of optimized millimeter-wave fiber radio links”, IEEE Trans. Microwave Theory Tech., Vol. 54, No. 2, pp. 921–928, 2006
  17. Jianxin Ma, J. Yu, Chongxiu Yu, Xiangjun Xin, Huiying Huang, Lan Rao, “Generation and transmission of the double-sideband optical millimeter-wave with signal carried only by optical carrier”, Opt. Commun., Vol.281, No.10, pp. 2799-2805, May 2008
  18. Tianliang Wang, Minghua Chen, Hongwei Chen, Shizhong Xie, “RoF downlink transmission system using FWM effect of SOA for generating mm-wave”, Opt. Commun., Vol.282, No.16, pp. 3360–3363, August 2009
  19. Jie Yin, Kun Xu, Da-peng Wang, Jin-tong Lin, “A novel scheme to generate multi-band millimeter wave signals for 40 GHz full duplex radio-over-fiber system”, J. Chin Uni. Posts and Telecommun., Vol.16, No.1,pp. 62–65, September 2009
  20. Ying Wang Shen, Rong Pu Tao, A novel technique to generate microwave signal based on multiple-frequency Brillouin fiber-ring laser, in Proc. of Communications and Photonics Conference and Exhibition, pp. 1–2, 2009
  21. Jian Gong Zhao, ZengJi Liu, XiangLing Liu, Tao Shang, Peng Yue, Generation of radio signals using a novel Mach–Zehnder modulator with four arms, Opt. Commun., Vol. 282, No.22, pp. 4353–4357, November 2009
  22. P. Perry, L.P. Barry, Optical millimeter-wave generation and transmission system for 1.25 Gbit/s downstream link using a gain switched laser, Opt. Commun., Vol .282, No.24, pp. 4789–4792, December 2009
  23. J. Ma, J. Yu, C. Yu, X. Xin, X. Sang, Q. Zhang, 64 GHz optical millimeter-wave generation by octupling 8 GHz local oscillator via a nested LiNbO3 modulator, Opt. Laser Technol., Vol.42, No.2, pp. 264–268, March 2010
  24. X. Liu, Z. Liu, J. Li, T. Shang, J. Zhao, Generation of optical carrier suppression millimeter-wave signal using one dual-parallel MZM to overcome chromatic dispersion, Opt. Commun., Vol .283, No.16, pp.3129-3135, August ,2010
  25. P.-T. Shih, J. Chen, C.T. Lin, W.J. Jiang, H.-S. Huang, P.-C. Peng, S. Chi, Optical millimeter-wave signal generation via frequency 12-Tupling, J. Light wave Technol.Vol.28, No.1,pp.71-78, 2010.
  26. M. Arumugam, ―Optical Fibre Communication – An Overview‖ Pramana journal of physics, VOL. 57, Nos5 & 6, PP. 849–869, 2001.
  27. J.K.Hwang, and T.I.Choi, ―Complex communication network for distribution automation using fibre optic network and WLAN‖ Electrical Power and Energy System,43,pp. 812-817,2012.
  28. Mehdi Malekiah, Dony Yang ,and Shiv Kumar, ―Comparison of optical back propagation scheme for fibre optic communication‖ optical Fibre Technology,19, pp. 4-9,2013.
  29. Sheng Li Chung, ―Emerging Technology for fibre optic data communication‖ Handbook of fibre optic data communication, III Edition, chapter 25, 2008.
  30. Alnajjar Satea Hikmat, Mohd Fareq Abd. Malekb and Mohd Sharazel Razallia, ―A Novel Approach for Evaluation of Enhancing Networks‖ Procedia Engineering,pp53, 497 – 503, 2013.
  31. Savita R. Bhosale and Mr. S.B. Deosarkar, ―Design and Performance Analysis of a newly designed 32-User Spectral Phase Encoding system operating at 2.5Gb/s for Fibre-Optic CDMA Networks‖ ICACT Transactions on Advanced Communications Technology (TACT) Vol. 1, Issue 1, 2012.
  32. V. Sarup, A. Gupta, “A Study of various Trends and Enabling Technologies in Radio over Fiber (RoF) Systems” Optik - International Journal for Light and Electron Optics , Vol.126, No. 20, pp.2606-2611, October 2015.
  33. Mazin Al Noor, “Green Radio Communication Networks Applying Radio-over- Fiber Technology for Wireless Access”, Ph.D Thesis, 2011.
  34. Christina Lim, Ampalavanapillai Nirmalathas, Masuduzzaman Backul, Prasanna Gamage, Ka Lun Lee, Yizhuo Yang, Dalma Novak and Rod Waterhouse. “Fiber-Wireless Networks and Subsystem Technologies” Journal of Lightwave Technology, Vol.28, No.4, pp.390-405, February 2010
  35. Navid Ghazisaidi and Martin Maier, “Fiber-Wireless (FiWi) Networks: Comparative Techno Economic Analysis of EPON and WiMAX”, Global Telecommunication Conference, Vol.1, pp. 1-6, March 2010
  36. Anthony Ng’oma, “Radio-over Fiber Technology for Broadband Wirless Communication Systems” Ph.D Thesis, 2005
  37. W. Chen, S.Y. Li, P.X. Lu, D.X. Wang, W.Y. Luo, “Dispersion Compensation Optical Fiber Modules For 40 Gbps WDM Communication Systems” Frontiers of Optoelectronics in China, Vol. 3, No. 4, 2010, pp. 333-338, January 2010

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Published

2023-08-30

Issue

Section

Research Articles

How to Cite

[1]
Dr. Sangeeta, Pankaj, " Performance Enhancement in Wireless Network by Considering Attenuation Factors" International Journal of Scientific Research in Computer Science, Engineering and Information Technology(IJSRCSEIT), ISSN : 2456-3307, Volume 9, Issue 4, pp.66-76, July-August-2023.