Analysis of Atmospheric Turbulence on Free Space Optical System using Homotopy Perturbation Method

被引:2
|
作者
Rani M. [1 ]
Bhatti H.S. [2 ]
Singh V. [1 ]
机构
[1] Department of Mathematics, I. K. Gujral Punjab Technical University, IKG PTU, Punjab, Jalandhar
[2] Applied Sciences, Baba Banda Singh Bahadur Engineering College, Punjab, Fatehgarh Sahib
来源
Journal of Optical Communications | 2019年 / 40卷 / 04期
关键词
atmospheric turbulence; BER; free space optics; homotopy perturbation method; scintillation;
D O I
10.1515/joc-2017-0099
中图分类号
学科分类号
摘要
Free Space Optics (FSO) is a wireless optical communication technology which depends on propagation of optical beam through air. FSO communication system provides secure communication link, cost-effective solution and license-free operation. In this paper, the FSO communication link has been analysed in turbulent atmosphere using homotopy perturbation method (HPM). We have designed a FSO system operating at an optical wavelength of 850 nm with a signal power of 4 dBm having a link range of 2 km between transmitter and receiver unit. It has been observed that in atmospheric turbulence high performance FSO link is achieved by increasing the aperture diameter of receiver telescope. © 2019 De Gruyter. All rights reserved.
引用
收藏
页码:441 / 446
页数:5
相关论文
共 50 条
  • [31] Analysis of differential phase shift keying in free-space optical communication system over atmospheric turbulence and pointing errors
    Zhang, Huiying
    Li, Hongzuo
    Xiao, Dongya
    Cai, Chao
    Zhongguo Jiguang/Chinese Journal of Lasers, 2015, 42 (10):
  • [32] Low complexity deep learning algorithms for compensating atmospheric turbulence in the free space optical communication system
    Amirabadi, Mohammad Ali
    Kahaei, Mohammad Hossein
    Nezamalhosseni, S. Alireza
    IET OPTOELECTRONICS, 2022, 16 (03) : 93 - 105
  • [33] BPSK based subcarrier intensity modulated free space optical system in combined strong atmospheric turbulence
    Prabu, K.
    Bose, Sumanta
    Kumar, D. Sriram
    OPTICS COMMUNICATIONS, 2013, 305 : 185 - 189
  • [34] Performance analysis of 1-km free-space optical communication system over real atmospheric turbulence channels
    Liu, Dachang
    Wang, Zixiong
    Liu, Jianguo
    Tan, Jun
    Yu, Lijuan
    Mei, Haiping
    Zhou, Yusong
    Zhu, Ninghua
    OPTICAL ENGINEERING, 2017, 56 (10)
  • [35] On two new applications of the homotopy analysis method and the homotopy perturbation method
    Fernandez, Francisco M.
    PHYSICA SCRIPTA, 2010, 81 (03)
  • [36] The affection analysis and compensation for atmospheric overfall in free space optical communication system
    Yuan, XH
    Wang, J
    Huang, DX
    Liu, DM
    ADAPTIVE OPTICS AND APPLICATIONS III, 2004, 5639 : 103 - 114
  • [37] Free-space optical communication using subcarrier modulation in gamma-gamma atmospheric turbulence
    Ghassemlooy, Z.
    Popoola, W. O.
    Leitgeb, E.
    ICTON 2007: PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS, VOL 3, 2007, : 156 - +
  • [38] Atmospheric turbulence and free-space optical communication using orbital angular momentum of single photons
    Paterson, C
    OPTICS IN ATMOSPHERIC PROPAGATION AND ADAPTIVE SYSTEMS VII, 2004, 5572 : 187 - 198
  • [39] Ergodicity of Phase Fluctuations for Free-Space Optical Link in Atmospheric Turbulence
    Zhang, Jiankun
    Li, Ruijie
    Gao, Zhan
    Dang, Anhong
    IEEE PHOTONICS TECHNOLOGY LETTERS, 2019, 31 (05) : 377 - 380
  • [40] Effect of clear atmospheric turbulence on quality of free space optical communications in Yemen
    Khaleel SALTOWIJ
    Abdulsalam ALKHOLIDI
    Habib HAMAM
    Frontiers of Optoelectronics in China, 2010, 3 (04) : 423 - 428
12345