STATISTICAL PHASE CHARACTERISTICS OF STRONG FLCTUATIONS OF OPTICAL SIGNALS IN AN ATMOSPHERIC COMMUNICATIONS CHANNEL.

被引:0
|
作者
Perednya, A.V.
Polishchuk, Yu.M.
机构
来源
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | 1981年 / 35-36卷 / 04期
关键词
D O I
暂无
中图分类号
TN [电子技术、通信技术];
学科分类号
0809 ;
摘要
The nonuniform phase distribution of the fluctuating component of a signal is shown to influence the statistical characteristics of the signal phase difference in an atmospheric communications channel, and the influence is analyzed for the case of strong fluctuations. The mean and mean square values of the phase difference are calculated for arbitrary values of the regular signal component phase difference, and the degree of nonuniformity of the phase distribution is found.
引用
收藏
页码:92 / 93
相关论文
共 50 条
  • [41] Statistical Properties of Phase Fluctuations of Optical Radiation Propagating through Atmospheric Turbulence
    Lavrinov, Vitaly
    Lavrinova, Lidiya
    2019 RUSSIAN OPEN CONFERENCE ON RADIO WAVE PROPAGATION (RWP), VOL 1, 2019, : 205 - 208
  • [42] Statistical Characteristics of 3D MIMO Channel Model for Vehicle-to-Vehicle Communications
    Saleem, Asad
    Xu, Yan
    Khan, Rehan Ali
    Rasheed, Iftikhar
    Jaffri, Zain Ul Abidin
    Abu Layek, Md
    WIRELESS COMMUNICATIONS & MOBILE COMPUTING, 2022, 2022
  • [43] A Novel Non-Equidifferent Optical APPM Mapping Scheme for Strong Turbulent Atmospheric Channel
    Wang Kaimin
    Zhang Lijia
    Liu Bo
    Zhang Qi
    Tian Qinghua
    Xu Peng
    Xin Xiangjun
    CHINA COMMUNICATIONS, 2015, 12 (03) : 35 - 42
  • [44] A Novel Non-Equidifferent Optical APPM Mapping Scheme for Strong Turbulent Atmospheric Channel
    WANG Kaimin
    ZHANG Lijia
    LIU Bo
    ZHANG Qi
    TIAN Qinghua
    XU Peng
    XIN Xiangjun
    中国通信, 2015, 12 (03) : 35 - 42
  • [45] Atmospheric channel transfer function estimation from experimental free-space optical communications data
    Reinhardt, Colin N.
    Tsintikidis, Dimitris
    Hammel, Stephen
    Kuga, Yasuo
    Ritcey, James A.
    Ishimaru, Akira
    OPTICAL ENGINEERING, 2012, 51 (03)
  • [46] Atmospheric channel transfer function estimation from experimental free-space optical communications data
    Reinhardt, Colin N.
    Kuga, Yasuo
    Ritcey, James A.
    Ishimaru, Akira
    Hammel, Stephen
    Tsintikidis, Dimitris
    ATMOSPHERIC OPTICS IV: TURBULENCE AND PROPAGATION, 2011, 8161
  • [47] STATISTICAL CHARACTERISTICS OF PHASE OF MIXTURE OF ATMOSPHERIC RADIO NOISE AND A NARROW-BAND SIGNAL
    RUBTSOV, VD
    RADIOTEKHNIKA I ELEKTRONIKA, 1974, 19 (11): : 2417 - 2419
  • [48] RELATIONSHIP BETWEEN STATISTICAL AMPLITUDE ANGLES AND PHASE CHARACTERISTICS OF SIGNALS, SCATTERED BY A COMPLEX TARGET
    VARSHAVCHIK, ML
    RADIO ENGINEERING AND ELECTRONIC PHYSICS-USSR, 1969, 14 (01): : 70 - +
  • [49] Mean fade time of an optical communication channel under moderate-to-strong atmospheric turbulence.
    Al-Habash, MA
    Andrews, LC
    Phillips, RL
    OPTICAL PULSE AND BEAM PROPAGATION II, 2000, 3927 : 240 - 248
  • [50] Mean fade time of an optical communication channel under moderate-to-strong atmospheric turbulence.
    Al-Habash, MA
    Andrews, LC
    Phillips, RL
    LASER-TISSUE INTERACTION XI: PHOTOCHEMICAL, PHOTOTHERMAL, AND PHOTOMECHANICAL, 2000, 3914 : 468 - 476
12345