Title :
Ergodic Capacity of SIM-Based DF Relayed Optical Wireless Communication Systems
Author :
Aggarwal, Mona ; Garg, Parul ; Puri, Parul
Author_Institution :
Div. of Electron. & Commun. Eng., Netaji Subhas Inst. of Technol., New Delhi, India
Abstract :
In this letter, we consider a dual-hop, subcarrier intensity modulation-based relayed optical wireless communication system under the combined influence of atmospheric turbulence and pointing error impairments. The turbulence-induced fading is modeled by independent but not necessarily identically distributed Gamma-Gamma fading statistics with misalignment fading. The relaying protocol followed by the relay is decode and forward. We first, derive the statistics of instantaneous signal-to-noise ratio at the destination, followed by the novel and exact analytical expressions for ergodic capacity of the system in terms of mathematically tractable Meijer´s G-function and extended generalized bivariate Meijer´s G-function.
Keywords :
atmospheric light propagation; atmospheric turbulence; channel capacity; decode and forward communication; fading; optical links; optical modulation; protocols; statistical distributions; SIM based DF relayed optical wireless communication; atmospheric turbulence; distributed Gamma-Gamma fading statistics; dual hop wireless communication; ergodic capacity; extended generalized bivariate Meijer G-function; misalignment fading; pointing error impairment; relaying protocol; subcarrier intensity modulation; tractable Meijer G-function; turbulence induced fading; Adaptive optics; Fading; Optical mixing; Protocols; Relays; Signal to noise ratio; Wireless communication; Ergodic capacity; Gamma-Gamma distribution; Gamma???Gamma distribution; extended generalized bivariate Meijer’s G-function (EGBMGF); extended generalized bivariate Meijer???s G-function (EGBMGF); pointing errors;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2407897
