Scintillation is the result of oceanic turbulence reducing the bit error rate (BER) performance
of oceanic optical wireless communication (OWC) systems. The scintillation, also known as …

Turbulence-induced wavefront deformations cause the irradiance of an optical signal to
fluctuate resulting a in serious degradation in the bit-error-rate (BER) performance of optical …

In this paper, we consider an underwater wireless optical communication (UWOC) system
which consists of an M-ary pulse position modulated (PPM) Gaussian optical beam at the …

We theoretically analyze the average bit error rate (ABER) performance of underwater
wireless optical communication (UWOC) systems using rectangular quadrature-amplitude …

The marine atmosphere exhibits different turbulence spectrum characteristics when
compared to the turbulence spectra of the land atmosphere and underwater medium. The …

The performance, quantified by the bit-error-rate (BER), of M-ary pulse position modulated
(PPM) optical wireless oceanic communication (OWOC) link is investigated when such a link …

An adaptive optics correction arising from the sum of tilt, focus, astigmatism and coma
components is applied to the bit error rate (BER) of M-ary pulse-position-modulated (PPM) …

The adaptive optics technique is employed in oceanic optical wireless communication
(OOWC) systems to correct wavefront deformations (or aberrations) caused by oceanic …

Tip and tilt corrections are applied to the bit error rate of an M-ary pulse position-modulated
optical wireless communication system operating in a turbulent marine atmosphere. For the …

This paper discusses the bit-error-rate (BER) performance of an aeronautical uplink optical
wireless communication system (OWCS) when a Gaussian beam is employed and the M-ary …