Your search keyword '"probability of fade"' showing total 3 results

1. Underwater Optical Wireless Communications with Chromatic Dispersion and Time Jitter

Author

George D. Roumelas, Hector E. Nistazakis, Argyris N. Stassinakis, Christos K. Volos, and Andreas D. Tsigopoulos

Subjects

underwater optical wireless communications, chromatic dispersion, group velocity dispersion, time jitter, probability of fade, Electronic computers. Computer science, QA75.5-76.95

Abstract

The obsolete communication systems used in the underwater environment necessitates the development and use of modern telecommunications technologies. One such technology is the optical wireless communications, which can provide very high data rates, almost infinite bandwidth and very high transmission speed for real time fast and secure underwater links. However, the composition and the optical density of seawater hinder the communication between transmitter and receiver, while many significant effects strongly mitigate the underwater optical wireless communication (UOWC) systems’ performance. In this work, the influences of chromatic dispersion and time jitter are investigated. Chromatic dispersion causes the temporal broadening or narrowing of the pulse, while time jitter complicates the detection process at the receiver. Thus, the broadening of the optical pulse due to chromatic dispersion is studied and the influence of the initial chirp is examined. Moreover, the effect of the time jitter is also taken into consideration and for the first time, to the best of our knowledge, a mathematical expression for the probability of fade is extracted, taking into account the influence of both of the above-mentioned effects for a UOWC system. Finally, the appropriate numerical results are presented.

Published

2019

2. Underwater Optical Wireless Communications with Chromatic Dispersion and Time Jitter

Author

Christos Volos, A.N. Stassinakis, George D. Roumelas, A.D. Tsigopoulos, and Hector E. Nistazakis

Subjects

group velocity dispersion, General Computer Science, Computer science, 02 engineering and technology, Communications system, 01 natural sciences, lcsh:QA75.5-76.95, Theoretical Computer Science, 010309 optics, chromatic dispersion, probability of fade, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Chirp, Electronic engineering, 14. Life underwater, Underwater, Jitter, underwater optical wireless communications, time jitter, Applied Mathematics, Bandwidth (signal processing), Transmitter, Process (computing), 020206 networking & telecommunications, Optical wireless communications, Modeling and Simulation, lcsh:Electronic computers. Computer science

Abstract

The obsolete communication systems used in the underwater environment necessitates the development and use of modern telecommunications technologies. One such technology is the optical wireless communications, which can provide very high data rates, almost infinite bandwidth and very high transmission speed for real time fast and secure underwater links. However, the composition and the optical density of seawater hinder the communication between transmitter and receiver, while many significant effects strongly mitigate the underwater optical wireless communication (UOWC) systems&rsquo, performance. In this work, the influences of chromatic dispersion and time jitter are investigated. Chromatic dispersion causes the temporal broadening or narrowing of the pulse, while time jitter complicates the detection process at the receiver. Thus, the broadening of the optical pulse due to chromatic dispersion is studied and the influence of the initial chirp is examined. Moreover, the effect of the time jitter is also taken into consideration and for the first time, to the best of our knowledge, a mathematical expression for the probability of fade is extracted, taking into account the influence of both of the above-mentioned effects for a UOWC system. Finally, the appropriate numerical results are presented.

Published

2019

3. Underwater Optical Wireless Communications with Chromatic Dispersion and Time Jitter.

Author

Roumelas, George D., Nistazakis, Hector E., Stassinakis, Argyris N., Volos, Christos K., and Tsigopoulos, Andreas D.

Subjects

OPTICAL dispersion, WIRELESS communications, TELECOMMUNICATION systems, GROUP velocity dispersion, OPACITY (Optics)

Abstract

The obsolete communication systems used in the underwater environment necessitates the development and use of modern telecommunications technologies. One such technology is the optical wireless communications, which can provide very high data rates, almost infinite bandwidth and very high transmission speed for real time fast and secure underwater links. However, the composition and the optical density of seawater hinder the communication between transmitter and receiver, while many significant effects strongly mitigate the underwater optical wireless communication (UOWC) systems' performance. In this work, the influences of chromatic dispersion and time jitter are investigated. Chromatic dispersion causes the temporal broadening or narrowing of the pulse, while time jitter complicates the detection process at the receiver. Thus, the broadening of the optical pulse due to chromatic dispersion is studied and the influence of the initial chirp is examined. Moreover, the effect of the time jitter is also taken into consideration and for the first time, to the best of our knowledge, a mathematical expression for the probability of fade is extracted, taking into account the influence of both of the above-mentioned effects for a UOWC system. Finally, the appropriate numerical results are presented. [ABSTRACT FROM AUTHOR]

Published

2019