Performance of improved X-axis auto-alignment and detection for single-channel FSO system

A precise alignment between point-to-point free space optical (FSO) networks is crucial in order to maximize the performance of data transmission. A sway or low-frequency vibration of FSO base station can affect line-of-sight quality and hence may lead to the occurrence of higher BER. Therefore, the...

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Bibliographic Details
Published in:Photonic network communications 2017-06, Vol.33 (3), p.334-347
Main Authors: Jamalud-din, Amirull-din, Yaacob, Mohd. Hanif, Bakar, Muhammad Hafiz Abu, Hitam, Salasiah
Format: Article
Language:English
Subjects:
Alignment
Artificial intelligence
Characterization and Evaluation of Materials
Computer Communication Networks
Computer Science
Data transmission
Electrical Engineering
Free space optics
Lasers
Optical communication
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Summary:A precise alignment between point-to-point free space optical (FSO) networks is crucial in order to maximize the performance of data transmission. A sway or low-frequency vibration of FSO base station can affect line-of-sight quality and hence may lead to the occurrence of higher BER. Therefore, the work presented in this paper is to demonstrate an improved auto-alignment single-channel FSO transmission system at X-axis detection area. The receiver base station was fed with pulsed signal laser from a tunable laser source with a central wavelength of 1550 nm. The detection mechanism responds from an analog input signal received that corresponds to the X-axis direction of transmitter vibration. The detection performance of the system was observed by using two approaches: auto-searching of artificial intelligence (AI) detection with stop command and without stop command. The obtained results indicate that the bit sequence of the pulsed signal has low loss by implementing the auto-searching of AI detection with stop command features and hence improves the efficiency of the overall FSO transmission system.
ISSN:1387-974X
1572-8188
DOI:10.1007/s11107-016-0646-z