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- Fiber bundle-based beam tracking approach for free space optical . . .
In this article, we will present a rethinking of this tracking approach that uses seven co-boresighted fibers in a fiber bundle design in which the outer six fibers serve as tracking sensors and the central fiber serves as a data beam receiver
- Fiber bundle-based beam tracking approach for free space optical . . .
- "Fiber bundle-based beam tracking approach for free space optical communications link optimization" Fig 5 Face of the fiber bundle captured through a fiber microscope, with the outer six 100-μm core MMFs designated as sensors and the center 8:2-μm core SMF designated as the data receiver
- Fiber bundle-based beam tracking demonstrated across 30 . . . - ResearchGate
We carry out a proof-of-concept experimental demonstration of AoA tracking systems for a 10-Gb s free-space optical link over 104 m, comparing its performance with that of the conventional
- Concept of a Fiber-Based Laser Beam Tracking System for a Free Space . . .
Abstract: The paper reports on the development of a fiber-based laser beam tracking system for Free Space Optics communication The system uses a fiber bundle which composes four navigation Hard-Clad Silica fibers around the receiving fiber
- Special Section Guest Editorial: Free Space Optical Communications
Patel et al propose a fiber bundle-based beam tracking approach for FSOC, Peng, Mao and Qi present an improved prediction algorithm for the single-mode fiber coupling, and Kiasaleh examines the receiver architecture for on-off-keying FSOC in the presence of residual spatial tracking error
- Beaconless angle-of-arrival tracking with improved receiver sensitivity . . .
We carry out a proof-of-concept experimental demonstration of AoA tracking systems for a 10-Gb s free-space optical link over 104 m, comparing its performance with that of the conventional system The demonstration shows a loss reduction of >2 9 dB by using the proposed design
- Fiber bundle-based beam tracking approach for free space optical . . .
We present an alternative architecture that makes use of a hexagonally packed, seven-fiber bundle for data beam tracking The outer fibers are inherently co-boresighted position sensors used to sense displacement of the received beam from the central data fiber
- Evaluation of free-space optical fiber bundle transmitter . . .
In order to track, acquire and maintain a free-space optical link between mobile platforms experiencing misalignment due to movement and atmospheric turbulence requires a different approach than traditional free-space optical transceivers Recently, a fiber-bundle approach for beam steering at the transmitter was proposed and investigated that allowed tracking of the receiver without the use
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