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Development of an optical fiber network for signals with correlated noise
In this project an optical fiber network comprising n optical fibers will be developed. The objective is to study the influence of correlated noise on the output signals gi(t).
As shown in the figure, the information f1(t); f2(t); :: fn(t) will be encoded by optical modulators and transmitted through optical fibers to a network that generates combinations of the input information, resulting in the output g1(t); g2(t); :: gN(t), with N > n. The objective is to study the influence of correlated noise on the output signals gi(t). The student will 1) set up the optical system shown in the figure, 2) calibrate and characterize the network and 3) study how correlated noise affects the channel capacity.
References:
[1] E. Wolf, Introduction to the Theory of Coherence and Polarization of Light, (Cambridge University,
2007).
As shown in the figure, the information f1(t); f2(t); :: fn(t) will be encoded by optical modulators and transmitted through optical fibers to a network that generates combinations of the input information, resulting in the output g1(t); g2(t); :: gN(t), with N > n. The objective is to study the influence of correlated noise on the output signals gi(t). The student will 1) set up the optical system shown in the figure, 2) calibrate and characterize the network and 3) study how correlated noise affects the channel capacity.
References: [1] E. Wolf, Introduction to the Theory of Coherence and Polarization of Light, (Cambridge University, 2007).