Multi-period planning in metro-aggregation networks exploiting point-to-multipoint coherent transceivers

Mohammad Mohammad Hosseini; João Pedro; João Pedro; Antonio Napoli; Nelson Costa; Jaroslaw E. Prilepsky; Sergei K. Turitsyn

doi:10.1364/JOCN.475902

Journal of Optical Communications and Networking
Vol. 15,
Issue 3,
pp. 155-162
(2023)
•https://doi.org/10.1364/JOCN.475902

Multi-period planning in metro-aggregation networks exploiting point-to-multipoint coherent transceivers

Mohammad Mohammad Hosseini, João Pedro, Antonio Napoli, Nelson Costa, Jaroslaw E. Prilepsky, and Sergei K. Turitsyn

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Mohammad Mohammad Hosseini, João Pedro, Antonio Napoli, Nelson Costa, Jaroslaw E. Prilepsky, and Sergei K. Turitsyn, "Multi-period planning in metro-aggregation networks exploiting point-to-multipoint coherent transceivers," J. Opt. Commun. Netw. 15, 155-162 (2023)

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Abstract

This paper proposes an integer linear programming framework to optimize the multi-period planning of metro-aggregation networks exploiting point-to-multipoint coherent pluggable transceivers and a filterless line system architecture. We investigate several planning strategies to minimize capital expenditure caused by transceiver cost based on the predictability horizon of traffic and availability of transceivers during planning while considering operational expenses (OpEx) as well. The results obtained by evaluating a deployed reference network provide evidence of reductions in transceiver cost between 20% and 32% compared to that in the point-to-point approach, and the OpEx can be reduced by around 30% at the expense of a 10% increase in transceiver cost over a five-year planning period.

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Mohammad Mohammad Hosseini	https://orcid.org/0000-0003-1843-3536
João Pedro	https://orcid.org/0000-0003-4471-7401
Jaroslaw E. Prilepsky	https://orcid.org/0000-0002-3035-4112
Sergei K. Turitsyn	https://orcid.org/0000-0003-0101-3834

	100G	400G	800G	1.2 T
Year 1	0.5	1	Unavailable	Unavailable
Year 2	0.5	1	1.41	Unavailable
Year 3	0.5	1	1.41	Unavailable
Year 4	0.5	1	1.41	1.73
Year 5	0.5	1	1.41	1.73

	Year 1	Year 2	Year 3	Year 4	Year 5
Unmovable transceivers	$44 \times 100 G$	$14 \times 100 G$	$13 \times 100 G$	$22 \times 100 G$	$34 \times 100 G$
Movable transceivers	$44 \times 100 G$	$14 \times 100 G$	$5 \times 400 G (8 \times 100 G)$	$5 \times 400 G (2 \times 400 G + 18 \times 100 G)$	$8 \times 400 G (5 \times 400 G + 36 \times 100 G)$

	100G	400G	800G	1.2 T
Year 1	0.5	1	Unavailable	Unavailable
Year 2	0.5	1	1.41	Unavailable
Year 3	0.5	1	1.41	Unavailable
Year 4	0.5	1	1.41	1.73
Year 5	0.5	1	1.41	1.73

	Year 1	Year 2	Year 3	Year 4	Year 5
Unmovable transceivers	$44 \times 100 G$	$14 \times 100 G$	$13 \times 100 G$	$22 \times 100 G$	$34 \times 100 G$
Movable transceivers	$44 \times 100 G$	$14 \times 100 G$	$5 \times 400 G (8 \times 100 G)$	$5 \times 400 G (2 \times 400 G + 18 \times 100 G)$	$8 \times 400 G (5 \times 400 G + 36 \times 100 G)$

Multi-period planning in metro-aggregation networks exploiting point-to-multipoint coherent transceivers

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Abstract

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Figures (5)

Tables (2)

Equations (17)

Journal of Optical Communications and Networking