Spectral Aggregation of Turbulence-Resilient FSO Links as Feeders for Capillary Access Networks

Bernhard Schrenk; Florian Honz

Spectral Aggregation of Turbulence-Resilient FSO Links as Feeders for Capillary Access Networks

Bernhard Schrenk (Speaker)
, Florian Honz

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Oral Presentation › peer-review

Abstract

Free-space optical (FSO) communication provides fibre-grade connectivity even in fibre-scarce environments. As such, it is an ideal candidate to trunk capillary radio networks in the far-access segment. However, FSO links are prone to degradation due to misalignment and atmospheric effects. In response to this, we leverage optical antenna configurations with up to 91 elements as FSO air-interfaces that accomplish alignment-tolerant and turbulence-resilient coupling between two single-mode fibre ports. Despite exploiting the spectral domain to achieve a greatly simplified yet spectrally inefficient implementation for diversity reception, we prove that a total of up to eight FSO links at the access segment can be jointly and transparently fed over a single C-band aggregation link.

Original language	English
Title of host publication	Proceedings of 25th Anniversary International Conference on Transparent Optical Networks ICTON 2025
Number of pages	4
Publication status	Published - 2025
Event	25th International Conference on Transparent Optical Networks - Barcelona , Barcelona , Spain Duration: 6 Jun 2025 → 10 Jun 2025 https://icton2025.upc.edu/

Conference

Conference	25th International Conference on Transparent Optical Networks
Abbreviated title	ICTON 2025
Country/Territory	Spain
City	Barcelona
Period	6/06/25 → 10/06/25
Internet address	https://icton2025.upc.edu/

Research Field

Former Research Field - Enabling Digital Technologies

Cite this

@inproceedings{5d11f3d77f964cbfb1991ea279f0a7ce,

title = "Spectral Aggregation of Turbulence-Resilient FSO Links as Feeders for Capillary Access Networks",

abstract = "Free-space optical (FSO) communication provides fibre-grade connectivity even in fibre-scarce environments. As such, it is an ideal candidate to trunk capillary radio networks in the far-access segment. However, FSO links are prone to degradation due to misalignment and atmospheric effects. In response to this, we leverage optical antenna configurations with up to 91 elements as FSO air-interfaces that accomplish alignment-tolerant and turbulence-resilient coupling between two single-mode fibre ports. Despite exploiting the spectral domain to achieve a greatly simplified yet spectrally inefficient implementation for diversity reception, we prove that a total of up to eight FSO links at the access segment can be jointly and transparently fed over a single C-band aggregation link.",

author = "Bernhard Schrenk and Florian Honz",

year = "2025",

language = "English",

booktitle = "Proceedings of 25th Anniversary International Conference on Transparent Optical Networks ICTON 2025",

note = "25th International Conference on Transparent Optical Networks , ICTON 2025 ; Conference date: 06-06-2025 Through 10-06-2025",

url = "https://icton2025.upc.edu/",

}

Spectral Aggregation of Turbulence-Resilient FSO Links as Feeders for Capillary Access Networks. / Schrenk, Bernhard (Speaker); Honz, Florian.
Proceedings of 25th Anniversary International Conference on Transparent Optical Networks ICTON 2025 . 2025. We.C2.4.

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Oral Presentation › peer-review

TY - GEN

T1 - Spectral Aggregation of Turbulence-Resilient FSO Links as Feeders for Capillary Access Networks

AU - Honz, Florian

A2 - Schrenk, Bernhard

PY - 2025

Y1 - 2025

N2 - Free-space optical (FSO) communication provides fibre-grade connectivity even in fibre-scarce environments. As such, it is an ideal candidate to trunk capillary radio networks in the far-access segment. However, FSO links are prone to degradation due to misalignment and atmospheric effects. In response to this, we leverage optical antenna configurations with up to 91 elements as FSO air-interfaces that accomplish alignment-tolerant and turbulence-resilient coupling between two single-mode fibre ports. Despite exploiting the spectral domain to achieve a greatly simplified yet spectrally inefficient implementation for diversity reception, we prove that a total of up to eight FSO links at the access segment can be jointly and transparently fed over a single C-band aggregation link.

AB - Free-space optical (FSO) communication provides fibre-grade connectivity even in fibre-scarce environments. As such, it is an ideal candidate to trunk capillary radio networks in the far-access segment. However, FSO links are prone to degradation due to misalignment and atmospheric effects. In response to this, we leverage optical antenna configurations with up to 91 elements as FSO air-interfaces that accomplish alignment-tolerant and turbulence-resilient coupling between two single-mode fibre ports. Despite exploiting the spectral domain to achieve a greatly simplified yet spectrally inefficient implementation for diversity reception, we prove that a total of up to eight FSO links at the access segment can be jointly and transparently fed over a single C-band aggregation link.

M3 - Conference Proceedings with Oral Presentation

BT - Proceedings of 25th Anniversary International Conference on Transparent Optical Networks ICTON 2025

T2 - 25th International Conference on Transparent Optical Networks

Y2 - 6 June 2025 through 10 June 2025

ER -

Spectral Aggregation of Turbulence-Resilient FSO Links as Feeders for Capillary Access Networks

Abstract

Conference

Research Field

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