Cable television transmission over a 1550-nm infrared indoor optical wireless link

M. I. Sakib Chowdhury; Mohsen Kavehrad; Weizhi Zhang

doi:10.1117/1.OE.52.10.100503

Cable television transmission over a 1550-nm infrared indoor optical wireless link

M. I. Sakib Chowdhury, Mohsen Kavehrad, Weizhi Zhang

Materials Research Institute (MRI)

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

We experimentally demonstrate transmission of cable television (CATV) radio frequency signals over a pointed indoor optical wireless link. The length of the optical link was 15 m. Collimators used at both the transmitter and the receiver sides required good alignment before sufficient optical power could be received. The system was placed at a height of 2 m, which is more than average human height, so human movements throughout the room did not obstruct the link. The optical wireless propagation path was almost lossless. The originality in this experimental demonstration is the transmission of full range of CATV signals compared to other works in this area. This experiment of radio over free-space optics showed that point-to-point indoor optical wireless links can be utilized as an alternative means for transmission of multimedia data.

Original language	English (US)
Article number	100503
Journal	Optical Engineering
Volume	52
Issue number	10
DOIs	https://doi.org/10.1117/1.OE.52.10.100503
State	Published - 2013

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics
Engineering(all)

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10.1117/1.OE.52.10.100503

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title = "Cable television transmission over a 1550-nm infrared indoor optical wireless link",

abstract = "We experimentally demonstrate transmission of cable television (CATV) radio frequency signals over a pointed indoor optical wireless link. The length of the optical link was 15 m. Collimators used at both the transmitter and the receiver sides required good alignment before sufficient optical power could be received. The system was placed at a height of 2 m, which is more than average human height, so human movements throughout the room did not obstruct the link. The optical wireless propagation path was almost lossless. The originality in this experimental demonstration is the transmission of full range of CATV signals compared to other works in this area. This experiment of radio over free-space optics showed that point-to-point indoor optical wireless links can be utilized as an alternative means for transmission of multimedia data.",

author = "{Sakib Chowdhury}, {M. I.} and Mohsen Kavehrad and Weizhi Zhang",

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AU - Sakib Chowdhury, M. I.

AU - Kavehrad, Mohsen

AU - Zhang, Weizhi

N1 - Funding Information: This work was supported by the US National Science Foundation Award # 1201636.

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AB - We experimentally demonstrate transmission of cable television (CATV) radio frequency signals over a pointed indoor optical wireless link. The length of the optical link was 15 m. Collimators used at both the transmitter and the receiver sides required good alignment before sufficient optical power could be received. The system was placed at a height of 2 m, which is more than average human height, so human movements throughout the room did not obstruct the link. The optical wireless propagation path was almost lossless. The originality in this experimental demonstration is the transmission of full range of CATV signals compared to other works in this area. This experiment of radio over free-space optics showed that point-to-point indoor optical wireless links can be utilized as an alternative means for transmission of multimedia data.

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Cable television transmission over a 1550-nm infrared indoor optical wireless link

Abstract

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