Two-dimensional optical data transmission with space-time conversion combined with code division multiple access

Hiroshi Tanabe; Fumihiko Kannari

doi:10.1007/s10043-002-0100-6

Two-dimensional optical data transmission with space-time conversion combined with code division multiple access

Hiroshi Tanabe, Fumihiko Kannari

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

3 Citations (Scopus)

Abstract

A new scheme for two-dimensional parallel data transmission with a femtosecond laser pulse through a single-mode fiber, which is based upon one-dimensional space-time conversion technique in conjunction with code division multiple access (CDMA), is implemented and numerically demonstrated. Since many one-dimensional spatial data, which are encoded with their own M-sequence code, must be embedded in a single pulse, the bit-error rate performance degrades compared with conventional CDMA driven by many unsynchronized pulses. Still, two-dimensional digital images in a 16bits × 16 bits plane (256-bits parallel data) are successfully transmitted by a single femtosecond laser pulse at an equivalent transmission rate of 1.6 Tbit/s and recovered by spectral holography.

Original language	English
Pages (from-to)	100-105
Number of pages	6
Journal	Optical Review
Volume	9
Issue number	3
DOIs	https://doi.org/10.1007/s10043-002-0100-6
Publication status	Published - 2002 Jan 1

Keywords

Femtosecond laser
Image transmission
Optical CDMA
Pulse shaping
Spectral holography

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

Access to Document

10.1007/s10043-002-0100-6

Cite this

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title = "Two-dimensional optical data transmission with space-time conversion combined with code division multiple access",

abstract = "A new scheme for two-dimensional parallel data transmission with a femtosecond laser pulse through a single-mode fiber, which is based upon one-dimensional space-time conversion technique in conjunction with code division multiple access (CDMA), is implemented and numerically demonstrated. Since many one-dimensional spatial data, which are encoded with their own M-sequence code, must be embedded in a single pulse, the bit-error rate performance degrades compared with conventional CDMA driven by many unsynchronized pulses. Still, two-dimensional digital images in a 16bits × 16 bits plane (256-bits parallel data) are successfully transmitted by a single femtosecond laser pulse at an equivalent transmission rate of 1.6 Tbit/s and recovered by spectral holography.",

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AU - Tanabe, Hiroshi

AU - Kannari, Fumihiko

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N2 - A new scheme for two-dimensional parallel data transmission with a femtosecond laser pulse through a single-mode fiber, which is based upon one-dimensional space-time conversion technique in conjunction with code division multiple access (CDMA), is implemented and numerically demonstrated. Since many one-dimensional spatial data, which are encoded with their own M-sequence code, must be embedded in a single pulse, the bit-error rate performance degrades compared with conventional CDMA driven by many unsynchronized pulses. Still, two-dimensional digital images in a 16bits × 16 bits plane (256-bits parallel data) are successfully transmitted by a single femtosecond laser pulse at an equivalent transmission rate of 1.6 Tbit/s and recovered by spectral holography.

AB - A new scheme for two-dimensional parallel data transmission with a femtosecond laser pulse through a single-mode fiber, which is based upon one-dimensional space-time conversion technique in conjunction with code division multiple access (CDMA), is implemented and numerically demonstrated. Since many one-dimensional spatial data, which are encoded with their own M-sequence code, must be embedded in a single pulse, the bit-error rate performance degrades compared with conventional CDMA driven by many unsynchronized pulses. Still, two-dimensional digital images in a 16bits × 16 bits plane (256-bits parallel data) are successfully transmitted by a single femtosecond laser pulse at an equivalent transmission rate of 1.6 Tbit/s and recovered by spectral holography.

KW - Femtosecond laser

KW - Image transmission

KW - Optical CDMA

KW - Pulse shaping

KW - Spectral holography

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Two-dimensional optical data transmission with space-time conversion combined with code division multiple access

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Keywords

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