Error probability upper bound for perfect sequences implemented with super-structured fibre Bragg gratings

The success of coherent optical code-division multiple-access (OCDMA) systems is strongly dependent on the optical encoder/decoder technology and on the selection of the correct OCDMA codes/sequences. For this reason, in this study, the authors present a method to implement perfect sequences with Su...

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Published inIET signal processing Vol. 8; no. 4; pp. 421 - 428
Main Authors Pereira, João S, da Silva, Henrique J.A
Format Journal Article
LanguageEnglish
Published Stevenage The Institution of Engineering and Technology 01.06.2014
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Abstract The success of coherent optical code-division multiple-access (OCDMA) systems is strongly dependent on the optical encoder/decoder technology and on the selection of the correct OCDMA codes/sequences. For this reason, in this study, the authors present a method to implement perfect sequences with Super-Structured Fibre Bragg Gratings (SSFBGs). A new SSFBG power reflection model has been found. They have also derived a property that explains why the SSFBGs should use codes derived from m-sequences. Usually, OCDMA researchers try many different codes into SSFBGs in order to select the SSFBG encoders that result in lower error probability. In the authors work, they show that a SSFBG can be considered to be a perfect sequence encoder. For this reason, the codes written into the SSFBGs should be selected based on their new property. This property permits to design and select quickly the correct codes with low power contrast ratios. In addition, a new error probability upper bound, which is a function of the code family and of its power contrast ratio is also presented. With this new bound, it is not necessary to use an optical simulator to estimate the maximum bit error rate of an OCDMA system, if some power contrast ratios of the selected SSFBG code set are known.
AbstractList The success of coherent optical code-division multiple-access (OCDMA) systems is strongly dependent on the optical encoder/decoder technology and on the selection of the correct OCDMA codes/sequences. For this reason, in this study, the authors present a method to implement perfect sequences with Super-Structured Fibre Bragg Gratings (SSFBG). A new SSFBG power reflection model has been found. They have also derived a property that explains why the SSFBGs should use codes derived from m-sequences. Usually, OCDMA researchers try many different codes into SSFBGs, in order to select the SSFBG encoders that result in lower error probability. In the authors work, they show that, a SSFBG can be considered to be a perfect sequence encoder. For this reason, the codes written into the SSFBGs should be selected based on their new property. This property permits to design and select quickly the correct codes with low power contrast ratios. In addition, a new error probability upper bound, which is a function of the code family and of its power contrast ratio is also presented.
The success of coherent optical code-division multiple-access (OCDMA) systems is strongly dependent on the optical encoder/decoder technology and on the selection of the correct OCDMA codes/sequences. For this reason, in this study, the authors present a method to implement perfect sequences with Super-Structured Fibre Bragg Gratings (SSFBGs). A new SSFBG power reflection model has been found. They have also derived a property that explains why the SSFBGs should use codes derived from m-sequences. Usually, OCDMA researchers try many different codes into SSFBGs in order to select the SSFBG encoders that result in lower error probability. In the authors work, they show that a SSFBG can be considered to be a perfect sequence encoder. For this reason, the codes written into the SSFBGs should be selected based on their new property. This property permits to design and select quickly the correct codes with low power contrast ratios. In addition, a new error probability upper bound, which is a function of the code family and of its power contrast ratio is also presented. With this new bound, it is not necessary to use an optical simulator to estimate the maximum bit error rate of an OCDMA system, if some power contrast ratios of the selected SSFBG code set are known.
Author da Silva, Henrique J.A
Pereira, João S
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Issue 4
Keywords OCDMA codes
codes
optical fibres
SSFBG code set
optical fibre communication
OCDMA sequences
code division multiple access
bit error rate
error probability upper bound
super-structured fibre Bragg gratings
Bragg gratings
optical decoder technology
power contrast ratios
OCDMA systems
SSFBG encoders
optical encoder technology
SSFBG power reflection model
code division multiplexing
perfect sequence encoder
coherent optical code-division multiple-access systems
perfect sequences
error statistics
Error probability
M-sequences
Bit error rate
Optical telecommunication
Coding circuit
Wireless telecommunication
Bragg grating
Grating in fiber
Implementation
Angular measurement
Upper bound
Codec
Code division multiple access
Low-power electronics
Simulator
Optical fiber
Language English
License CC BY 4.0
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Snippet The success of coherent optical code-division multiple-access (OCDMA) systems is strongly dependent on the optical encoder/decoder technology and on the...
The success of coherent optical code‐division multiple‐access (OCDMA) systems is strongly dependent on the optical encoder/decoder technology and on the...
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wiley
iet
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StartPage 421
SubjectTerms Applied sciences
bit error rate
Bragg gratings
code division multiple access
code division multiplexing
Coders
codes
Coding, codes
coherent optical code‐division multiple‐access systems
Design engineering
Encoders
error probability upper bound
error statistics
Exact sciences and technology
Fibre
Information, signal and communications theory
OCDMA codes
OCDMA sequences
OCDMA systems
optical decoder technology
optical encoder technology
optical fibre communication
optical fibres
perfect sequence encoder
perfect sequences
Permissible error
power contrast ratios
Reflection
Signal and communications theory
SSFBG code set
SSFBG encoders
SSFBG power reflection model
super‐structured fibre Bragg gratings
Telecommunications and information theory
Upper bounds
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Title Error probability upper bound for perfect sequences implemented with super-structured fibre Bragg gratings
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