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Optical Code Construction of 2D Spectral/Spatial BIBD Codes for SAC-OCDMA Systems

Teena Sharma, Abdellah Chehri, Paul Fortier, Hassan Yousif Ahmed, Medien Zeghid, Waqas A. Imtiaz

2021Applied Sciences19 citationsDOIOpen Access PDF

Abstract

Optical code division multiple access (OCDMA) shows limitations in terms of the inefficient bandwidth utilization and low spectral density with one-dimensional (1D) codes. To overcome these limitations, a novel design is presented using a two dimensional (2D) spectral/spatial multiwavelength coding scheme. The proposed code is constructed using a 1D balanced incomplete block design (BIBD) technique. Theoretical and analytical results indicate that the proposed code provided improvement in the number of simultaneous users, code construction, and cross-correlation and minimized noise. Moreover, the bandwidth requirements can be minimized, and it can provide flexibility in addressing code sequences. Finally, results were compared with existing spectral-spatial 2D codes such as diagonal eigenvalue unity (DEU) and 2D diluted perfect difference (DPD). It was observed that the 2D-BIBD code fulfilled optical transmission needs with minimum effective source power (Psr = −27.5 dBm) when compared to 2D-DEU (−26.5 dBm) and 2D-DPD (−25.5 dBm) codes. Overall, our results suggested that the performance of BER for the proposed code was 72% and 22% higher than the existing 2D-DPD and 2D-DEU codes, respectively.

Topics & Concepts

Computer scienceElectronic engineeringDiagonalCode (set theory)Bandwidth (computing)Code division multiple accessAlgorithmTelecommunicationsMathematicsEngineeringGeometrySet (abstract data type)Programming languagegraph theory and CDMA systemsCoding theory and cryptographyMultiple Myeloma Research and Treatments
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