%0 Journal Article %1 noauthororeditor %A Redouane, Berber %A Fatima, Bouasria %A Mohammed, Chetioui %A Mehdi, Damou %A Abdelhakim, Boudkhil %D 2022 %J International Journal of Computer Networks & Communications (IJCNC) %K (SDD) Code Detection Dimension Hybrid Link MD NZCC Optical SAC-OCDMA Spectral/Spatial Systems Two-dimensional %N 02 %P 61-75 %R 10.5121/ijcnc.2022.14204 %T A High Performance Hybrid Two Dimensional Spectral/Spatial NZCC/MD Code for SAC-OCDMA Systems with SDD Detection %U https://aircconline.com/ijcnc/V14N2/14222cnc04.pdf %V 14 %X This paper proposes a new technique to construct a hybrid zero cross-correlation (NZCC) based on multiple diagonal (MD) code for two-dimensional (2D) spectral amplitude coding for optical code division multiple access code division multiple access (SAC-OCDMA) systems. The proposed hybrid code eliminates totally the multiple access interference (MAI) between a large number of users and allows them to connect simultaneously via the optical communication link with a high speed to receive huge data and serve various areas such as Internet, telephony, DAB radio, digital audio broadcasting, and DVB video. Simulation results demonstrate that the performance of such a SAC-OCDA system based on novel 2D hybrid NZCC/MD code can be easily improved keeping a less complex structure using couplers for direct spectral/spatial dimension (SDD) detection and show superior bit error rate (BER) values comparing to previously developed two-dimensional codes including perfect difference (2D-PD), diagonal Eigen-value units (2D-DEU), multi-service (2D-MS) and balanced incomplete block design (2D-BIBD) codes.

@article{noauthororeditor, abstract = {This paper proposes a new technique to construct a hybrid zero cross-correlation (NZCC) based on multiple diagonal (MD) code for two-dimensional (2D) spectral amplitude coding for optical code division multiple access code division multiple access (SAC-OCDMA) systems. The proposed hybrid code eliminates totally the multiple access interference (MAI) between a large number of users and allows them to connect simultaneously via the optical communication link with a high speed to receive huge data and serve various areas such as Internet, telephony, DAB radio, digital audio broadcasting, and DVB video. Simulation results demonstrate that the performance of such a SAC-OCDA system based on novel 2D hybrid NZCC/MD code can be easily improved keeping a less complex structure using couplers for direct spectral/spatial dimension (SDD) detection and show superior bit error rate (BER) values comparing to previously developed two-dimensional codes including perfect difference (2D-PD), diagonal Eigen-value units (2D-DEU), multi-service (2D-MS) and balanced incomplete block design (2D-BIBD) codes.}, added-at = {2022-04-27T09:15:25.000+0200}, author = {Redouane, Berber and Fatima, Bouasria and Mohammed, Chetioui and Mehdi, Damou and Abdelhakim, Boudkhil}, biburl = {https://www.bibsonomy.org/bibtex/2f9726ea3274ba3d073df051ba6b265eb/laimbee}, doi = {10.5121/ijcnc.2022.14204}, interhash = {55a379f682f7bde329e1d4084a3e5d9f}, intrahash = {f9726ea3274ba3d073df051ba6b265eb}, issn = {ISSN 0974 - 9322 (Online) ; 0975 - 2293 (Print)}, journal = {International Journal of Computer Networks & Communications (IJCNC)}, keywords = {(SDD) Code Detection Dimension Hybrid Link MD NZCC Optical SAC-OCDMA Spectral/Spatial Systems Two-dimensional}, language = {English}, month = {March}, number = 02, pages = {61-75}, timestamp = {2022-04-27T09:15:25.000+0200}, title = {A High Performance Hybrid Two Dimensional Spectral/Spatial NZCC/MD Code for SAC-OCDMA Systems with SDD Detection}, url = {https://aircconline.com/ijcnc/V14N2/14222cnc04.pdf}, volume = 14, year = 2022 }