JISE


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Journal of Information Science and Engineering, Vol. 33 No. 2, pp. 429-444


Performance Analysis of Diagonal Permutation Shifting (DPS) Codes for SAC-OCDMA Systems


HASSAN YOUSIF AHMED1,+, ZAKARIA MUKHTAR GHARSSELDIEN2
AND SYED ALWEE ALJUNID
3
1
Electrical Engineering Department
College of Engineering at Wadi Aldawaser

2Mathematical Department
College of Art and Science
Prince Sattam Bin Abdulaziz University
Riyadh Region, 11991 Kingdom of Saudi Arabia

3School of Computer and Communication Engineering
Universiti Malaysia
Perlis, 02600 Malaysia

+E-mail: hassanuofg@gmail.com


    Due to the large bandwidth offered by the optical fiber, its implementation in local area network (LAN) where the traffic is typically bursty could be considered as the strongest candidates for the future high speed optical networks if coding technique is used. This paper presents a new code family named, diagonal permutation shifting (DPS) for spectral amplitude coding-optical code division multiple access (SAC-OCDMA) systems with fixed in-phase cross correlation (CC) and short code length. DPS code derived from well-known prime codes and some matrix operations. The results reveal that the DPS code acts effectively in removing multiple access interface (MAI) and mitigate phase induced intensity noise (PIIN) impact with an adequate signal to interference plus-noise ratio (SINR) and low bit error rate (BER). It has been shown that the DPS code family can suppress intensity noise effectively and improve the system performance significantly.  


Keywords: DPS, SAC, OCDMA, MAI, fiber optics

  Retrieve PDF document (JISE_201702_09.pdf)