Optical Code Division Multiple Access (OCDMA) has bright future in communication because of its faster speed, efficiency, security and unlimited bandwidth. A Zero Cross-Correlation (ZCC) code is analyze to reduce the impact of system impairment and Multiple Access Interference (MAI) in Spectral Amplitude Coding Optical Code Division Multiple Access (SAC–OCDMA) system. The effective OCDMA system is the choice of efficient address codes with good or almost ZCC properties for encoding the source. This paper focusing on the study of ZCC code design with code most important zero cross-correlation property and analyze its performance compared using different two photo detectors. The result shows that ZCC code gives bit error rate of 10-9 at distance of 60km for 10 number of user and 5 numbers of user with data rate of 10Gbps at 100km respectively with different wavelengths at different windows. It also shows using the ZCC code leads to simplicity in system design, cost effective, reduce the MAI and PIIN noises through the zero cross correlation property. The simulation result analyzed in optisystem 13.0. The result indicates that the established system not only preserves the capability of suppressing MAI, but also improves bit error-rate performance as compared to the conventional coders.

Kun Qiu, Chongfu Zhang, Optics Communications 272 (2) (2007) 336.

Kerim Fouli, Martin Maier, IEEE Communication Magazine (2007) 27.

S.A. Aljunid , M.S. Anuar , N.M. Saad , S.M. Hamzah ,Newdesign of spectral amplitude coding in OCDMA with zero cross correlation,optics communication 282 (2009)2659-2664.

Anuar Mat Safar, Syed Alwee Aljunid, Amir Razif Arief JamilAbdullah, Junita Mohd Nordin, Mohamad Naufal Mohamad Saad, Enhancement of Zero Cross Correlation Code for Optical CDMA Network System,ICCIT 2012.

Vishav Jyoti, R.S. Kaler, Design and implementation of 2-dimensional wavelength/time codes for OCDMA, Optik 122(2011) 851–857.

Vishav Jyoti, R.S. Kaler, Design and implementation of 2-dimensional wavelength/time codes for OCDMA, Optik 122(2011) 851–857.

Thanaa Hussein Abd,S. A. Aljunid, Hilal Adnan Fadhil,M. N.Junita and N. M. Saad, Modelling and simulation of a 1.6 Tb/soptical system based on multi-diagonal code and optical code division multiple-access, Ukr, J,Phys,Opt 2012 ,Vol13 ,No2.

Kuldeepak Singh,Dr. Manjit Singh Bhamrah, Investigation of Transmitted Power in Intersatellite Optical Wireless Communication,IRACST, ISSN:2249-9555,Vol. 2, No 3, June 2012.

Irfan Ali ,Bit-Error-Rate (BER) Simulation Using MATLAB Irfan Ali, Irfan Ali / International Journal of Engineering Research and Applications (IJERA) ISSN: 2248-9622,www.ijera.com Vol. 3, Issue 1, January-February 2013,pp. 706-711

Hilal Adnan Fadhil , S.A. Aljunid, R.B. Ahmad,Performance of random diagonal code for OCDMA systems using new spectral direct detection technique, Optical Fiber Technology 15 (2009) 283–289.

Z. Wei, H. Ghafouri-Shiraz, IEEE Transactions on Communication 50 (8) (2002)1209.

Zou Wei, H. Ghafouri-Shiraz, Journal of Lightwave Technology 20 (2002)1284.

X. Wang, in: Seventh IEEE International Conference on Optoelectronics, FiberOptics and Photonics (Photonics 2004) (Invited Paper), December 2004.

E.I. Babekir et al., in: Wireless and Optical Communications Networks, 2007, WOCN’07, July 2007.

Lei Xu, I. Glesk, V. Baby, P.R. Prucnal, Multiple access interference (MAI) noise reduction in a 2D optical CDMA system using ultrafast optical thresholding,in: 17th Annual Meeting of the IEEE, vol. 2, November 8–9, 2004, Lasers and Electro-Optics Society, 2004, pp. 591–592.

Jen-Fa Huang, Chao-Chin Yang, Reductions of multiple-access interference in fiber-grating-based optical CDMA network,IEEE Trans. Commun. 50 (10) (2002) 1680–1687.

R.C. Dixon, Spread Spectrum Systems with Commercial Applications, John Wiley & Sons, New York, 1994.[4]

Hilal Fadhil, Syed Aljunid, and Badlished Ahmed,Performance of OCDMA Systems Using Random Diagonal Code for Different Decoders Architecture Schemes,The InternationalArab Journal of Information Technology, Vol. 7, No. 1, January2010.

J.A. Salehi, Code division multiple-access techniques in opticalfiber networks.Part I. Fundamental principles, IEEE Trans.Commun. 37 (8) (1989)824–833.

J. Shah, Optical CDMA, Opt. Photon. News 14 (2003) 42–47.

I.B. Djordjevic, B. Vasic, Combinatorial constructions of optical orthogonalcodes for OCDMA systems, IEEE Commun. Lett.8 (6) (2004).

H. Yin, Optical Code Division Multiple Access Communication Networks Theory and Application, Springer Link, 2009.

H.A. Fadhil, S.A.Aljunid, R.B.Ahmad, Design considerations of high performance optical CDMA: a new spectral amplitude codebased on laser and LED light source IET Opto electronicsJournal, vol. 4, The Institution of Engineering and Technology,UK, 2010, pp. 29–34.