@inproceedings{scholars954, note = {cited By 16; Conference of 7th International Symposium on High-Capacity Optical Networks and Enabling Technologies, HONET 2010 ; Conference Date: 19 December 2010 Through 21 December 2010; Conference Code:84194}, year = {2010}, doi = {10.1109/HONET.2010.5715759}, journal = {7th International Symposium on High-Capacity Optical Networks and Enabling Technologies, HONET 2010}, title = {LED spectrum slicing for ZCC SAC-OCDMA coding system}, address = {Cairo}, pages = {128--132}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-79952746383&doi=10.1109\%2fHONET.2010.5715759&partnerID=40&md5=36e78cd5e91f64b3dc54044196220d7a}, keywords = {Average bit-error rates; Broadband sources; CDMA system; Coding system; Cross correlations; Direct-detection; Optical Code Division (OCDMA); Optical code division multiple access; Optical elements; Received power; Spectral encoding; Spectrum slicing; Zero Cross-correlation (ZCC), Bit error rate; Diodes; Encoding (symbols); Fiber optic networks; Light emission; Light emitting diodes; Multiple access interference; Optical communication; Optical correlation; Radio interference, Code division multiple access}, abstract = {In this paper we propose a Zero Cross-correlation (ZCC) code in Optical Code Division Multiple Access (OCDMA) CDMA system based on amplitude spectral encoding of low-cost broadband sources such as Light Emitting Diode (LED). We also study how the sliced spectrum of LED can be used as a costeffective light source in ZCC code. Our system requires only standard optical elements and simple direct-detection receivers. We show that for number of weight = 4, up to 100 users can transmit asynchronously with an average bit error rate equal to 10-9. This ZCC code also demonstrates that BER of 10-9 can be achieved within the minimum received power of -25.5 dBm. {\^A}{\copyright} 2010 IEEE.}, author = {Anuar, M. S. and Aljunid, S. A. and Arief, A. R. and Saad, N. M.}, isbn = {9781424499243} }