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http://dx.doi.org/10.3807/COPP.2019.3.6.531

Simulative Investigation of Spectral Amplitude Coding Based OCDMA System Using Quantum Logic Gate Code with NAND and Direct Detection Techniques  

Sharma, Teena (Department of Electronics and Communication, Malviya National Institute of Technology)
Maddila, Ravi Kumar (Department of Electronics and Communication, Malviya National Institute of Technology)
Aljunid, Syed Alwee (School of Computer and Communication Engineering, University Malaysia Perlis, (UniMAP))
Publication Information
Current Optics and Photonics / v.3, no.6, 2019 , pp. 531-540 More about this Journal
Abstract
Spectral Amplitude Coding Optical Code Division Multiple Access (SAC OCDMA) is an advanced technique in asynchronous environments. This paper proposes design and implementation of a novel quantum logic gate (QLG) code, with code construction algorithm generated without following any code mapping procedures for SAC system. The proposed code has a unitary matrices property with maximum overlap of one chip for various clients and no overlaps in spectra for the rest of the subscribers. Results indicate that a single algorithm produces the same length increment for codes with weight greater than two and follows the same signal to noise ratio (SNR) and bit error rate (BER) calculations for a higher number of users. This paper further examines the performance of a QLG code based SAC-OCDMA system with NAND and direct detection techniques. BER analysis was carried out for the proposed code and results were compared with existing MDW, RD and GMP codes. We demonstrate that the QLG code based system performs better in terms of cardinality, which is followed by improved BER. Numerical analysis reveals that for error free transmission (10-9), the suggested code supports approximately 170 users with code weight 4. Our results also conclude that the proposed code provides improvement in the code construction, cross-correlation and minimization of noises.
Keywords
SAC OCDMA; Quantum logic gate; Detection technique; Phase induced intensity noise;
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