Abstract

In this paper, we discuss and analyze an optical code division multiple access for multiple user system. Media access control implementation has been considered. For fulfilling the huge need of bandwidth services, technology tends to move to optical networks and three major optical systems come into existence. Code division of the optical network is most used and real concept interacted with users up to this time. Optical code division multiple access provides complete spectrum to each and every user for the time of accessing the channel. In the paper, we have proposed network architecture with optical encoder and decoder along with optical code translator which is supporting multiple user systems. We integrate the code translator with encoding and decoding of optical code to use the optical network at full extent and present the simulation validation results of 6 Gb/s 3-hop transmission by use of proposed architecture. Further, we have implemented experimentation with 6 users 3 Gb/s optical code division multiple access network. Through simulation structure, it is shown that the combination of encoding with EDFA in multiple user environment system provides improvement in bit error rate and also improves the multiple access interference. With increase of users in the network, MAI value increases and our proposed scheme controls interference in the network.

Highlights

  • Modern Communication is intended to achieve greater heights for providing best services to the users

  • Optical networks are the main focus in context of optical code division multiple access technique based on optical networks

  • The brief summary of analysis of Optical code division multiple access (OCDMA) network and brief results have been done

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Summary

Introduction

Modern Communication is intended to achieve greater heights for providing best services to the users. OCDMA is a spreading technique based on the concept of assigning codes to each user in a fiber optic communication network [2,3]. Codes for OCDMA have to be unipolar, orthogonal (minimum cross-correlation) and constant weight in nature to obtain low values of the bit error rate due to multiple access interference (MAI) [3].

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Conclusion

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