Performance analysis of M-ary orthogonal signaling in fiber-optic CDMA communication system

The concept of a multiwa¨elength was recently introduced in order to support a large number of simultaneous users in optical ( ) code-di¨ision multiple-access CDMA networks without the need for complicated optical signal processing. A number of multiwa¨elength ( ) optical orthogonal codes MWOOC ha¨e

This paper presents a coded modulation scheme based on M-ary orthogonal modulation by means of Walsh-Hadamard (WH) sequences, suitable for low-earth-orbit (LEO) direct sequence/code division multiple access (DS/CDMA) satellite communication systems. Based on the IS-95 scheme, we consider Reed-Solomo

E-and H-plane coupling. It is noted that the presented formula gives a close approximation to the measured mutual coupling characteristic; it is not computationally intensive, allowing it to be directly used in a CAD circuit simulation package. A knowledge of the mutual coupling characteristics, at

We ecaluated the performance of transmission systems operating at 1.3 p m in linkz encompassing standard single-mode jibers and in-line semiconductor optical ampl$ers. Intensity-and polarized-modulated .systems are compared in terms of Q factor for soliton and NRZ signals at different bit rates and

Figure 3 Comparison of computed and reconstructed normalized Ž . Ž . electric field with SNR s 20 dB. a Real part, b imaginary part with SNR s 20 dB have no significant difference with the computed results in the frequency band 1᎐100 GHz, as shown in Figure 3. Therefore, the scattering model obtain