G. Wu, A. Jalali, and P. Mermelstein. On Channel Model Parameters for Microcellular CDMA Systems. IEEE Transactions on Vehicular Technology, 44:706-- 711, August 1995.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....0000 1001 13 19 0000 0000 1100 2.5 29.5 0000 1011 13.5 18.5 0000 0000 1010 230 0000 111 14 18 0000 0000 1000 1.5 30.5 0001 1 14.5 17.5 0000 0000 0110 131 0011 15 17 0000 0000 0100 0. 5 31.5 011 15.5 16.5 0000 0000 0011 0 flat Rayleigh fading channel is assumed [6]. At the receiver, the received signal is inverse quantized, and decoded by IDCT (InverseDCT) and the original image is reconstructed. 2.2 Multicode CDM The proposed system is shown in Fig. 2. If the maximum bit length of the VLC is M, M spreading codes are assigned to the transmitter. ....

....the same quantizer number is utilized for both of them. The MC has a half pixel precision. The number of spreading codes is 13 as the maximum bit length of the codeword for MV is 13 bits. Synchronization sequence is inserted between frames. For the simulation flat Rayleigh fading is assumed [6]. The ideal interleaving is also assumed. This implies that there is no correlation between the received bits. This assumption is justified if a large interleaver is employed as the frame rate of the image is much lower than the data rate. The noise is added only on the signals for MVs. The number ....

G. Wu, A. Jalai, and P. Mermelstein, "On channel model parameters for microcellular CDMAsyAq054 IEEE Trans. Vehi. Tech., vol.44, no.3, pp.706--711, Aug. 1995.

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G. Wu, A. Jalali, and P. Mermelstein. On Channel Model Parameters for Microcellular CDMA Systems. IEEE Transactions on Vehicular Technology, 44:706-- 711, August 1995.

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