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In this paper, orthogonal/turbo-codes for mobile DS-CDMA communications are considered. We compare the performances of turbo-codes with those of convolutional codes for noncoherent M-ary orthogonal modulation in multipath fading channels. One method to calculate the branch transition probability of turbo-codes is suggested.By using the parameter of cut-off rate capacity efficiency, 1/2/5 (37,21) turbo-codes are more efficient for 1/3/9(557,663,711) convolutional codes. Given the same spread gain, turbo-codes will increase system’s capacity.If SOVA is used in the decoding for turbo-codes case, the dime-delay caused by turbo-decoding is only 1.2 times of that of convolutional codes. Obviously, turbo-codes show better performances at the cost of the hardware complexity of the encoder and the decoder.
In this paper, orthogonal / turbo-codes for mobile DS-CDMA communications are considered. We compare the performances of turbo-codes with those of convolutional codes for noncoherent M-ary orthogonal modulation in multipath fading channels. One method to calculate the branch transition probability of turbo-codes is suggested. By using the parameter of cut-off rate capacity efficiency, 1/2/5 (37,21) turbo-codes are more efficient for 1/3/9 (557,663,711) convolutional codes. Given the same spread gain, turbo-codes will increase system’s capacity. If SOVA is used in the decoding for turbo-codes case, the dime-delay caused by turbo-decoding is only 1.2 times of that of convolutional codes. Obviously, turbo-codes show better performances at the cost of the hardware complexity of the encoder and the decoder.