Abstract
The probability of packet error for Multi-Carrier CDMA system with maximum ratio combining diversity is evaluated and compared in the slow and fast correlated Nakagami fading plus multiple access interference channel. From the results, the probability of packet error in fast fading is higher than that in slow fading, and the difference of packet error probability between the fast fading and slow fading diminishes with Nakagami fading parameter approaching infinity. When the error correction coding technique is used, it is observed that coding technique for Multi-Carrier CDMA system is more effective in the fast fading case than that in the slow fading case.
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References
J. G. Proakis, Digital Communications: New York, McGraw-Hill, 2001.
T. Yamazaki and H. Yashima, “A modeling for multipath fading channel using a Gilbert model in coded multicarrier transmission,” Proc. IEEE Region 10 International Conference on Electrical and Electronic Technology, pp. 565–570, 2001.
Y. D. Yao, T. Le-Ngoc, and U. H. Sheik, “Block error probabilities in a Nakagami fading-channel,” IEEE Trans., on Commun., vol. COM-29, pp, 130–133, 1993.
V. A. Aalo, “Performance of maximal-ratio diversity systems in a correlated Nakagami-fading environment,” IEEE Trans., on Commun, vol. COM-43, pp, 2360–2369, Aug. 1995.
V. Aalo, G. Efthymoglou, and H. Helmken, “Path diversity performance of a DS-CDMA based land-mobile satellite system in a shadowed Rician-fading channel,” Wireless Communication-96, pp. 133–140, 1996.
A. S. Akki, “Negatively correlated diversity branches using various modulation methods and maximal combining,” IEEE Trans., on Commun, vol. COM-33, pp, 1323–1326, Dec. 1985.
T. F Ho, “Performance evaluation for multi-carrier CDMA system,” Proc. IEEE VTC’96,pp. 1101–1105, 1996.
R. E. Eaves and A. H. Levesque, “Probability of block error for very slow Rayleigh fading in Gaussian noise,” IEEE Trans., on Commun, vol. COM-25, pp. 368–373, Mar. 1977.
C. E. Sundberg, “Block error probability for noncoherent FSK with diversity for very slow Rayleigh fading in Gaussian noise,” IEEE Trans., on Commun, vol. COM-29, pp. 57–60, Jan. 1981.
L. H. C. Lee, Error-Control Block Codes for Communications Engineers, Artech House, 2000.
F. Adachi and K. Ohno, “Block error probability for noncoherent FSK with diversity reception in mobile radio,” Electron. Lett., vol. 24, pp. 1523–1525, Nov. 1988.
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© 2002 Springer-Verlag Berlin Heidelberg
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Roh, JS., Oh, CH., Kang, HJ., Cho, SJ. (2002). Packet Error Probability of Multi-carrier CDMA System in Fast/Slow Correlated Fading Plus Interference Channel. In: Shafazand, H., Tjoa, A.M. (eds) EurAsia-ICT 2002: Information and Communication Technology. EurAsia-ICT 2002. Lecture Notes in Computer Science, vol 2510. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-36087-5_43
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DOI: https://doi.org/10.1007/3-540-36087-5_43
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