Information Technology Reference
In-Depth Information
FH sequences is proposed. It is shown that the new FH sequences set is an
optimal average Hamming correlation family. Moreover, it is shown that the
power residue FH sequence set C ( p , k ) is an optimal maximum Hamming cor-
relation family and a one-coincidence FH sequence family under the condition
that gcd( p
1, k )=1.
References
1. Fan, P.Z., Darnell, M.: Sequence Design for Communications Applications. Re-
search Studies Press, John Wiley & Sons Ltd., London (1996)
2. Win, M.Z., Scholtz, R.A.: Ultra-Wide Bandwidth time-hopping spread-spectrum
impulse radio for wireless multiple-access communications. IEEE Trans. Com-
mun. 58(4), 679-691 (2002)
3. Peng, D.Y., Peng, T., Fan, P.Z.: Generalized Class of Cubic Frequency-Hopping
Sequences with Large Family Size. IEE Proceedings on Communications 152(6),
897-902 (2005)
4. Lempel, A., Greenberger, H.: Families sequence with optimal hamming correlation
properties. IEEE Trans. Inform. Theory IT-20, 90-94 (1974)
5. Peng, D.Y., Fan, P.Z.: Lower bounds on the Hamming auto- and cross- correlations
of frequency-hopping sequences. IEEE Trans. Inform. Theory 50(9), 2149-2154
(2004)
6. Titlebaum, E.L.: Time-frequency hop signals part I: coding based upon the theory
of linear congruences. IEEE Trans. Aerosp. Electron. Syst. 17(4), 490-493 (1981)
7. Iacobucci, M.S., Benedetto, M.G.D.: Multiple access design for impulse radio com-
munication systems. In: IEEE International Conference on Communications, April
2002, pp. 817-820 (2002)
8. Titlebaum, E.L.: Time-frequency hop signals part II: coding based upon quadratic
congruences. IEEE Trans. Aerosp. Electron. Syst. 17(4), 494-499 (1981)
9. Bellegarda, J.R., Titlebaum, E.L.: Time-frequency hop codes based upon extended
quadratic congruences. IEEE Trans. Aerosp. Electron. Syst. 24(6), 726-742 (1988)
10. Maric, S.V.: Frequency hop multiple access codes based upon the theory of cubic
congruences. IEEE Trans. Aerosp. Electron. Syst. 26(6), 1035-1039 (1990)
11. Jovancevic, A.V., Titlebaum, E.L.: A new receiving technique for frequency hop-
ping CDMA systems: analysis and application. In: IEEE 47th Vehicular Technology
Conference, May 1997, vol. 3, pp. 2187-2190 (1997)
12. Fan, P.Z., Lee, M.H., Peng, D.Y.: New Family of Hopping Sequences for
Time/Frequency Hopping CDMA Systems. IEEE Trans. on Wireless Communi-
cations 4(6), 2836-2842 (2005)
13. Sarwate, D.V.: Reed-Solomon codes and the design of sequences for spread-
spectrum multiple-access communications. In: Wicker, S.B., Bhargava, V.K. (eds.)
Reed-Solomon Codes and Their Applications, IEEE Press, Piscataway (1994)
14. Niven, I.S., Zuckerman, H.: An Introduction to the Theory of Numbers. John Wiley
Sons, Chichester (1980)
 
Search WWH ::




Custom Search