BIBLIOGRAPHY 329
H
¨
ost, S. (1999) On Woven Convolutional Codes. PhD thesis, Lund University, ISBN 91-7167-016-5.
H
¨
ost, S., Johannesson, R. and Zyablov, V. (1997) A first encounter with binary woven convolu-
tional codes Proceedings of International Symposium on Communication Theory and Applications,
Ambleside, Lake District, UK.
H
¨
ost, S., Johannesson, R. and Zyablov, V. (2002) Woven convolutional codes I: encoder properties.
IEEE Transactions on Information Theory, 48, 149–161.
H
¨
ost, S., Johannesson, R., Zigangirov, K. and Zyablov, V. (1999) Active distances for convolutional
codes. IEEE Transactions on Information Theory, 45, 658–669.
H
¨
ost, S., Johannesson, R., Sidorenko, V., Zigangirov, K. and Zyablov, V. (1998) Cascaded convo-
lutional codes, in Communication and Coding (Eds M. Darnell and B. Honary), Research Studies
Press Ltd and John Wiley & Sons, Ltd, Chichester, UK, pp. 10–29.
Hughes, B. (2000) Differential space –time modulation. IEEE Transactions on Information Theory,
46 (7), 2567–2578.
Hughes-Hartogs, D. (1989) Ensemble modem structure for imperfect transmission media. US Patents
4,679,227 and 4,731,816 and 4,833,706, Orlando, FL, USA.
H
¨
ubner, A. and Jordan, R. (2006) On higher order permutors for serially concatenated convolutional
codes. IEEE Transactions on Information Theory, 52, 1238–1248.
H
¨
ubner, A. and Richter, G. (2006) On the design of woven convolutional encoders with outer warp
row permutors. IEEE Transactions on Communications, COM-54, 438–444.
H
¨
ubner, A., Truhachev, D.V. and Zigangirov, K.S. (2004) On permutor designs based on cycles
for serially concatenated convolutional codes. IEEE Transactions on Communications, COM-52,
1494–1503.
IEEE (2004) Part 16: Air Interface for Fixed Broadband Wireless Access Systems, IEEE, New York,
NY, USA.
Jelinek, F. (1969) A fast sequential decoding algorithm using a stack. IBM Journal of Research and
Development, 13, 675–685.
Johannesson, R. and Zigangirov, K.S. (1999) Fundamentals of Convolutional Coding, IEEE Press,
Piscataway, NJ, USA.
Jordan, R., Pavlushkov, V., and Zyablov, V. (2004b) Maximum slope convolutional codes. IEEE
Transactions on Information Theory, 50, 2511–2521.
Jordan, R., Freudenberger, J., Dieterich, H., Bossert, M. and Shavgulidze, S. (1999) Simulation results
for woven codes with outer warp. Proceedings of 4th. ITG Conference on Mobile Communication,
Munich, Germany, pp. 439–444.
Jordan, R., Freudenberger, J., Pavlouchkov, V., Bossert, M. and Zyablov, V. (2000) Optimum slope
convolutional codes. IEEE Proceedings of International Symposium on Information Theory, Sor-
rento, Italy.
Jordan, R., H
¨
ost, S., Johannesson, R., Bossert, M. and Zyablov, V. (2004a) Woven convolutional
codes II: decoding aspects. IEEE Transactions on Information Theory, 50, 2522– 2531.
Jungnickel, D. (1995) Codierungstheorie, Spektrum Akademischer Verlag, Heidelberg, Germany.
Justesen. J., Thommensen, C. and Zyablov, V. (1988) Concatenated codes with convolutional inner
codes. IEEE Transactions on Information Theory, 34, 1217–1225.
Kallel, S. (1992) Sequential decoding with an efficient incremental redundancy ARQ strategy. IEEE
Transactions on Communications, 40, 1588–1593.
Kammeyer, K.D. (2004) Nachrichten¨ubertragung, 3rd edn, Teubner, Stuttgart, Germany.
Krongold, B., Ramchandran, K. and Jones, D. (1999) An efficient algorithm for optimum margin
maximization in multicarrier communication systems. IEEE Proceedings of Global Conference on
Telecommunications, Rio de Janeiro, Brazil, pp. 899– 903.
K
¨
uhn, V. (2006) Wireless Communications over MIMO Channels – Applications to CDMA and Mul-
tiple Antenna Systems, John Wiley & Sons, Ltd, Chichester, UK.