Efficient ring-TCM codes over fading channels

Author

Ahmadian-Attari, M. ; Farrel, P.G.

Author_Institution

Sch. of Eng., Manchester Univ., UK

Volume

2

fYear

1996

Firstpage

1248

Abstract

Ring-TCM codes form a class of novel trellis coded modulation schemes in which the operations in the encoder are modulo-q addition and multiplication. To match the encoder to practical multilevel modulation schemes, usually q is selected to be a power of two. These codes can be easily constructed to be rotationally invariant. Consequently, all possible phase rotations due to channel corruption can be removed simply by differentially encoding/decoding. However, as in all classes of TCM codes, R-TCM codes suffer from a rather large number of parallel trellis transitions. We introduce a new class of R-TCM codes, modulo-p to modulo-q (p<q) R-TCM codes, capable of avoiding parallel transitions to obtain maximum time diversity factor, which is the most important parameter in the design of a code for fading channels

Keywords

decoding; digital arithmetic; fading; trellis coded modulation; channel corruption; code design; differentially encoding/decoding; encoder; fading channels; maximum time diversity factor; modulo-q addition; modulo-q multiplication; multilevel modulation; parallel trellis transitions; phase rotations; ring-TCM codes; rotationally invariant codes; trellis coded modulation; Decoding; Equations; Error correction; Fading; Feedback; Hamming distance; Modulation coding; Upper bound;

fLanguage

English

Publisher

ieee

Conference_Titel

Global Telecommunications Conference, 1996. GLOBECOM '96. 'Communications: The Key to Global Prosperity

Conference_Location

London

Print_ISBN

0-7803-3336-5

Type

conf

DOI

10.1109/GLOCOM.1996.587640

Filename

587640