Multi-level trellis codes for the Gaussian channel and for channels subject to impulsive noise
Publication
, Journal Article
Calderbank, AR
Published in: Proceedings - IEEE Military Communications Conference
December 1, 1988
The author designs multilevel trellis codes based on lattices and cosets that provide greater immunity to Gaussian noise and/or greater resistance to impulse noise than previous approaches. He shows how to calculate minimum-squared distance and path multiplicity in terms of the norms and multiplicities of the different cosets. The multilevel structure allows the redundancy in the coset selection procedure to be allocated efficiently among the different levels. The proposed codes admit a staged decoding procedure that requires very few trellis states and has performance/complexity advantages over maximum-likelihood decoding.
Duke Scholars
Published In
Proceedings - IEEE Military Communications Conference
Publication Date
December 1, 1988
Volume
2
Start / End Page
673 / 678
Citation
APA
Chicago
ICMJE
MLA
NLM
Calderbank, A. R. (1988). Multi-level trellis codes for the Gaussian channel and for channels subject to impulsive noise. Proceedings - IEEE Military Communications Conference, 2, 673–678.
Calderbank, A. R. “Multi-level trellis codes for the Gaussian channel and for channels subject to impulsive noise.” Proceedings - IEEE Military Communications Conference 2 (December 1, 1988): 673–78.
Calderbank AR. Multi-level trellis codes for the Gaussian channel and for channels subject to impulsive noise. Proceedings - IEEE Military Communications Conference. 1988 Dec 1;2:673–8.
Calderbank, A. R. “Multi-level trellis codes for the Gaussian channel and for channels subject to impulsive noise.” Proceedings - IEEE Military Communications Conference, vol. 2, Dec. 1988, pp. 673–78.
Calderbank AR. Multi-level trellis codes for the Gaussian channel and for channels subject to impulsive noise. Proceedings - IEEE Military Communications Conference. 1988 Dec 1;2:673–678.
Published In
Proceedings - IEEE Military Communications Conference
Publication Date
December 1, 1988
Volume
2
Start / End Page
673 / 678