Arithmetic geometry of compute and forward

Author

Vazquez-Castro, M.A.

Author_Institution

Dept. of Telecommun. & Syst. Eng., Univ. Autonoma de Barcelona, Barcelona, Spain

fYear

2014

fDate

2-5 Nov. 2014

Firstpage

122

Lastpage

126

Abstract

We propose the joint study of function computation (arithmetics) and lattice coding gain (geometry) to derive the (complex modulo) arithmetics of compute and forward over Euclidean geometry. First, we demonstrate that only five families of complex alphabets exist that admit euclidean complex modulo arithmetics. Second, we prove that the (per-dimension) euclidean division algorithm is equivalent to a closest vector algorithm hence a natural framework for compute and forward. Third, we derive the nominal coding gains of the five resulting families of (nested) lattice codes obtained as preimages of linear block codes. Finally we apply the proposed arithmetic geometry framework to the MAC channel and show graphical illustration of the 2-user case over the Eisenstein numbers.

Keywords

algebra; arithmetic; block codes; linear codes; Euclidean complex modulo arithmetics; Euclidean division algorithm; MAC channel; arithmetic geometry framework; compute and forward; lattice coding gain; linear block codes; Encoding; Gain; Geometry; Lattices; Network coding; Relays; Vectors; Arithmetic geometry; compute and forward; lattices;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Theory Workshop (ITW), 2014 IEEE

Conference_Location

Hobart, TAS

ISSN

1662-9019

Type

conf

DOI

10.1109/ITW.2014.6970805

Filename

6970805