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- Title
Reidemeister-Schreier rewriting process for matching uniform signal constellations to quotient groups of arithmetic Fuchsian groups.
- Authors
Silva Campos, Daniel; Palazzo Jr., Reginaldo
- Abstract
In this paper, we construct signal constellations from lattices in complex hyperbolic spaces. To construct a hyperbolic lattice, we identify an arithmetic Fuchsian group with the group of units O1 of a natural quaternion order O ⊂ V, in which V is some quaternion algebra over an algebraic number field. The arithmetic Fuchsian group, G, is isomorphic to the fundamental group of a regular hyperbolic polygon P, and an oriented compact surface arises from the pairwise identification of its opposite edges. The polygon P is the fundamental region associated with a regular tessellation {p, q}. The main contribution of this paper is to employ the Reidemeister-Schreier rewriting process to use proper decompositions of the full symmetry group of a tessellation {p, q}, which allows the matching of uniform signal constellations to quotient groups of G. In this direction, we consider the labelling of phaseshift keying (PSK) and amplitude-phase keying (APK) signal constellations diagrams via three approaches: cyclic quotient groups, a direct product of cyclic quotient groups and semi-direct product of cyclic groups (the dihedral group case).
- Subjects
ALGEBRAIC numbers; CYCLIC groups; HYPERBOLIC groups; HYPERBOLIC spaces; ALGEBRAIC fields; GROUP algebras; RIEMANN surfaces
- Publication
Computational & Applied Mathematics, 2024, Vol 43, Issue 3, p1
- ISSN
0101-8205
- Publication type
Article
- DOI
10.1007/s40314-024-02628-3