Abstract
In this paper we study the satisfiability and solutions of group equations when combinatorial, algebraic and language-theoretic constraints are imposed on the solutions. We show that the solutions to equations with length, lexicographic order, abelianisation or contextfree constraints added, can be effectively produced in finitely generated virtually abelian groups. Crucially, we translate each of the constraints above into a rational set in an effective way, and so reduce each problem to solving equations with rational constraints, which is decidable and well understood in virtually abelian groups. A byproduct of our results is that the growth series of a virtually abelian group, with respect to any generating set and any weight, is effectively computable. This series is known to be rational by work of Benson, but his approach is not constructive.
| Original language | English |
|---|---|
| Journal | SIAM Journal on Applied Algebra and Geometry |
| Publication status | Accepted/In press - 23 Nov 2024 |
Keywords
- virtually abelian groups
- equations in groups
- context-free language
- rational set
- semi-linear set
- growth of groups