Fourier-Reflexive Partitions and Group of Linear Isometries with Respect to Weighted Poset Metric
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Let π be the cartesian product of a family of abelian groups indexed by a finite set Ξ©. A given poset π=(Ξ©,βΌ_π) and a map Ο:Ξ©βΆβ^+ give rise to the (π,Ο)-weight on π, which further leads to a partition π¬(π,π,Ο) of π. For the case that π is finite, we give sufficient conditions for two codewords to belong to the same block of Ξ, the dual partition of π, and sufficient conditions for π to be Fourier-reflexive. By relating the involved partitions with certain polynomials, we show that such sufficient conditions are also necessary if π is hierarchical and Ο is integer valued. With π set to be a finite vector space over a finite field π½, we extend the property of βadmitting MacWilliams identityβ to arbitrary pairs of partitions of π, and prove that a pair of π½-invariant partitions (Ξ,Ξ) with |Ξ|=|Ξ| admits MacWilliams identity if and only if (Ξ,Ξ) is a pair of mutually dual Fourier-reflexive partitions. Such a result is applied to the partitions induced by π-weight and (π,Ο)-weight. With π set to be a left module over a ring S, we show that each (π,Ο)-weight isometry of π induces an order automorphism of π, which leads to a group homomorphism from the group of (π,Ο)-weight isometries to (π), whose kernel consists of isometries preserving the π-support. Finally, by studying MacWilliams extension property with respect to π-support, we give a canonical decomposition for semi-simple codes Cβπ with π set to be hierarchical.
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