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1	Reticulados ideais via corpos abelianos / Jorge, Grasiele Cristiane. January 2008 (has links) Orientador: Antonio Aparecido de Andrade / Banca: Henrique Lazari / Banca: Tatiana Betoldi Carlos / Resumo: O objetivo deste trabalho é o estudo de reticulados ideais. Neste estudo enfatizamos o artigo "Lattices and Number Fields" de Eva Bayer-Fluckiger, que apresenta alguns reticulados ideais com as mesmas propriedades que os reticulados Ap¡1, p primo, D4, E6, E8, K12 e ¤24. / Abstract: The aim of this work is the study of ideal lattices. In this study we stress a Eva Bayer-Fluckiger's article \Lattices and Number Fields" with presents some ideal lattices with same properties that lattices Ap¡1, p prime number, D4, E6, E8, K12 e ¤24. / Mestre Álgebra. Teoria dos números. Teoria dos reticulados. Ideal lattices. eng Diferent. eng
2	Reticulados ideais via corpos abelianos Jorge, Grasiele Cristiane [UNESP] 22 February 2008 (has links) (PDF) Made available in DSpace on 2014-06-11T19:26:55Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-02-22Bitstream added on 2014-06-13T20:08:02Z : No. of bitstreams: 1 jorge_gc_me_sjrp.pdf: 1092482 bytes, checksum: 1742732c98df30cfd53ed52747fc2b4e (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O objetivo deste trabalho é o estudo de reticulados ideais. Neste estudo enfatizamos o artigo Lattices and Number Fields de Eva Bayer-Fluckiger, que apresenta alguns reticulados ideais com as mesmas propriedades que os reticulados Ap¡1, p primo, D4, E6, E8, K12 e ¤24. / The aim of this work is the study of ideal lattices. In this study we stress a Eva Bayer-Fluckiger's article \Lattices and Number Fields with presents some ideal lattices with same properties that lattices Ap¡1, p prime number, D4, E6, E8, K12 e ¤24. Álgebra Teoria dos números Teoria dos reticulados Reticulados ideais Corpos ciclotômicos Ideal lattices Diferent
3	Famílias de reticulados algébricos e reticulados ideais Benedito, Cintya Wink de Oliveira [UNESP] 26 February 2010 (has links) (PDF) Made available in DSpace on 2014-06-11T19:26:55Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-02-26Bitstream added on 2014-06-13T19:26:01Z : No. of bitstreams: 1 benedito_cwo_me_sjrp.pdf: 1004485 bytes, checksum: fd9cc4cec014a6fbfc619f640e7f98b5 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Neste trabalho é feito um estudo sobre famílias de reticulados algébricos e reticulados ideais. Nosso principal objetivo é a construção de reticulados que são versões rotacioanadas de reticulados já conhecidos na literatura. Deste modo, apresentamos construções obtidas via polinômios, via perturbações do homomorfismo canônico e, também, construções ciclotômicas a partir fo reticulado Zn. / This work presents a study of algebraic and families of ideal lattices. Our main goal is the construction of lattices which are rotated versions of known lattices in the literature. In this way, we present constructions obtained via polynomials, via pertubations of the canonical homomorphism, and also cyclotomic construction from the lattice Zn. Algebra comutativa Teoria dos reticulados Homomorfismos (Matematica) Reticulados (Matemática) Homomorfismo canônico Lattices Canonical homomorphism Algebraic lattices Ideal lattices Rotated lattices
4	Famílias de reticulados algébricos e reticulados ideais / Benedito, Cintya Wink de Oliveira. January 2010 (has links) Orientador: Antonio Aparecido de Andrade / Banca: Edson Donizete de Carvalho / Banca: Jéfferson Luiz Rocha Bastos / Resumo: Neste trabalho é feito um estudo sobre famílias de reticulados algébricos e reticulados ideais. Nosso principal objetivo é a construção de reticulados que são versões rotacioanadas de reticulados já conhecidos na literatura. Deste modo, apresentamos construções obtidas via polinômios, via perturbações do homomorfismo canônico e, também, construções ciclotômicas a partir fo reticulado Zn. / Abstract: This work presents a study of algebraic and families of ideal lattices. Our main goal is the construction of lattices which are rotated versions of known lattices in the literature. In this way, we present constructions obtained via polynomials, via pertubations of the canonical homomorphism, and also cyclotomic construction from the lattice Zn. / Mestre Algebra comutativa. Teoria dos reticulados. Homomorfismos (Matematica) Lattices. eng Canonical homomorphism. eng Algebraic lattices. eng Ideal lattices. eng Rotated lattices. eng
5	Grobuer Basis Algorithms for Polynomial Ideal Theory over Noetherian Commutative Rings Francis, Maria January 2017 (has links) (PDF) One of the fundamental problems in commutative algebra and algebraic geometry is to understand the nature of the solution space of a system of multivariate polynomial equations over a field k, such as real or complex numbers. An important algorithmic tool in this study is the notion of Groebner bases (Buchberger (1965)). Given a system of polynomial equations, f1= 0,..., fm = 0, Groebner basis is a “canonical" generating set of the ideal generated by f1,...., fm, that can answer, constructively, many questions in computational ideal theory. It generalizes several concepts of univariate polynomials like resultants to the multivariate case, and answers decisively the ideal membership problem. The dimension of the solution set of an ideal I called the affine variety, an important concept in algebraic geometry, is equal to the Krull dimension of the corresponding coordinate ring, k[x1,...,xn]/I. Groebner bases were first introduced to compute k-vector space bases of k[x1,....,xn]/I and use that to characterize zero-dimensional solution sets. Since then, Groebner basis techniques have provided a generic algorithmic framework for computations in control theory, cryptography, formal verification, robotics, etc, that involve multivariate polynomials over fields. The main aim of this thesis is to study problems related to computational ideal theory over Noetherian commutative rings (e.g: the ring of integers, Z, the polynomial ring over a field, k[y1,…., ym], etc) using the theory of Groebner bases. These problems surface in many domains including lattice based cryptography, control systems, system-on-chip design, etc. Although, formal and standard techniques are available for polynomial rings over fields, the presence of zero divisors and non units make developing similar techniques for polynomial rings over rings challenging. Given a polynomial ring over a Noetherian commutative ring, A and an ideal I in A[x1,..., xn], the first fundamental problem that we study is whether the residue class polynomial ring, A[x1,..., xn]/I is a free A-module or not. Note that when A=k, the answer is always ‘yes’ and the k-vector space basis of k[x1,..., xn]/I plays an important role in computational ideal theory over fields. In our work, we give a Groebner basis characterization for A[x1,...,xn]/I to have a free A-module representation w.r.t. a monomial ordering. For such A-algebras, we give an algorithm to compute its A-module basis. This extends the Macaulay-Buchberger basis theorem to polynomial rings over Noetherian commutative rings. These results help us develop a theory of border bases in A[x1,...,xn] when the residue class polynomial ring is finitely generated. The theory of border bases is handled as two separate cases: (i) A[x1,...,xn]/I is free and (ii) A[x1,...,xn]/I has torsion submodules. For the special case of A = Z, we show how short reduced Groebner bases and the characterization for a free A-module representation help identify the cases when Z[x1,...,xn]/I is isomorphic to ZN for some positive integer N. Ideals in such Z-algebras are called ideal lattices. These structures are interesting since this means we can use the algebraic structure, Z[x1,...,xn]/I as a representation for point lattices and extend all the computationally hard problems in point lattice theory to Z[x1,...,xn]/I . Univariate ideal lattices are widely used in lattice based cryptography for they are a more compact representation for lattices than matrices. In this thesis, we give a characterization for multivariate ideal lattices and construct collision resistant hash functions based on them using Groebner basis techniques. For the construction of hash functions, we define a worst case problem, shortest substitution problem w.r.t. an ideal in Z[x1,...,xn], and establish hardness results for this problem. Finally, we develop an approach to compute the Krull dimension of A[x1,...,xn]/I using Groebner bases, when A is a Noetherian integral domain. When A is a field, the Krull dimension of A[x1,...,xn]/I has several equivalent algorithmic definitions by which it can be computed. But this is not true in the case of arbitrary Noetherian rings. We introduce the notion of combinatorial dimension of A[x1,...,xn]/I and give a Groebner basis method to compute it for residue class polynomial rings that have a free A-module representation w.r.t. a lexicographic ordering. For such A-algebras, we derive a relation between Krull dimension and combinatorial dimension of A[x1,...,xn]/I. For A-algebras that have a free A-module representation w.r.t. degree compatible monomial orderings, we introduce the concepts of Hilbert function, Hilbert series and Hilbert polynomials and show that Groebner basis methods can be used to compute these quantities. We then proceed to show that the combinatorial dimension of such A-algebras is equal to the degree of the Hilbert polynomial. This enables us to extend the relation between Krull dimension and combinatorial dimension to A-algebras with a free A-module representation w.r.t. a degree compatible ordering as well. Grobuer Basis Algorithms Polynomial Ideal Theory Buchberger's Algorithm Affine K-algebra Polynomial Rings Grobuer Basis Grobuer Bases Macaulay-Buchberger Basis Theorem Noetherian Rings Lattice Based Cryptography Ideal Lattices Hilbert Polynomials Computer Science

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