Junior A. Pereira scite author profile

Junior A. Pereira

5Publications

4Citation Statements Received

75Citation Statements Given

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Ponta Grossa State University, Universidade Estadual Paulista (Unesp)

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Some properties of classes of real self-reciprocal polynomials

Botta

Bracciali

Pereira

2016

Journal of Mathematical Analysis and Applications

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Please cite this article in press as: V. Botta et al., Some properties of classes of real self-reciprocal polynomials, J. Math. Anal. Appl. (2016), http://dx. AbstractThe purpose of this paper is twofold. Firstly we investigate the distribution, simplicity and monotonicity of the zeros around the unit circle and real line of the real self-reciprocal polynomials R (λ) n (z) = 1 + λ(z + z 2 + · · · + z n−1 ) + z n , n ≥ 2 and λ ∈ R. Secondly, as an application of the first results we give necessary and sufficient conditions to guarantee that all zeros of the self-reciprocal polynomials S (λ) n (z) = n k=0 s (λ) n,k z k , n ≥ 2, with s (λ) n,0 = s (λ) n,n = 1, s (λ) n,n−k = s (λ) n,k = 1 + kλ, k = 1, 2, ..., n/2 when n is odd, and s (λ) n,n−k = s (λ) n,k = 1 + kλ, k = 1, 2, ..., n/2 − 1, s (λ) n,n/2 = (n/2)λ when n is even, lie on the unit circle. Solving then an open problem given by Kim and Park in 2008.

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Quadrature rules from a RII type recurrence relation and associated quadrature rules on the unit circle

2019

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We consider the theoretical and numerical aspects of the quadrature rules associated with a sequence of polynomials generated by a special R II recurrence relation. We also look into some methods for generating the nodes (which lie on the real line) and the positive weights of these quadrature rules. With a simple transformation these quadrature rules on the real line also lead to certain positive quadrature rules of highest algebraic degree of precision on the unit circle. This way, we also introduce new approaches to evaluate the nodes and weights of these specific quadrature rules on the unit circle.

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Zeros de polinômios palindrômicos de grau ímpar

Pereira¹,

Botta²

2015

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RESUMOSeja P (z) = a 0 + a 1 z + ... + a n z n um polinômio de grau n, n ≥ 1, a i ∈ R, i = 0, ..., n. Então Pé palindrômico se a i = a n−i , para todo i = 0, 1, ..., n. O comportamento dos zeros dos polinômios palindrômicos, além de ser um interessante tópico a ser estudado, tem muitas aplicações em algumasáreas da Matemática [2,6]. Tais zeros possuem algumas propriedades especiais, como a simetria tanto em relaçãoà reta real quanto ao círculo unitário, por exemplo.Atualmente, um tema que está atraindo a atenção de alguns matemáticos está relacionadò a quantidade de zeros que um polinômio palindrômico possui no círculo unitário. Pesquisas recentes (ver [3,4]) estabelecem condições para que todos os zeros de um polinômio palindrômico estejam localizados em |z| = 1.Com base nos estudos de [3], apresentaremos, neste trabalho, condições necessárias e suficientes para que os zeros do polinômio palindrômico R(z) = 1 + λ(z + z 2 + ... + z n−1 ) + z n , com λ ∈ R e nímpar, estejam localizados no círculo unitário, ou seja, na região |z| = 1. Tais condições estão representadas no teorema abaixo, que será o foco principal deste trabalho, onde maiores detalhes podem ser encontrados em [1].Teorema 1: Os zeros do polinômio R(z) = 1 + λ(z + z 2 + ... + z n−1 ) + z n , λ ∈ R, de grau n > 1 ımpar, estão sobre o círculo unitário se, e somente se,Para exemplificar, seja o polinômio R(z) = 1+λ z + z 2 + z 3 + z 4 + z 5 . Através do Teorema 1, segue que os zeros de R(z) encontram-se em |z| = 1 se, e somente se, − 1 2 ≤ λ ≤ 5 2 . A Figura 1 mostra a localização dos zeros de R(z) quando λ = 9.5 4 . Podemos observar que os zeros de R(z) encontram-se em |z| = 1, pois para λ = 9.5 4é satisfeita a condição do teorema. Já no caso da Figura 2, podemos observar que nem todos os zeros de R(z) = 1 + 3 z + z 2 + z 3 + z 4 + z 5 encontram-se em |z| = 1, pois a condição estabelecida através do Teorema 1 nãoé satisfeita.

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Quasi-symmetric orthogonal polynomials on the real line: moments, quadrature rules and invariance under Christoffel modifications

2023

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Quadrature rules from a $R_{II}$ type recurrence relation and associated quadrature rules on the unit circle

Bracciali¹,

Pereira²,

Ranga³

2018

Preprint

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Junior A. Pereira

Some properties of classes of real self-reciprocal polynomials

Quadrature rules from a RII type recurrence relation and associated quadrature rules on the unit circle

Zeros de polinômios palindrômicos de grau ímpar

Quasi-symmetric orthogonal polynomials on the real line: moments, quadrature rules and invariance under Christoffel modifications

Quadrature rules from a $R_{II}$ type recurrence relation and associated quadrature rules on the unit circle

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