ON $n$-INDEPENDENT SETS LOCATED ON QUARTICS

Authors

  • H.A. Hakopian Chair of Numerical Analysis and Mathematical Modeling, YSU, Armenia
  • A.R. Malinyan Chair of Mathematics and Mathematical Modeling, RA(S)U, Armenia

DOI:

https://doi.org/10.46991/PYSU:A/2013.47.1.006

Keywords:

algebraic curve, ntal polynomial, $n$-independent point set, $n$-complete point set

Abstract

Denote the space of all bivariate polynomials of total degree $\leq n$ by $\Pi_n$. We study the $n$-independence of points sets on quartics, i.e. on algebraic curves of degree 4. The $n$-independent sets $\mathcal X$ are characterized by the fact that the dimension of the space ${\mathcal P}_{\mathcal X}:=\{p\in \Pi_n : p(x)=0, \forall x\in \mathcal X\}$ equals $\dim \Pi_n-\#\mathcal X.$ Next, polynomial interpolation of degree $n$ is solvable only with these sets. Also the $n$-independent sets are exactly the subsets of $\Pi_n$-poised sets. In this paper we characterize all $n$-independent sets on quartics. We also characterize the set of points that are $n$-complete in quartics, i.e. the subsets ${\mathcal X}$ of quartic $\delta,$  having the property $p\in\Pi_n,~p(x)=0~\forall  x\in {\mathcal X} \Rightarrow p=\delta q,~q\in \Pi_{n-4}.$

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Published

2013-04-10

How to Cite

Hakopian, H., & Malinyan, A. (2013). ON $n$-INDEPENDENT SETS LOCATED ON QUARTICS. Proceedings of the YSU A: Physical and Mathematical Sciences, 47(1 (230), 6–12. https://doi.org/10.46991/PYSU:A/2013.47.1.006

Issue

Section

Mathematics