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Learning Sparse Multivariate Polynomials over a Field with Queries and Counterexamples

✍ Scribed by Robert E. Schapire; Linda M. Sellie

Book ID
102970607
Publisher
Elsevier Science
Year
1996
Tongue
English
Weight
520 KB
Volume
52
Category
Article
ISSN
0022-0000

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✦ Synopsis

We consider the problem of learning a polynomial over an arbitrary field F defined on a set of boolean variables. We present the first provably effective algorithm for exactly identifying such polynomials using membership and equivalence queries. Our algorithm runs in time polynomial in n, the number of variables, and t, the number of nonzero terms appearing in the polynomial. The algorithm makes at most nt+2 equivalence queries, and at most (nt+1)(t 2 +3t)Γ‚2 membership queries. Our algorithm is equally effective for learning a generalized type of polynomial defined on certain kinds of semilattices. We also present an extension of our algorithm for learning multilinear polynomials when the domain of each variable is the entire field F.

πŸ“œ SIMILAR VOLUMES

CORRIGENDUM: Volume 73, Number 2 (1998),
CORRIGENDUM: Volume 73, Number 2 (1998), in the article β€œReal Polynomials with All Roots on the Unit Circle and Abelian Varieties over Finite Fields,” by Stephen A. DiPippo and Everett W. Howe, pages 426–450
πŸ“‚ Article πŸ“… 2000 πŸ› Elsevier Science 🌐 English βš– 27 KB

The expression q n(n&1)Γ‚4 should be replaced with the expression q (n+2)(n&1)Γ‚4 in the first displayed equation in the statement of Theorem 1.2 (page 427), as well as in the first displayed equation in the statement of Proposition 3.2.1 (page 445) and in the displayed equation at the bottom of page