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JACM
2000
2000
A subdivision-based algorithm for the sparse resultant
Multivariate resultants generalize the Sylvester resultant of two polynomials and characterize the solvability of a polynomial system. They also reduce the computation of all common roots to a problem in linear algebra. We propose a determinantal formula for the sparse resultant of an arbitrary system of n +1 polynomials in n variables. This resultant generalizes the classical one and has signi cantly lower degree for polynomials that are sparse in the sense that their mixed volume is lower than their B zout number. Our algorithm uses a mixed polyhedral subdivision of the Minkowski sum of the Newton polytopes in order to construct a Newton matrix. Its determinant is a nonzero multiple of the sparse resultant and the latter equals the GCD of at most n +1 such determinants. This construction implies a restricted version of an e ective sparse Nullstellensatz. For an arbitrary specialization of the coe cients there are two methods which use one extra variable and yield the sparse resultan...
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| Added | 18 Dec 2010 |
| Updated | 18 Dec 2010 |
| Type | Journal |
| Year | 2000 |
| Where | JACM |
| Authors | John F. Canny, Ioannis Z. Emiris |
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