Approximating the volume of tropical polytopes is difficult

Stéphane Gaubert; Marie MacCaig

doi:10.1142/S0218196719500061

Approximating the volume of tropical polytopes is difficult

Stéphane Gaubert
, Marie MacCaig

Ecole polytechnique

Research output: Contribution to journal › Article › peer-review

Abstract

We investigate the complexity of counting the number of integer points in tropical polytopes, and the complexity of calculating their volume. We study the tropical analogue of the outer parallel body and establish bounds for its volume. We deduce that there is no approximation algorithm of factor α = 2 ^{poly(m, n)} for the volume of a tropical polytope given by n for the volume of a tropical polytope given by n vertices in a space of dimension m, unless P=NP. Neither is there such an approximation algorithm for counting the number of integer points in tropical polytopes described by vertices. It follows that approximating these values for tropical polytopes is more difficult than for classical polytopes. Our proofs use a reduction from the problem of calculating the tropical rank.

Original language	English
Pages (from-to)	357-389
Number of pages	33
Journal	International Journal of Algebra and Computation
Volume	29
Issue number	2
DOIs	https://doi.org/10.1142/S0218196719500061
Publication status	Published - 1 Mar 2019

Keywords

Hilbert's projective metric
Volume
approximation algorithms
computational complexity
counting integer points
outer parallel body
polytopes
tropical geometry

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10.1142/S0218196719500061

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title = "Approximating the volume of tropical polytopes is difficult",

abstract = " We investigate the complexity of counting the number of integer points in tropical polytopes, and the complexity of calculating their volume. We study the tropical analogue of the outer parallel body and establish bounds for its volume. We deduce that there is no approximation algorithm of factor α = 2 poly(m, n) for the volume of a tropical polytope given by n for the volume of a tropical polytope given by n vertices in a space of dimension m, unless P=NP. Neither is there such an approximation algorithm for counting the number of integer points in tropical polytopes described by vertices. It follows that approximating these values for tropical polytopes is more difficult than for classical polytopes. Our proofs use a reduction from the problem of calculating the tropical rank.",

keywords = "Hilbert's projective metric, Volume, approximation algorithms, computational complexity, counting integer points, outer parallel body, polytopes, tropical geometry",

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T1 - Approximating the volume of tropical polytopes is difficult

AU - Gaubert, Stéphane

AU - MacCaig, Marie

PY - 2019/3/1

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N2 - We investigate the complexity of counting the number of integer points in tropical polytopes, and the complexity of calculating their volume. We study the tropical analogue of the outer parallel body and establish bounds for its volume. We deduce that there is no approximation algorithm of factor α = 2 poly(m, n) for the volume of a tropical polytope given by n for the volume of a tropical polytope given by n vertices in a space of dimension m, unless P=NP. Neither is there such an approximation algorithm for counting the number of integer points in tropical polytopes described by vertices. It follows that approximating these values for tropical polytopes is more difficult than for classical polytopes. Our proofs use a reduction from the problem of calculating the tropical rank.

AB - We investigate the complexity of counting the number of integer points in tropical polytopes, and the complexity of calculating their volume. We study the tropical analogue of the outer parallel body and establish bounds for its volume. We deduce that there is no approximation algorithm of factor α = 2 poly(m, n) for the volume of a tropical polytope given by n for the volume of a tropical polytope given by n vertices in a space of dimension m, unless P=NP. Neither is there such an approximation algorithm for counting the number of integer points in tropical polytopes described by vertices. It follows that approximating these values for tropical polytopes is more difficult than for classical polytopes. Our proofs use a reduction from the problem of calculating the tropical rank.

KW - Hilbert's projective metric

KW - Volume

KW - approximation algorithms

KW - computational complexity

KW - counting integer points

KW - outer parallel body

KW - polytopes

KW - tropical geometry

U2 - 10.1142/S0218196719500061

DO - 10.1142/S0218196719500061

M3 - Article

AN - SCOPUS:85059640406

SN - 0218-1967

VL - 29

SP - 357

EP - 389

JO - International Journal of Algebra and Computation

JF - International Journal of Algebra and Computation

IS - 2

ER -

Approximating the volume of tropical polytopes is difficult

Abstract

Keywords

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