Poly-APX- and PTAS-completeness in standard and differential approximation

Bazgan, Cristina; Escoffier, Bruno; Paschos, Vangelis

Bazgan, Cristina; Escoffier, Bruno; Paschos, Vangelis (2004), Poly-APX- and PTAS-completeness in standard and differential approximation, in Trippen, Gerhard, ISAAC'04 :15th International Symposium, Springer : Berlin Heidelberg, p. 124-136. 10.1007/978-3-540-30551-4_13

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Type

Communication / Conférence

Date

2004

Conference country

CHINA

Book title

ISAAC'04 :15th International Symposium

Book author

Trippen, Gerhard

Publisher

Springer

Published in

Berlin Heidelberg

ISBN

3-540-24131-0

Pages

124-136

Abstract (EN)

We first prove the existence of natural Poly-APX-complete problems, for both standard and differential approximation paradigms, under already defined and studied suitable approximation preserving reductions. Next, we devise new approximation preserving reductions, called FT and DFT, respectively, and prove that, under these reductions, natural problems are PTAS-complete, always for both standard and differential approximation paradigms. To our knowledge, no natural problem was known to be PTAS-complete and no problem was known to be Poly-APX-complete until now. We also deal with the existence of intermediate problems under FT- and DFT-reductions and we show that such problems exist provided that there exist NPO-intermediate problems under Turing-reduction. Finally, we show that min coloring is APX-complete for the differential approximation.

Subjects / Keywords

Poly-APX-complete problems; approximation paradigms