AbstractA special class of quadratic pseudo-boolean functions called “half-products” (HP) has recently been introduced. It has been shown that HP minimization, while NP-hard, admits a fully polynomial time approximation scheme (FPTAS). In this note, we provide a more efficient FPTAS. We further show how an FPTAS can also be derived for the general case where the HP function is augmented by a problem-dependent constant and can justifiably be assumed to be nonnegative. This leads to an FPTAS for certain partitioning type problems, including many from the field of scheduling
We design a fully polynomial-time approximation scheme (FPTAS) for a single machine scheduling probl...
In a recent paper [Theoretical Computer Science 363, 257–265], He, Zhong and Gu considered the non-r...
In paper we develop an easily applicable algorithmic technique/tool for developing approximation sch...
A special class of quadratic pseudo-boolean functions called "half-products" (HP) has recently been ...
AbstractA special class of quadratic pseudo-boolean functions called “half-products” (HP) has recent...
We address a version of the Half-Product Problem and its restricted variant with a linear knapsack c...
Problem Product Partition differs from the NP-complete problem Partition in that the addition operat...
Problem Product Partition differs from the NP-complete problem Partition in that the addition operat...
We design a fully polynomial-time approximation scheme (FPTAS) for a knapsack problem to minimize a ...
Abstract: We study the single machine scheduling problem with controllable job process-ing times to ...
AbstractWe introduce a class of pseudo-Boolean functions called ordered, symmetric half-products. Th...
We present a fully polynomial time approximation scheme (FPTAS) for minimizing an objective (aT x + ...
We address the single machine scheduling problem to minimize the total weighted earliness and tardin...
We consider the following scheduling problem. There arem parallel machines andn independent jobs. Ea...
We design a fully polynomial-time approximation scheme (FPTAS) for a single machine scheduling probl...
In a recent paper [Theoretical Computer Science 363, 257–265], He, Zhong and Gu considered the non-r...
In paper we develop an easily applicable algorithmic technique/tool for developing approximation sch...
A special class of quadratic pseudo-boolean functions called "half-products" (HP) has recently been ...
AbstractA special class of quadratic pseudo-boolean functions called “half-products” (HP) has recent...
We address a version of the Half-Product Problem and its restricted variant with a linear knapsack c...
Problem Product Partition differs from the NP-complete problem Partition in that the addition operat...
Problem Product Partition differs from the NP-complete problem Partition in that the addition operat...
We design a fully polynomial-time approximation scheme (FPTAS) for a knapsack problem to minimize a ...
Abstract: We study the single machine scheduling problem with controllable job process-ing times to ...
AbstractWe introduce a class of pseudo-Boolean functions called ordered, symmetric half-products. Th...
We present a fully polynomial time approximation scheme (FPTAS) for minimizing an objective (aT x + ...
We address the single machine scheduling problem to minimize the total weighted earliness and tardin...
We consider the following scheduling problem. There arem parallel machines andn independent jobs. Ea...
We design a fully polynomial-time approximation scheme (FPTAS) for a single machine scheduling probl...
In a recent paper [Theoretical Computer Science 363, 257–265], He, Zhong and Gu considered the non-r...
In paper we develop an easily applicable algorithmic technique/tool for developing approximation sch...