We consider the unbounded parallel batch scheduling with deterioration, release dates, and rejection. Each job is either accepted and processed on a single batching machine, or rejected by paying penalties. The processing time of a job is a simple linear increasing function of its starting time. The objective is to minimize the sum of the makespan of the accepted jobs and the total penalty of the rejected jobs. First, we show that the problem is NP-hard in the ordinary sense. Then, we present two pseudopolynomial time algorithms and a fully polynomial-time approximation scheme to solve this problem. Furthermore, we provide an optimal O(nlogn) time algorithm for the case where jobs have identical release dates
AbstractIn this paper, we consider the problem of scheduling jobs with release dates on a single-bat...
We consider scheduling problems with job processing time compatibility on a single unbounded batch m...
AbstractWe consider the problem of scheduling n jobs on m identical parallel batching machines. Each...
AbstractIn this paper, we consider the unbounded parallel batch machine scheduling with release date...
Abstract. We consider the bounded single-machine parallel-batch scheduling problem with release date...
In this paper, we consider the unbounded parallel-batch scheduling with rejection. A job is either r...
AbstractIn this paper, we consider the problem of scheduling with release dates and rejection on a s...
AbstractIn this paper, we consider the problem of scheduling n deteriorating jobs with release dates...
We consider the problem of scheduling n deteriorating jobs with release dates on a single batching m...
In this paper we consider the problem of scheduling jobs with release dates on parallel unbounded ba...
AbstractWe consider several single machine parallel-batch scheduling problems in which the processin...
AbstractWe consider several parallel-machine scheduling problems in which the processing time of a j...
AbstractIn this paper we consider the unbounded single machine parallel batch scheduling problem wit...
We consider the single machine parallel-batching scheduling problem with precedence relations, relea...
We consider the problem of scheduling jobs in batches on a single machine where the processing time ...
AbstractIn this paper, we consider the problem of scheduling jobs with release dates on a single-bat...
We consider scheduling problems with job processing time compatibility on a single unbounded batch m...
AbstractWe consider the problem of scheduling n jobs on m identical parallel batching machines. Each...
AbstractIn this paper, we consider the unbounded parallel batch machine scheduling with release date...
Abstract. We consider the bounded single-machine parallel-batch scheduling problem with release date...
In this paper, we consider the unbounded parallel-batch scheduling with rejection. A job is either r...
AbstractIn this paper, we consider the problem of scheduling with release dates and rejection on a s...
AbstractIn this paper, we consider the problem of scheduling n deteriorating jobs with release dates...
We consider the problem of scheduling n deteriorating jobs with release dates on a single batching m...
In this paper we consider the problem of scheduling jobs with release dates on parallel unbounded ba...
AbstractWe consider several single machine parallel-batch scheduling problems in which the processin...
AbstractWe consider several parallel-machine scheduling problems in which the processing time of a j...
AbstractIn this paper we consider the unbounded single machine parallel batch scheduling problem wit...
We consider the single machine parallel-batching scheduling problem with precedence relations, relea...
We consider the problem of scheduling jobs in batches on a single machine where the processing time ...
AbstractIn this paper, we consider the problem of scheduling jobs with release dates on a single-bat...
We consider scheduling problems with job processing time compatibility on a single unbounded batch m...
AbstractWe consider the problem of scheduling n jobs on m identical parallel batching machines. Each...