Article ID Journal Published Year Pages File Type
10523835 Discrete Optimization 2005 14 Pages PDF
Abstract
In this paper, we consider a single machine that processes a set of jobs having two (ordered) phases. After processing the first phase of a job, this job must be removed from the machine for some exact amount of time, after which the machine must immediately begin processing its second phase. During this “dead time” between job phases, the machine may be used to process other similar jobs. We first prove that the problem of interleaving these jobs in order to minimize the makespan (or to process as many jobs as possible by a given deadline) is strongly NP-hard. Next, we compare the effectiveness of a mixed-integer programming formulation based on a continuous time domain to that of a discrete-time integer programming model for solving problems having different data characteristics. These comparisons are performed on a set of realistic synthetic problems based on different scenarios arising in radar pulsing applications.
Related Topics
Physical Sciences and Engineering Mathematics Control and Optimization
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