具有固定批量和可变加工时间的单机调度

Proceedings of the 40th IEEE Conference on Decision and Control (Cat. No.01CH37228) Pub Date : 2001-12-04 DOI:10.1109/CDC.2001.980612

A. D. Febbraro, R. Minciardi, S. Sacone

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引用次数: 5

摘要

解决了处理一定数量作业的单个机器的行为的最佳定义和控制问题，并将其建模为离散事件动态系统。作业的数量、它们的大小和它们的服务顺序是固定的，而它们的时间是优化问题的问题。要优化的目标函数是库存成本与作业截止日期和完成时间之间的二次偏差的加权和，以及作业的单一处理时间与常规系统功能指定时间之间的二次偏差。将具有二次代价函数和非线性约束的优化问题表述并形式化为多阶段最优控制问题。利用动态规划技术求解控制问题;得到了各阶段的最优闭环控制律。

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Single machine scheduling with fixed lot-sizes and variable processing times

The problem of optimally defining and controlling the behaviour of a single machine processing a certain number of jobs and modelled as a discrete event dynamic system is addressed. The number of jobs, their sizes, and their service sequence are fixed, whereas their timing is the matter of the optimisation problem. The objective function to be optimised is a weighted sum of the inventory cost of the quadratic deviations from the due-dates of jobs and their completion times, and the quadratic deviations between the unitary processing times of jobs and those specified by the regular system functioning. An optimisation problem with quadratic cost function and nonlinear constraints is stated and formalised as a multi-stage optimal control problem. The control problem is solved by a procedure making use of dynamic programming techniques; the optimal closed-loop control laws at each stage are thus obtained.

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Proceedings of the 40th IEEE Conference on Decision and Control (Cat. No.01CH37228)

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