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引用次数: 0
摘要
这项工作研究的是速度分别为 1 和 s≥2 的两台均匀并行机器上的半联机调度问题。我们引入了一个新颖的初始前瞻概念,在这个概念中,任何确定性在线算法在开始时都完全知道前 k 个作业,而其余作业则在在线超列表模式下逐个释放。所考虑问题的目标是最小化作业间隔。我们关注的是前 k 个作业的总处理时间不小于 (s+1)Δ 的情况,其中 Δ 是最大作业长度,假设 s 为整数。我们证明了 (s2+s+1)/(s2+s) 的下限,并提出了一种确定性在线算法,其竞争比率为 (s+1)2/(s2+s+1) 。该比率最多为 9/7,远小于无初始前瞻的基本情况下的 1.618(Cho 和 Sahni [7])。 我们的结果表明,有限的初始前瞻能力可以大大提高在线算法的竞争力。
Semi-online scheduling on two uniform parallel machines with initial lookahead
This work studies the problem of semi-online scheduling on two uniform parallel machines with speeds 1 and s≥2, respectively. We introduce a novel concept of initial lookahead in which any deterministic online algorithm has the full knowledge of the first k jobs at the beginning, while the remaining jobs are released one-by-one in the online over-list mode. The objective of the considered problem is to minimize the makespan. We focus on the case where the first k jobs are of a total processing time not less than (s+1)Δ where Δ is the largest job length, and it is assumed that s is an integer. We prove a lower bound of (s2+s+1)/(s2+s), and propose a deterministic online algorithm with competitive ratio of (s+1)2/(s2+s+1). The ratio is at most 9/7 and much less than that of 1.618 for the basic case without initial lookahead (Cho and Sahni [7]). Our results demonstrate that a finite ability of initial lookahead can greatly improve the competitiveness of online algorithms.
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