Amortized efficiency of list update and paging rules
Communications of the ACM
On the competitiveness of on-line real-time task scheduling
Real-Time Systems
Dover: An Optimal On-Line Scheduling Algorithm for Overloaded Uniprocessor Real-Time Systems
SIAM Journal on Computing
Efficient on-line call control algorithms
Journal of Algorithms
A Router Architecture for Real-Time Communication in Multicomputer Networks
IEEE Transactions on Computers
Online computation and competitive analysis
Online computation and competitive analysis
SODA '94 Proceedings of the fifth annual ACM-SIAM symposium on Discrete algorithms
Journal of Scheduling - Special issue: On-line algorithm part I
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We consider the problem of scheduling a sequence of packets over a linear network, where every packet has a source and a target, as well as a release time and a deadline by which it must arrive at its target. The model we consider is bufferless, where packets are not allowed to be buffered in nodes along their paths other than at their source. This model applies to optical networks where opto-electronic conversion is costly, and packets mostly travel through bufferless hops. The offline version of this problem was previously studied in M. Adler et al. (2002) [3]. In this paper we study the online version of the problem, where we are required to schedule the packets without knowledge of future packet arrivals. We use competitive analysis to evaluate the performance of our algorithms. We present the first online algorithms for several versions of the problem. For the problem of throughput maximization, where all packets have uniform weights, we give an algorithm with a logarithmic competitive ratio, and present some lower bounds. For other weight functions, we show algorithms that achieve optimal competitive ratios.