Mequanint Moges scite author profile

a b s t r a c tTo date closed form solutions for optimal finish time and job allocation are largely obtained only for network topologies with a single load originating (root) processor. However in large-scale data intensive problems with geographically distributed resources, load is generated from multiple sources. This paper introduces a new divisible load scheduling strategy for single level tree networks with two load originating processors. Solutions for an optimal allocation of fractions of load to nodes in single level tree networks are obtained via linear programming. A unique scheduling strategy that allows one to obtain closed form solutions for the optimal finish time and load allocation for each processor in the network is also presented. The tradeoff between linear programming and closed form solutions in terms of underlying assumptions is examined. Finally, a performance evaluation of a two source homogeneous single level tree network with concurrent communication strategy is presented.Published by Elsevier Ltd

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An Efficient Task Scheduling Method for Improved Network Delay in Distributed Sensor Networks

Liu

Yuan

Moges

2007

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Performance Analysis of Data Aggregation in Wireless Sensor Mesh Networks

Liu

Shen

Yuan

et al. 2008

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Mequanint Moges

Wireless sensor networks: scheduling for measurement and data reporting

Divisible Load Scheduling and Markov Chain Models

Grid scheduling divisible loads from two sources

An Efficient Task Scheduling Method for Improved Network Delay in Distributed Sensor Networks

Performance Analysis of Data Aggregation in Wireless Sensor Mesh Networks

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