ARLS: A MapReduce-based output analysis tool for large-scale simulations

•Hadoop and MapReduce solutions can speed up the analysis of large scale simulation datasets with unstructured format.•A Hadoop and MapReduce-based tool has been proposed to semi-automatically analyze large-scale simulation datasets in any format.•A Surface-To-Air Missile simulator has been develope...

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Bibliographic Details
Published in:Advances in engineering software (1992) 2016-05, Vol.95, p.28-37
Main Authors: Lee, Kangsun, Jung, Kwanghoon, Park, Joonho, Kwon, Dongseop
Format: Article
Language:English
Subjects:
Cloud computing
Clusters
Computer simulation
Distributed computing
Dynamical systems
Dynamics
Hadoop and MapReduce
Large-scale simulation
Mathematical analysis
Mathematical models
Missiles
Simulation output analysis
Simulation-based analysis
Surface to air missiles
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Summary:•Hadoop and MapReduce solutions can speed up the analysis of large scale simulation datasets with unstructured format.•A Hadoop and MapReduce-based tool has been proposed to semi-automatically analyze large-scale simulation datasets in any format.•A Surface-To-Air Missile simulator has been developed to illustrate the viability of Hadoop and MapReduce platforms in processing large scale simulation datasets with unstructured format. As simulations are becoming popular in the analysis of the complex behavior of large-scale systems with immense inputs and outputs, there is an increasing demand to efficiently store, manage, and analyze massive simulation outputs. Hadoop and MapReduce have been used in various applications to speed up the process of analyzing large amounts of datasets. In this paper, we present ARLS (After-action Reviewer for Large-scale Simulations), a MapReduce-based output analysis tool for simulation outputs. ARLS clusters distributed storages using Hadoop and automatically composes Map and Reduce functions to process the simulation outputs. ARLS has been applied to our SAM (Surface-to-Air Missile) simulator. The SAM simulator has been developed to analyze the dynamics of a missile in designing air-defense systems. ARLS takes a large amount of unstructured simulation outputs from SAM simulator, automatically generates Map and Reduce functions to analyze the missile and the aircraft component of SAM simulator, and executes Map and Reduce jobs in parallel. The results of our experiments show that ARLS can efficiently analyze a large amount of unstructured simulation datasets by distributing datasets and computations over the cluster of commodity machines.
ISSN:0965-9978
DOI:10.1016/j.advengsoft.2016.01.025