An Efficient Parallel Optimization for Co-Authorship Network Analysis

2017 18th International Conference on Parallel and Distributed Computing, Applications and Technologies (PDCAT) Pub Date : 2017-12-01 DOI:10.1109/PDCAT.2017.00030

C. R. Valêncio, José Carlos De Freitas, Rogéria Cristiane Gratão de Souza, L. A. Neves, G. F. D. Zafalon, A. Colombini, William Tenório

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引用次数: 1

Abstract

Co-authorship analysis in science and technology partnerships provides a vision of cooperation patterns between individuals and organizations and is still widely used to understand and assess scientific collaboration patterns. This analysis is conducted by means of bibliometry, which is the quantitative study of scientific production. However, with the evolution of database management systems, there was a significant increase in the volume of stored data, which could difficult the analysis. In this context, the developed work presents an efficient parallel optimization of bibliometric information, in order to allow this scientific analysis in a Big Data environment. Our results show that the time taken to calculate the transitivity value using the sequential approach grows 4.08 times faster than the parallel proposed approach when the number of nodes tends to infinity; the time taken to calculate the average distance and diameter values using the sequential approach grows 5.27 times faster than the parallel proposed approach when the number of nodes tends to infinity. Also, the results found present good values of speed up and efficiency.

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一种有效的并行优化合作网络分析方法

科学技术伙伴关系中的共同作者分析提供了个人和组织之间合作模式的远景，并且仍然广泛用于理解和评估科学合作模式。这一分析是通过文献计量学的方法进行的，这是对科学生产的定量研究。然而，随着数据库管理系统的发展，存储的数据量显著增加，这可能给分析带来困难。在这种背景下，开发的工作提出了一种有效的并行优化文献计量信息，以便在大数据环境中进行这种科学分析。结果表明，当节点数趋于无穷大时，顺序方法计算传递性值的时间比并行方法快4.08倍;当节点数趋于无穷大时，使用顺序方法计算平均距离和直径值的时间比并行方法快5.27倍。结果表明，该方法具有较好的速度和效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 18th International Conference on Parallel and Distributed Computing, Applications and Technologies (PDCAT)

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