SPDO: High-throughput road distance computations on Spark using Distance Oracles

2016 IEEE 32nd International Conference on Data Engineering (ICDE) Pub Date : 2016-05-16 DOI:10.1109/ICDE.2016.7498328

Shangfu Peng, Jagan Sankaranarayanan, H. Samet

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引用次数: 18

Abstract

In the past decades, shortest distance methods for road networks have been developed that focus on how to speed up the latency of a single source-target pair distance query. Large analytical applications on road networks including simulations (e.g., evacuation planning), logistics, and transportation planning require methods that provide high throughput (i.e., distance computations per second) and the ability to “scale out” by using large distributed computing clusters. A framework called SPDO is presented which implements an extremely fast distributed algorithm for computing road network distance queries on Apache Spark. The approach extends our previous work of developing the ε-distance oracle which has now been adapted to use Spark's resilient distributed dataset (RDD). Compared with state-of-the-art methods that focus on reducing latency, the proposed framework improves the throughput by at least an order of magnitude, which makes the approach suitable for applications that need to compute thousands to millions of network distances per second.

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SPDO:使用distance oracle在Spark上进行高吞吐量道路距离计算

在过去的几十年里，道路网络的最短距离方法已经发展起来，其重点是如何加快单个源-目标对距离查询的延迟。道路网络上的大型分析应用程序，包括模拟(例如，疏散计划)、物流和运输计划，需要提供高吞吐量(例如，每秒距离计算)和通过使用大型分布式计算集群“向外扩展”的能力的方法。提出了一个名为SPDO的框架，该框架在Apache Spark上实现了一种极快的分布式道路网络距离查询算法。该方法扩展了我们之前开发ε-distance oracle的工作，该工作现在已适应使用Spark的弹性分布式数据集(RDD)。与专注于减少延迟的最先进方法相比，所提出的框架将吞吐量提高了至少一个数量级，这使得该方法适合需要每秒计算数千到数百万网络距离的应用程序。

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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2016 IEEE 32nd International Conference on Data Engineering (ICDE)

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