EasiCrawl: A Sleep-Aware Schedule Method for Crawling IoT Sensors

2015 IEEE 21st International Conference on Parallel and Distributed Systems (ICPADS) Pub Date : 2015-12-14 DOI:10.1109/ICPADS.2015.27

Meng Li, H. Chen, Xi Huang, Li Cui

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引用次数: 5

Abstract

With rapid development of smart hardwares and networking protocols, more and more IoT sensors are becoming publicly accessible through the Internet. Many semantic enhanced IoT sensors store the captured events in their description files, making the build of a generic IoT search engine possible. Crawling the events captured by these sensors is a fundamental step towards building this IoT search engine. However, this step faces a challenge due to sensors' sleep behavior and limited energy supply. Using traditional web access strategy for IoT application may cause unpredictable latency in receiving events with low power efficiency. In this paper, firstly the issue how to crawl newly captured events from periodically sleeping sensors is formulated as a schedule problem, which can be solved by constrained optimization. We take expected latency as the optimization object, as this indicates whether the wanted events can be gathered by crawlers in time. Then a sleep-aware schedule method, named EasiCrawl, is proposed for achieving near-optimal expected latency in receiving events. Finally, EasiCrawl is evaluated by simulations and a case study with real-world data from Xively. The simulation results show that EasiCrawl has lower latency than the periodic and greedy crawl strategy.

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EasiCrawl:用于爬行物联网传感器的睡眠感知调度方法

随着智能硬件和网络协议的快速发展，越来越多的物联网传感器可以通过互联网公开访问。许多语义增强的物联网传感器将捕获的事件存储在其描述文件中，从而使构建通用物联网搜索引擎成为可能。抓取这些传感器捕获的事件是构建物联网搜索引擎的基本步骤。然而，由于传感器的睡眠行为和有限的能量供应，这一步面临着挑战。在物联网应用中，如果采用传统的web访问策略，在低功耗的情况下，可能会导致不可预测的事件接收延迟。本文首先将从周期性休眠传感器中抓取新捕获事件的问题表述为一个调度问题，该问题可通过约束优化来解决。我们将期望延迟作为优化对象，因为它表示爬虫是否能够及时收集到想要的事件。然后，提出了一种睡眠感知调度方法，称为EasiCrawl，用于在接收事件时实现近乎最佳的预期延迟。最后，通过模拟和Xively真实世界数据的案例研究来评估EasiCrawl。仿真结果表明，EasiCrawl比周期抓取和贪婪抓取策略具有更低的延迟。

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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2015 IEEE 21st International Conference on Parallel and Distributed Systems (ICPADS)

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