儿童哮喘传感器数据的可扩展数据集成与分析体系结构。

Dimitris Stripelis, José Luis Ambite, Yao-Yi Chiang, Sandrah P Eckel, Rima Habre
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引用次数: 11

摘要

根据疾病控制中心的数据,在美国有680万儿童患有哮喘。尽管这种疾病很重要,但现有的预后工具还不足以让生物医学研究人员彻底调查这种疾病的潜在风险。为了克服这些挑战,我们提出了由nibib资助的儿童研究使用集成传感器监测系统(PRISMS)项目的数据和软件协调与集成中心(DSCIC)开发的大数据集成和分析基础设施。我们的目标是帮助生物医学研究人员有效地预测和预防哮喘发作。prism - dscic负责收集、整合、存储和分析从异构传感器和传统数据源获得的实时环境、生理和行为数据。我们的架构是基于Apache Kafka, Spark和Hadoop框架以及PostgreSQL DBMS。这项工作的一个主要贡献是使用基于逻辑模式映射和查询重写的中介层扩展Spark框架,以便在一致的协调模式上进行数据分析。该系统对可穿戴和固定传感器产生的大量数据提供批处理和流分析功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Scalable Data Integration and Analysis Architecture for Sensor Data of Pediatric Asthma.

A Scalable Data Integration and Analysis Architecture for Sensor Data of Pediatric Asthma.

A Scalable Data Integration and Analysis Architecture for Sensor Data of Pediatric Asthma.

A Scalable Data Integration and Analysis Architecture for Sensor Data of Pediatric Asthma.

According to the Centers for Disease Control, in the United States there are 6.8 million children living with asthma. Despite the importance of the disease, the available prognostic tools are not sufficient for biomedical researchers to thoroughly investigate the potential risks of the disease at scale. To overcome these challenges we present a big data integration and analysis infrastructure developed by our Data and Software Coordination and Integration Center (DSCIC) of the NIBIB-funded Pediatric Research using Integrated Sensor Monitoring Systems (PRISMS) program. Our goal is to help biomedical researchers to efficiently predict and prevent asthma attacks. The PRISMS-DSCIC is responsible for collecting, integrating, storing, and analyzing real-time environmental, physiological and behavioral data obtained from heterogeneous sensor and traditional data sources. Our architecture is based on the Apache Kafka, Spark and Hadoop frameworks and PostgreSQL DBMS. A main contribution of this work is extending the Spark framework with a mediation layer, based on logical schema mappings and query rewriting, to facilitate data analysis over a consistent harmonized schema. The system provides both batch and stream analytic capabilities over the massive data generated by wearable and fixed sensors.

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