Optimized continuous homecare provisioning through distributed data-driven semantic services and cross-organizational workflows.

IF 1.6 3区 工程技术 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Mathias De Brouwer, Pieter Bonte, Dörthe Arndt, Miel Vander Sande, Anastasia Dimou, Ruben Verborgh, Filip De Turck, Femke Ongenae
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引用次数: 0

Abstract

Background: In healthcare, an increasing collaboration can be noticed between different caregivers, especially considering the shift to homecare. To provide optimal patient care, efficient coordination of data and workflows between these different stakeholders is required. To achieve this, data should be exposed in a machine-interpretable, reusable manner. In addition, there is a need for smart, dynamic, personalized and performant services provided on top of this data. Flexible workflows should be defined that realize their desired functionality, adhere to use case specific quality constraints and improve coordination across stakeholders. User interfaces should allow configuring all of this in an easy, user-friendly way.

Methods: A distributed, generic, cascading reasoning reference architecture can solve the presented challenges. It can be instantiated with existing tools built upon Semantic Web technologies that provide data-driven semantic services and constructing cross-organizational workflows. These tools include RMLStreamer to generate Linked Data, DIVIDE to adaptively manage contextually relevant local queries, Streaming MASSIF to deploy reusable services, AMADEUS to compose semantic workflows, and RMLEditor and Matey to configure rules to generate Linked Data.

Results: A use case demonstrator is built on a scenario that focuses on personalized smart monitoring and cross-organizational treatment planning. The performance and usability of the demonstrator's implementation is evaluated. The former shows that the monitoring pipeline efficiently processes a stream of 14 observations per second: RMLStreamer maps JSON observations to RDF in 13.5 ms, a C-SPARQL query to generate fever alarms is executed on a window of 5 s in 26.4 ms, and Streaming MASSIF generates a smart notification for fever alarms based on severity and urgency in 1539.5 ms. DIVIDE derives the C-SPARQL queries in 7249.5 ms, while AMADEUS constructs a colon cancer treatment plan and performs conflict detection with it in 190.8 ms and 1335.7 ms, respectively.

Conclusions: Existing tools built upon Semantic Web technologies can be leveraged to optimize continuous care provisioning. The evaluation of the building blocks on a realistic homecare monitoring use case demonstrates their applicability, usability and good performance. Further extending the available user interfaces for some tools is required to increase their adoption.

通过分布式数据驱动的语义服务和跨组织工作流程,优化持续的家庭护理供应。
背景:在医疗保健领域,不同护理人员之间的合作越来越多,尤其是考虑到向家庭护理的转变。为了提供最佳的病人护理,需要在这些不同的利益相关者之间有效协调数据和工作流程。为此,数据应以机器可解释、可重复使用的方式公开。此外,还需要在这些数据的基础上提供智能、动态、个性化和高性能的服务。应定义灵活的工作流程,以实现所需的功能,遵守特定用例的质量约束,并改善利益相关者之间的协调。用户界面应允许以简单、用户友好的方式配置所有这一切:分布式、通用、级联推理参考架构可解决上述挑战。它可以利用建立在语义网技术基础上的现有工具进行实例化,这些工具提供数据驱动的语义服务,并构建跨组织的工作流程。这些工具包括用于生成关联数据的RMLStreamer、用于自适应管理上下文相关本地查询的DIVIDE、用于部署可重用服务的流式MASSIF、用于组成语义工作流的AMADEUS,以及用于配置规则以生成关联数据的RMLEditor和Matey:结果:基于个性化智能监控和跨组织治疗规划的场景建立了一个用例演示器。我们对演示器的性能和可用性进行了评估。前者表明,监测管道每秒可高效处理 14 个观测数据流:RMLStreamer 在 13.5 毫秒内将 JSON 观测数据映射为 RDF,在 26.4 毫秒内对 5 秒的窗口执行 C-SPARQL 查询以生成发烧警报,流 MASSIF 在 1539.5 毫秒内根据严重性和紧迫性生成发烧警报智能通知。DIVIDE 在 7249.5 毫秒内生成 C-SPARQL 查询,而 AMADEUS 在 190.8 毫秒和 1335.7 毫秒内分别构建了结肠癌治疗计划并执行了冲突检测:结论:基于语义网技术的现有工具可用于优化持续护理服务。在现实的家庭护理监控使用案例中对构建模块进行的评估证明了它们的适用性、可用性和良好性能。需要进一步扩展某些工具的可用用户界面,以提高其采用率。
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来源期刊
Journal of Biomedical Semantics
Journal of Biomedical Semantics MATHEMATICAL & COMPUTATIONAL BIOLOGY-
CiteScore
4.20
自引率
5.30%
发文量
28
审稿时长
30 weeks
期刊介绍: Journal of Biomedical Semantics addresses issues of semantic enrichment and semantic processing in the biomedical domain. The scope of the journal covers two main areas: Infrastructure for biomedical semantics: focusing on semantic resources and repositories, meta-data management and resource description, knowledge representation and semantic frameworks, the Biomedical Semantic Web, and semantic interoperability. Semantic mining, annotation, and analysis: focusing on approaches and applications of semantic resources; and tools for investigation, reasoning, prediction, and discoveries in biomedicine.
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