关于测光和剂量测定数据集的元数据建议。

BMC digital health Pub Date : 2024-01-01 Epub Date: 2024-08-28 DOI:10.1186/s44247-024-00113-9

Manuel Spitschan, Grégory Hammad, Christine Blume, Christina Schmidt, Debra J Skene, Katharina Wulff, Nayantara Santhi, Johannes Zauner, Mirjam Münch

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引用次数: 0

摘要

背景：光照对人体健康有重大影响，它调节着我们的昼夜节律、睡眠-觉醒周期和其他生理过程。随着可穿戴光记录仪和剂量计的出现，有关真实世界光照射影响的研究也在不断增加。目前迫切需要对各项研究的数据收集和记录进行标准化：本文提出了一种新的元数据描述符，旨在捕捉通过可穿戴光记录仪和剂量计收集的个性化光照射数据集中的关键信息。该描述符由国际专家合作开发，采用模块化结构，便于未来扩展和定制。它涵盖四个关键领域：研究设计、参与者特征、数据集详情和设备规格。每个领域都包括用于全面记录的特定元数据字段。用户友好型描述符采用 JSON 格式。网络接口可简化兼容 JSON 文件的生成，从而实现广泛的可访问性。版本控制允许未来进行改进：我们的元数据描述符使研究人员的光剂量测定数据集具有 FAIR（可查找、可访问、可互操作和可重用）特性，从而提高了数据集的质量和价值。最终，它的采用将促进我们对真实世界环境中光照射如何影响人体生理和行为的理解。

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Metadata recommendations for light logging and dosimetry datasets.

Background: Light exposure significantly impacts human health, regulating our circadian clock, sleep-wake cycle and other physiological processes. With the emergence of wearable light loggers and dosimeters, research on real-world light exposure effects is growing. There is a critical need to standardize data collection and documentation across studies.

Results: This article proposes a new metadata descriptor designed to capture crucial information within personalized light exposure datasets collected with wearable light loggers and dosimeters. The descriptor, developed collaboratively by international experts, has a modular structure for future expansion and customization. It covers four key domains: study design, participant characteristics, dataset details, and device specifications. Each domain includes specific metadata fields for comprehensive documentation. The user-friendly descriptor is available in JSON format. A web interface simplifies generating compliant JSON files for broad accessibility. Version control allows for future improvements.

Conclusions: Our metadata descriptor empowers researchers to enhance the quality and value of their light dosimetry datasets by making them FAIR (findable, accessible, interoperable and reusable). Ultimately, its adoption will advance our understanding of how light exposure affects human physiology and behaviour in real-world settings.

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BMC digital health

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