开发一种仪器包来测量新生儿病人运输中的噪音和振动

Keely Gibb, Nikita Yovchev, C. Aubertin, K. Greenwood, S. Redpath, A. Ibey, A. Chan, J. R. Green, R. Langlois
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引用次数: 1

摘要

对于需要专门医疗护理的病人,往往需要在设施间运输。在新生儿患者的情况下,使用专门的运输系统来确保运输期间的持续护理。对患者在运输过程中所暴露的物理压力源的关注,促使我们正在进行评估和减轻这些系统中的振动和噪声的研究。无论各种测试配置,无论是全尺寸车辆测试还是实验室振动筛测试,都需要可靠和一致的数据收集实践。目前正在开发一种仪器套件,用于测量运输系统的噪音和振动,以最终提高患者在运输过程中的安全性。该系统旨在促进标准数据收集实践,并最终将独立研究的结果汇总到一个单一的数据库中。该系统的需求已经确定,传感器选择和原型设计的早期阶段正在进行中。当前配置的传感器可以成功地收集加速度、角速率和声级数据。额外的传感器可以集成到系统中,以允许同时研究多个感兴趣的位置。未来的工作将提高数据采集脚本的效率,数据处理的自动化,以及系统的物理实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Developing an Instrumentation Package to Measure Noise and Vibration in Neonatal Patient Transport
Inter-facility transport is often necessary for patients requiring specialized medical care. In the case of neonatal patients, specialized transport systems are used to ensure continuous care during transport. Concerns relating to physical stressors to which the patients are exposed during transport has motivated our ongoing study on evaluating and mitigating vibration and acoustic noise in these systems. Regardless of the various testing configurations, whether they be full-scale vehicle tests or laboratory shaker tests, reliable and consistent data collection practices are desired. An instrumentation package, designed to measure noise and vibration of the transport system, is currently in development to ultimately improve the safety of patients during transport. This system is intended to promote standard data collection practices and ultimately the aggregation of findings from independent studies into a single database. Requirements for the system have been defined, and early stages of sensor selection and prototyping are underway. The current configuration of sensors can successfully collect acceleration, angular rate, and sound level data. Additional sensors can be integrated into the system, to allow for multiple locations of interest to be studied simultaneously. Future work will improve the efficiency of the data collection script, the automation of data processing, and the physical implementation of the system.
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