TY -的盟Donaire-Gonzalez大卫AU -瓦伦汀,安东尼娅AU - de Nazelle奥黛丽盟——安布罗斯·艾伯特AU - Carrasco-Turigas,格洛丽亚盟——濑户,埃德蒙AU - Jerrett,迈克尔•AU - Nieuwenhuijsen Mark J PY - 2016 DA - 2016/11/10 TI -移动电话技术的好处为个人环境监测乔- JMIR Mhealth Uhealth SP - e126六世- 4 - 4 KW -智能手机KW -手机KW -移动应用KW -监控,背景:在环境流行病学研究中,使用新型移动电话技术跟踪个体可以提供有关地理位置和身体活动的有价值信息,这将提高我们对环境暴露的理解。目的:本研究的目的是评估市场上最便宜的手机之一的性能,以跟踪人们的旅行活动模式。方法:在巴塞罗那生活和工作的成年人(72/162名骑自行车通勤者)同时携带手机和全球定位系统(GPS)追踪器,填写1周的旅行活动日记(TAD) (N=162)。手机应用CalFit被用来记录参与者的地理位置和身体活动。利用新开发的时空地图匹配算法,将地理位置数据分配到不同的微环境(家庭、工作或学校、交通中等)。采用卡方检验和Kruskal-Wallis秩和检验比较手机与GPS跟踪器的跟踪性能。使用Gwet协议系数(AC1)比较了TAD和算法在所有微环境下的分钟一致性。结果:手机比GPS追踪器在旅行日记中多获得905次(29.2%)的位置(P< 0.001),中位精度为25米。根据TAD,受试者在家中、工作场所、交通工具和其他场所的平均时间分别为57.9%、19.9%、9.0%和13.2%;根据地图匹配算法,受试者在家中、工作场所、交通工具和其他场所的平均时间分别为57.5%、18.8%、11.6%和12.1%。 The overall minute agreement between both methods was high (AC1 .811, 95% CI .810-.812). Conclusions: The use of mobile phones running the CalFit app provides better information on which microenvironments people spend their time in than previous approaches based only on GPS trackers. The improvements of mobile phone technology in microenvironment determination are because the mobile phones are faster at identifying first locations and capable of getting location in challenging environments thanks to the combination of assisted-GPS technology and network positioning systems. Moreover, collecting location information from mobile phones, which are already carried by individuals, allows monitoring more people with a cheaper and less burdensome method than deploying GPS trackers. SN - 2291-5222 UR - http://mhealth.www.mybigtv.com/2016/4/e126/ UR - https://doi.org/10.2196/mhealth.5771 UR - http://www.ncbi.nlm.nih.gov/pubmed/27833069 DO - 10.2196/mhealth.5771 ID - info:doi/10.2196/mhealth.5771 ER -