TY - JOUR AU - Brown III, William AU - Ibitoye, Mobolaji AU - Bakken, Suzanne AU - Schnall, Rebecca AU - Balán, Iván AU - Frasca, Timothy AU - carball - disamuez, Alex PY - 2015 DA - 2015/06/04 TI -天线和塔的制图分析:一个新颖的方法来改善健康的实现和数据传输工具在移动网络乔- JMIR mHealth uHealth SP - e63六世- 3 - 2 KW -地图分析KW - mHealth KW -移动健康KW -天线KW -短消息服务KW -短信KW - SMS KW -无线KW - HIV AB -背景:大多数移动医疗工具,如短消息服务(SMS),移动应用,无线药丸计数器,可摄取的无线监控使用移动通信天线。信号可用性有限,通常是由于天线基础设施差,对移动医疗工具的实施和远程数据收集产生了负面影响。在开始研究之前评估天线基础设施可以帮助缓解这个问题。目前,还没有研究详细说明是否以及如何评估研究地点或地区的天线基础设施。目的:为了解决这一文献空白,我们分析和讨论了在实施基于短信的移动健康试点研究之前,在移动通信中使用天线和塔的制图分析(CAAT)来对移动天线和塔基础设施进行地理评估,并确定移动设备的信号可用性。方法:采用11名现场工作人员对短信系统进行alpha测试。在alpha测试和试点研究的预实施之后,对研究区域的移动网络进行了CAAT。这项初步研究使用了11名与男性发生性关系的高危男性作为方便样本,这些男性在性交前接受了人类免疫缺陷病毒检测试剂盒,用于检测非一夫一妻制的性伴侣。通过短信跟踪产品使用和性行为。 Message frequency analyses were performed on the SMS text messages, and SMS sent/received frequencies of 11 staff and 11 pilot study participants were compared. Results: The CAAT helped us to successfully identify strengths and weaknesses in mobile service capacity within a 3-mile radius from the epicenters of four New York City boroughs. During the alpha test, before CAAT, 1176/1202 (97.84%) text messages were sent to staff, of which 26/1176 (2.21%) failed. After the CAAT, 2934 messages were sent to pilot study participants and none failed. Conclusions: The CAAT effectively illustrated the research area’s mobile infrastructure and signal availability, which allowed us to improve study setup and sent message success rates. The SMS messages were sent and received with a lower fail rate than those reported in previous studies. SN - 2291-5222 UR - http://mhealth.www.mybigtv.com/2015/2/e63/ UR - https://doi.org/10.2196/mhealth.3941 UR - http://www.ncbi.nlm.nih.gov/pubmed/26043766 DO - 10.2196/mhealth.3941 ID - info:doi/10.2196/mhealth.3941 ER -