科研动态

yL23411永利官网登录 > 科学研究 > 科研动态 > 正文

张兵兵博士团队在SCI期刊《Advances in Space Research》发表论文

时间:2021-11-08 09:43:52 来源:永利yl23411官网科研与研究生管理办公室 作者:闫军辉 阅读:

标题:A single station ionospheric empirical model using GPS-TEC observations based on nonlinear least square estimation method

作者:张兵兵,牛继强,李旺,沈毅,吴汤婷,杨魏峰,邓文萍

来源出版物:Advances in Space Research20217

DOI10.13227/j.hjkx.202102127

出版年: 2021

文献类型:Article

语种:英文

摘要:This article presents a nonlinear least square estimation method based on the continuous TEC values at single stations from longtime recorded dual-frequency GPS data of International GNSS Service (IGS) stations to facilitate single-station empirical total electron content (TEC) modelling. The Nonlinear Polynomial GPS-TEC Model (NPGTM) at each of the four different stations (namely Ellesmere Island (alrt), Canada; Lhasa (lhaz), China; New Norcia (nnor), Australia; and East Ongle Island (syog) over the Antarctica) was constructed by the nonlinear least square estimation method using GPS-TEC data from 2005 to 2016 and validated with 20172018 datasets over the same locations in the dependencies of universal time (UT), solar activity (PI index), geomagnetic activity (Ap index) and day of year (DOY). The model was designed for quiet and moderate geomagnetic conditions (i.e. Ap30 and F10.7160 sfu). Compared with IRI-2016 model values in 2017 to 2018, the accuracy of NPGTM model values is improved by 132% in high latitude area, 84% in medium latitude area and 88% in low latitude area. Evaluation results show that the NPGTM model values are in good agreement with GPS-TEC observations in high, medium and low latitude regions, which is much better than the IRI-2016 model values

关键词:Single station; TEC; Dual-frequency GPS data; Nonlinear least square method

影响因子:2.152

论文连接:https://www.sciencedirect.com/science/article/abs/pii/S027311772100572X

编辑:闫军辉