摘要
针对经典TCAR(three carrier ambiguity resolution)算法受电离层延迟及测量噪声的影响,在中长基线下难以正确固定模糊度的问题,提出一种顾及电离层延迟影响并具有良好自适应抗差特性的改进TCAR算法。在无几何TCAR模型的基础上,通过对模糊度固定的超宽巷进行线性组合得到电离层延迟,再求解宽巷模糊度,通过构造最优组合观测量后用自适应抗差滤波求解窄巷模糊度,以提高窄巷模糊度固定正确率,减小粗差的不利影响。试验结果表明,改进TCAR算法可保证较高的宽巷模糊度固定正确率,有效提高了窄巷模糊度固定正确率,并具有良好抵抗粗差的能力。
For classical TCAR(three carrier ambiguity resolution)algorithm is affected by ionospheric delay and measurement noise,it is difficult to reliably fix ambiguity at medium and long baselines.An improved TCAR algorithm which takes the influence of ionospheric delay into account and has good adaptive robustness is proposed.On the basis of non-geometric TCAR model,ionospheric delay is obtained by linearly combining extra-wide-lane with fixed ambiguity,and then wide-lane ambiguity is solved.Solving narrow-lane ambiguity by adaptive robust filtering by constructing optimal combination observation,which can effectively improve fixed success rate of narrow-lane ambiguity and reduce the adverse effects of gross error.Experimental results show that improved TCAR algorithm can guarantee high fixed correct rate of wide-lane ambiguity,effectively improve fixed success rate of narrow-lane ambiguity,and has good ability to resist gross error.
作者
高扬骏
吕志伟
周朋进
贾铮洋
张伦东
丛佃伟
GAO Yangjun;LüZhiwei;ZHOU Pengjin;JIA Zhengyang;ZHANG Lundong;CONG Dianwei(Institute of Geospatial Information,Information Engineering University,Zhengzhou 450001,China)
出处
《测绘学报》
EI
CSCD
北大核心
2019年第3期295-302,共8页
Acta Geodaetica et Cartographica Sinica
