Experimental Study on GPS Non-linear Least Squares Positioning Algorithm
The paper gives an overview of non-linear least square method, and presents GPS satellite psendorange observation equations, which are usually overdetermined because there are only 4 unknowns but normally more than 4 satellites being tracked, resulting in more than 4 pseudorange observation equations. Non-linear least squares (NLS) algorithm to solve pseudorange observation equations in order to find position and clock bias solutions are described in detail. There are three tests designed, one vehicle field test and two simulation tests. There are three NovAtel made GPS receivers being used in vehicle field test, while GSS6560 GPS satellite signal generator being used in simulation tests. By employing a set of differential GPS receivers, it is possible to establish rover station receiver to give a relatively high accurate reference to be compared by NLS and another GPS receiver in the vehicle field test. Results from NLS demonstrate that NLS can achieve high accuracy. Experimental study also shows that NLS algorithm possesses similar accuracy level to that of NovAtel Receiver, which represents world leading level.
Least Squares Position Velocity Pseudorange
Xiaojing Du Li Liu Huaijian Li
Beijing Instituted of Technology, Beijing, 100081, China
国际会议
长沙
英文
1432-1435
2010-05-11(万方平台首次上网日期,不代表论文的发表时间)