Title :
Attitude determination using dedicated and nondedicated multiantenna GPS sensors
Author :
Lu, Guo-Quan ; Cannon, M.E. ; Lachapelle, Gerard
Author_Institution :
Dept. of Geomatics Eng., Calgary Univ., Alta.
fDate :
10/1/1994 12:00:00 AM
Abstract :
We show that the use of nondedicated Global Positioning System (GPS) sensors to determine the attitude parameters of a vessel yields the same level of performance as the use of a dedicated multiantenna receiver, namely an agreement of the order of 0.1° (1σ). The test platform is a survey launch operating at cruising speeds of 10 to 15 kt. The dedicated multiantenna receiver is a four-antenna Ashtech 3DF unit, while the nondedicated sensor array consists of three NovAtel GPSCardTM receivers. The approach used to resolve the relative carrier phase integer ambiguities between the antennas is discussed and the use of antenna baseline constraints is analyzed. A least-squares procedure which utilizes all the position information from the antennas for the estimation of the attitude parameters and their accuracy is presented. The attitude determination results from the two configurations tested are intercompared
Keywords :
antenna arrays; array signal processing; attitude control; least squares approximations; parameter estimation; position measurement; radio receivers; radionavigation; satellite relay systems; NovAtel GPSCardTM receivers; accuracy; antenna baseline constraints; attitude determination; attitude parameters estimation; dedicated multiantenna receiver; dedicated sensors; four-antenna Ashtech 3DF unit; least-squares procedure; nondedicated multiantenna GPS sensors; relative carrier phase integer ambiguities; test platform; vessel; Algorithm design and analysis; Data analysis; Global Positioning System; Information analysis; Marine vehicles; Oscillators; Position measurement; Sensor arrays; Sensor systems; Testing;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
