Title :
High-accuracy, high-frequency differential carrier phase GPS aided low-cost INS
Author :
Yang, Yunchun ; Farrell, Jay ; Barth, Matt
Author_Institution :
Dept. of Electr. Eng., California Univ., Riverside, CA, USA
Abstract :
This article describes experimental results for a real-time, carrier phase, differential Global Positioning System (GPS) aided inertial navigation system (INS). The INS uses inexpensive solid state inertial sensors sampled and integrated at 150 Hz with differential GPS carrier phase measurements as corrections via a complementary filter at 1 Hz. Therefore, the implementation achieves 150 Hz, vehicle state estimates with position accuracy at the centimeter level. Such navigation systems have many application possibilities (e.g., aviation and precision flight, automated mining, precision farming, dredging, satellite attitude control, and automotive or train control). The experimental results described herein are the result of automated vehicle testing on the high occupancy vehicle lanes of the I-15 near San Diego in July 1999
Keywords :
Global Positioning System; automobiles; inertial navigation; phase measurement; position control; road traffic; safety systems; traffic control; 1 Hz; 150 Hz; HF differential carrier phase GPS INS; I-15; San Diego; automated mining; automated vehicle testing; automotive control; automotive vehicle control and safety system; aviation; centimeter level; complementary filter; differential GPS carrier phase measurements; differential Global Positioning System; dredging; experimental results; high occupancy vehicle lanes; high-accuracy differential GPS INS; inertial navigation system; navigation systems; position accuracy; position control; precision farming; precision flight; real-time GPS; satellite attitude control; solid state inertial sensors; train control; vehicle state estimates; Filters; Global Positioning System; Inertial navigation; Phase estimation; Phase measurement; Real time systems; Satellite navigation systems; Solid state circuits; State estimation; Vehicles;
Conference_Titel :
Position Location and Navigation Symposium, IEEE 2000
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-5872-4
DOI :
10.1109/PLANS.2000.838296
