GPS multipath mitigation for urban area using omnidirectional infrared camera
IEEE Transactions on Intelligent Transportation Systems
A solution to the ill-conditioned GPS positioning problem in an urban environment
IEEE Transactions on Intelligent Transportation Systems
Modeling the stochastic drift of a MEMS-based gyroscope in gyro/odometer/GPS integrated navigation
IEEE Transactions on Intelligent Transportation Systems
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Misalignment can be an important error source in the integration of the global positioning system (GPS) and inertial navigation systems. This paper presents car test results on the estimation of alignment errors in the integration of a low-grade inertial measurement unit (IMU) with accurate GPS measurement systems. The car test was conducted with a low-cost solid-state IMU and carrier-phase differential GPS measurement systems. Test results showed that changes in the angular velocity improve the estimation of the lever arm between the GPS antenna and IMU. They also showed that changes in acceleration improve the estimation of the relative attitude between the GPS antenna array and IMU. The lever arm was estimated with a 10-cm error. The relative attitude was estimated with a half-degree error. An iterative scheme was used to improve the estimation of the alignment errors during postprocessing. The scheme was shown to be useful when the test car could not have sufficient changes in motion due to limitations in its path. With the given set of test data, the estimation error decreased as the number of iterations increased.