Abstract

Time-differenced Carrier Phase Velocity Estimations (TDCPVE) and Doppler Velocity Estimations (DVE) are two commonly used methods for precise velocity estimation with a stand-alone GPS receiver. As the TDCPVE requires a minimum of four satellites for parameter estimation, the time-differenced velocity estimation (TDVE) model was developed by combining the TDCPVE model and time-differenced Pseudo-range Velocity Estimation (TDPVE) model. A limitation of the TDVE is that it can show reduced solution availability, especially during harsh conditions. DVE model theory is stricter than that of the TDVE model, which yields more reliability when vehicle maneuverability is strong. However, its accuracy is low due to the low precision of the Doppler observations. Nevertheless, the advantages and disadvantages of the TDVE and DVE are complementary. This study presents a TD-DVE method by combining the TDVE and DVE models. This method can achieve improved performance by fully using all useful information contained in the GPS and Doppler observations. Static and dynamic data were used to verify and analyze the performance of the TD-DVE. The results show that the accuracy of the TD-DVE was improved compared with the DVE. Compared with the TDVE method, TD-DVE has a much higher solution rate at poor observation conditions and improved accuracy during changing vehicle dynamic conditions. Overall, the TD-DVE enhances the robustness of the individual velocity estimation methods and improves usability.