Angular rate optimal design for the rotary strapdown inertial navigation system

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Abstract

Due to the characteristics of high precision for a long duration, the rotary strapdown inertial navigation system (RSINS) has been widely used in submarines and surface ships. Nowadays, the core technology, the rotating scheme, has been studied by numerous researchers. It is well known that as one of the key technologies, the rotating angular rate seriously influences the effectiveness of the error modulating. In order to design the optimal rotating angular rate of the RSINS, the relationship between the rotating angular rate and the velocity error of the RSINS was analyzed in detail based on the Laplace transform and the inverse Laplace transform in this paper. The analysis results showed that the velocity error of the RSINS depends on not only the sensor error, but also the rotating angular rate. In order to minimize the velocity error, the rotating angular rate of the RSINS should match the sensor error. One optimal design method for the rotating rate of the RSINS was also proposed in this paper. Simulation and experimental results verified the validity and superiority of this optimal design method for the rotating rate of the RSINS. © 2014 by the authors; licensee MDPI, Basel, Switzerland.

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APA

Yu, F., & Sun, Q. (2014). Angular rate optimal design for the rotary strapdown inertial navigation system. Sensors (Switzerland), 14(4), 7156–7180. https://doi.org/10.3390/s140407156

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