Magnetic Field Positioning Technology of Indoor Sports Bodies
Kai Li, Qingqing Gong, Ren Yajun, Yuan Li, Yan Han, Cunsuo Pang, Huihua Kong
Abstract
Aiming at the problem of the failure of the global positioning system in the satellite denied environment, and facing the needs of the navigation and positioning in indoor space, the technology of indoor magnetic field vector positioning and navigation have been studied. Based on the geomagnetic matching technology, the wavelet analysis method is used to estimate the noise components and statistical characteristics of the magnetic field three-dimensional signal; combined with the Kalman filtering algorithm, through estimating and optimizing the magnetic field vector signal, an indoor magnetic positioning signal processing algorithm with wavelet analysis and Kalman fusion is established, realizing the optimization of the measurement accuracy of the geomagnetic signal and the accuracy of the fingerprint map. The experimental results indicate that the signal-to-noise ratio of the test sequence is increased by 3db, the root mean square error is reduced by about 30%, and the maximum positioning error reaches 1.34m, which can meet the requirements of indoor positioning.