[3] [3] BAYARD D S, PLOEN S R. High accuracy inertial sensors from inexpensive components:US, 20030187623A1［P］. 2003-03-06.

[4] [4] BAYARD D S, PLOEN S R. Combining multiple gyroscope outputs for increased accuracy［R］. Houston:NASA NPO-30533, 2003.

[5] [5] JI X S. Research on signal processing of MEMS gyro array［J］. Mathematical Problems in Engineering, 2015(3):1-6.

[6] [6] XUE L, WANG L, XIONG T, et al. Analysis of dynamic performance of a Kalman filter for combining multiple MEMS gyroscopes［J］. Micromachines, 2014, 5(4):745-754.

[7] [7] BHOTTO M Z A, ANTONIOU A. Robust set-membership affine-projection adaptive-filtering algorithm［J］. IEEE Transactions on Signal Processing, 2012, 60(1):73-81.

[8] [8] SHEN Q, LIU J Y, WANG Q, et al. OBE smoother for signal processing of MEMS gyroscope array［J］. Journal of Chinese Inertial Technology, 2017, 25(1):109-114.

[10] [10] FANG Y Z, ANTONIOS A. Output feedback receding horizon regulation via moving horizon estimation and model predictive control［J］. Journal of Process Control, 2018(69):114-127.

[11] [11] GAO B B, GAO S S, HU G G. Maximum likelihood principle and moving horizon estimation based adaptive unscented Kalman filter［J］. Aerospace Science and Technology, 2018(73):184-196.

[12] [12] SIMON D. Optimal state estimation, Kalman, H∞ and nonlinear approaches［M］. New Jersey:Wiley, 2010.