[2] JIN J, ZHANG ZH G, WANG ZH, et al..Temperature error compensation for digital closed-loop fiber optic gyroscope based on RBF neural network [J]. Opt. Precision Eng., 2010, 18(10):2171-2177. (in Chinese)
[3] DARRYL B, LEE S,NORMAN T, et al.. Method and apparatus for monitoring angle random walk of fiber optic gyroscope:US,0225323 A1.[P]. 2009.
[4] LEE K S,GARY W A,DICK A, et al.. System for suppression of relative intensity noise in a fiber optic gyroscope:US,6204921 B1[P]. 2001.
[5] XU J Y, WANG X F, LI CH, et al.. Method of external optical intensity modulation to reduce relative intensity noise[J]. Journal of China inertial technology, 2008,16(6):740-743. (in Chinese)
[6] RENATO C R, RICARDO T D, JAMES B. SNR Enhancement of intensity noise-limited FOGs[J]. Journal of Lightwave Technology, 2000,18(12):2146-2150.
[7] ZHANG G C. Super fluorescent fiber source for precision grade fiber optic gyroscope application [J].Infrared and laser engineering, 2006,35(Supp.):9-16. (in Chinese)
[8] KEVIN K, MARK B, WALTER H. High performance fiber optic gyroscope with noise reduction [J]. SPIE. Fiber Optic and Laser Sensors XII. 1994,2292:255.
[9] SUN G F, WU Y J, NA Y L. Investigation into Random Walk in Optical Fiber Gyroscope[J]. Tactiacl Missile Technology, January, 2009(1):75-78. (in Chinese)
[10] YANG Y H, WANG ZH, YI X S, et al.. High precision fiber optic gyroscope based on Er-doped superfIuorescent fiber source.[J]. Journal of Beijing University of Aeronautics and Astronautic, 2005(11):1159-1162. (in Chinese)
[11] SUN G F, NA Y L, WU Y J. Research on suppression methods of Er-doped superfluorescent fiber Srce intensity noise[J]. Infrared and Laser Engineering, 2007(S2):589-592. (in Chinese)
[12] YAO Q, XIE Y P, SONG ZH Q. Analysis on light source intensity noise and noise subtraction method for fiber optic gyroscope [J]. Laser Journal, 2005(5):74-75. (in Chinese)
