[1] W. M. Wang, W. j. O. Boyle, K. T. V. Grattan. Fiber-optic Doppler velocimeter that incorporates active optical feedback from a diode laser[J]. Opt. Lett., 1992, 17(11): 819~821
[2] V. Skvortzov, C. C. Yong, L. L. Byeung et al.. Development of a gyro test system at samsung advanced institute of technology[C]. Position Location and Navigation Symposium, PLANS 2004, 26~29, April 2004: 133~142
[3] W. M. Wang, K. T. V. Grattan, A. W. Palmer et al.. Self-mixing interference inside a single-mode diode laser for optical sensing applications[J]. J. Lightwave Technol., 1994, 12(5): 1557~1558
[4] G. Plantiern, C. Bes, T. Bosch. Behavioral model of a self-mixing laser diode sensor[J]. IEEE J. Quantum Electron., 2005, 41(9): 1157~1166
[5] P. King, G. J. Steward. Metrology with an optical maser[J]. New Science, 1963, 17(3): 180~182
[6] J. Kato, N. Kikuchi. Optical feedback displacement sensor using a laser diode and its performance improvement[J]. Measurement and Technology, 1995, 6(1): 45~52
[7] N. Servagent, T. Bosch, M. Lescure. A laser displacement sensor using the self-mixing effect for modal analysis and defect detection[J]. Instrumentation and Measurement, 1997, 46(4): 847~850
[9] Zhang Zhaoyun, Gao Yang, Zhao Xinghai et al.. Velocity measurement by the self-mixing effect[J]. Infrared and Laser Engineering, 2008, 37(52): 182~187
[10] Xu Jun. Research on Velocimeter and Range Finder Utilizing Self-Mixing Effect in Single-Mode VCSEL and Three Dimensional Imaging[D]. Anhui: University of Science & Technology of China, 2006