论文信息 - Design of Mounting Bracket for Missile-Borne Laser Gyroscope INS

Design of Mounting Bracket for Missile-Borne Laser Gyroscope INS

Since the circle error probability (CEP) of the laser gyroscope inertial navigation system (INS) based on a certain weapon control system is a little larger in ground dynamic navigation test, an effective vibration-damping system has been designed. Data processing for the vibration experiments’ results and normal mode analysis show that the resonance frequency of the original mounting board is near the mechanical dither frequency of the laser gyroscope, which can lead to a larger mounting board response at the mechanical dither frequency. This is the main reason for the larger navigation error. A stiffer mounting board was designed, and another mounting bracket with better dynamic characteristics was developed. Ground vibration experiments and navigation simulation for laser gyroscope show that the new vibration isolation system can feed the desired requirements.

Hai Feng Wang | De Dong Huang | Bin Wu | Pi Man Ding

[1] Dimitri N. Mavris,et al. A Conceptual Design for the Space Launch Capability of the Peacekeeper ICBM , 2002 .

[2] M. Petovello. Real-time integration of a tactical-grade IMU and GPS for high-accuracy positioning and navigation , 2003 .

[3] E. Rivin. Passive Vibration Isolation , 2003 .

[4] Tang Guo-jing. Optimum parameter of INS system absorber , 2005 .

[5] Valery I. Gupalov,et al. Application of a ring laser for measurement of track geometrical parameters , 2000, Other Conferences.

[6] Tang Xian-lin. Aseismatic control of system structure for Laser strapdown IMU , 2006 .

[7] Rui,et al. PASSIVE-ACTIVE CONTROL OF POWER FLOW IN AN ISOLATION SYSTEM MOUNTED ON FLEXIBLE FOUNDATIONS , 2001 .

[8] Mark G. Petovello,et al. Benefits of Using a Tactical-Grade IMU for High-Accuracy Positioning , 2004 .