A wavelet-based system method for processing signal of FOG in strap-down inertial systems
Research output: Contribution to journal › Article › peer-review
Fibre optical gyroscopes (FOGs) have been applied widely in many ﬁelds in contrast with their counterparts such as mechanical gyroscopes and ring laser gyroscopes. The precision of FOG is aﬀected signiﬁcantly by bias drift, angle random walk, temperature eﬀects and noises. Especially, uncertain disturbances resulting from road irregularities often aﬀect accuracy of strap-down inertial system (SINS). Hence, eliminating uncertain disturbances from outputs of a FOG plays a crucial role to improve accuracy of SINS. This paper presents a wavelet-based method for denoising signals of FOGs in SINS used for exploring and rescuing robots in coal mines. Property of road irregularities in mines is taken into account as a key factor resulting in uncertain disturbances in this research. Both frequency band and amplitude of uncertain disturbances are introduced to choose ﬁltering thresholds. Experimental results have demonstrated that the proposed method can eﬃciently eliminate uncertain disturbances due to road irregularities from outputs of FOGs and improve accuracy of surrogate data. It indicates that the proposed method has a signiﬁcant potential in FOG-related applications.
|Number of pages||9|
|Journal||International Journal of Robotics and Automation|
|Publication status||Published - 2009|