Shaojun Feng scite author profile

To solve the problem that dynamic Allan variance (DAVAR) with fixed length of window cannot meet the identification accuracy requirement of fiber optic gyro (FOG) signal over all time domains, a dynamic Allan variance analysis method with time-variant window length based on fuzzy control is proposed. According to the characteristic of FOG signal, a fuzzy controller with the inputs of the first and second derivatives of FOG signal is designed to estimate the window length of the DAVAR. Then the Allan variances of the signals during the time-variant window are simulated to obtain the DAVAR of the FOG signal to describe the dynamic characteristic of the time-varying FOG signal. Additionally, a performance evaluation index of the algorithm based on radar chart is proposed. Experiment results show that, compared with different fixed window lengths DAVAR methods, the change of FOG signal with time can be identified effectively and the evaluation index of performance can be enhanced by 30% at least by the DAVAR method with time-variant window length based on fuzzy control.

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A novel equivalent method for crashworthiness analysis of composite tubes

Song

Ming

et al. 2022

Composites Part A: Applied Science and Manufacturing

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Shaojun Feng

Adaptive infill sampling criterion for multi-fidelity gradient-enhanced kriging model

Adaptive gradient-enhanced kriging model for variable-stiffness composite panels using Isogeometric analysis

A novel Nested Stochastic Kriging model for response noise quantification and reliability analysis

Dynamic Allan Variance Analysis Method with Time-Variant Window Length Based on Fuzzy Control

A novel equivalent method for crashworthiness analysis of composite tubes

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