Jicheng Ding scite author profile

To overcome the effect of temperature on laser gyro zero bias and to stabilize the laser gyro output, this study proposes a modified radial basis function neural network (RBFNN) based on a Kohonen network and an orthogonal least squares (OLS) algorithm. The modified method, which combines the pattern classification capability of the Kohonen network and the optimal choice capacity of OLS, avoids the random selection of RBFNN centers and improves the compensation accuracy of the RBFNN. It can quickly and accurately identify the effect of temperature on laser gyro zero bias. A number of comparable identification and compensation tests on a variety of temperature-changing situations are completed using the multiple linear regression (MLR), RBFNN and modified RBFNN methods. The test results based on several sets of gyro output in constant and changing temperature conditions demonstrate that the proposed method is able to overcome the effect of randomly selected RBFNN centers. The running time of the method is about 60 s shorter than that of traditional RBFNN under the same test conditions, which suggests that the calculations are reduced. Meanwhile, the compensated gyro output accuracy using the modified method is about 7.0 × 10−4 °/h; comparatively, the traditional RBFNN is about 9.0 × 10−4 °/h and the MLR is about 1.4 × 10−3 °/h.

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Design and Performance Evaluation of an Adaptive Hybrid Coherent and Non-coherent GNSS Vector Tracking Loop

Wu¹,

Ding²,

Zhao³

et al. 2017

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A New Positioning Method for Indoor Laser Navigation on Under-Determined Condition

Xu¹,

Huang²,

Ding³

2016

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Impulse variance control for spacecraft autonomous rendezvous with an observer-based approach

Liu

Sun

et al. 2016

IMA J Math Control Info

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Jicheng Ding

Adaptive UKF Filtering Algorithm Based on Maximum a Posterior Estimation and Exponential Weighting

Laser Gyro Temperature Compensation Using Modified RBFNN

Design and Performance Evaluation of an Adaptive Hybrid Coherent and Non-coherent GNSS Vector Tracking Loop

A New Positioning Method for Indoor Laser Navigation on Under-Determined Condition

Impulse variance control for spacecraft autonomous rendezvous with an observer-based approach

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