Yang Feng scite author profile

A robust optimization approach for a MEMS accelerometer to minimize the effects of temperature variations is presented. The mathematical model of the accelerometer is built. The effects of temperature variations on the output performance of the accelerometer are determined, and thermal deformation of the accelerometer is analyzed. The deviations of the output capacitance and resonance frequency due to temperature fluctuations are calculated and discussed. The sensitivity analysis method is employed to determine the design variables for robust optimization and find out the key structural parameters that have most significant influence on the output capacitance and resonance frequency of the accelerometer. The mathematical model and procedure for the robust optimization of the accelerometer are proposed. The robust optimization problem is solved and discussed. The robust optimization results show that an optimized accelerometer with high sensitivity, high temperature robustness and decoupling structure is finally obtained.

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Numerical study of pattern formation in an extended Gray–Scott model

Wang

Ying

Feng

et al. 2011

Communications in Nonlinear Science and Numerical Simulation

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Gradient-based edge detection with skeletonization (GES) segmentation for magnetic resonance optic nerve images

Feng

Chow²,

Gowdh³

et al. 2023

Biomedical Signal Processing and Control

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Methods of Solving Passband Ripples and Sidelobes for Wavelet Transform Processor Using Surface Acoustic Wave Device

Yang

Gao

et al. 2023

IEEE Trans. Ind. Electron.

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Yang Feng

Study of the Doubly Clamped Beam Yarn Tension Sensor Based on the Surface Acoustic Wave

Robust Optimization of a MEMS Accelerometer Considering Temperature Variations

Numerical study of pattern formation in an extended Gray–Scott model

Gradient-based edge detection with skeletonization (GES) segmentation for magnetic resonance optic nerve images

Methods of Solving Passband Ripples and Sidelobes for Wavelet Transform Processor Using Surface Acoustic Wave Device

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