Jiawei Xiang scite author profile

Morphing wings have a large potential to improve the overall aircraft performances, in a way like natural flyers do. By adapting or optimising dynamically the shape to various flight conditions, there are yet many unexplored opportunities beyond current proof-of-concept demonstrations. This review discusses the most prominent examples of morphing concepts with applications to two and threedimensional wing models. Methods and tools commonly deployed for the design and analysis of these concepts are discussed, ranging from structural to aerodynamic analyses, and from control to optimisation aspects. Throughout the review process, it became apparent that the adoption of morphing concepts for routine use on aerial vehicles is still scarce, and some reasons holding back their integration for industrial use are given. Finally, promising concepts for future use are identified.

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Convolutional neural network-based hidden Markov models for rolling element bearing fault identification

Wang

Xiang

Zhong

et al. 2018

Knowledge-Based Systems

223

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Wavelet‐Based Detection of Beam Cracks Using Modal Shape and Frequency Measurements

Xiang

Liang

2012

Computer aided Civil Eng

109

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When a structure is subjected to dynamic or static loads, cracks may develop and the modal shapes and frequencies of the cracked structure may change accordingly. Based on this, a new method is proposed to locate beam cracks and to estimate their depths. The fault‐induced modal shape and frequency changes of cracked structures are taken into account to construct a new hybrid crack detection method. The method includes two steps: crack localization and depth estimation. The locations of the cracks are determined by applying the wavelet transform to the modal shape. Using the measured natural frequencies as inputs, the depths of the cracks are estimated from a database established by wavelet finite element method. The effectiveness of the proposed hybrid two‐step method is demonstrated by numerical simulation and experimental investigation of a cantilever beam with two cracks. Our analyses also indicate that the proposed method performed reasonably well at certain level of noise.

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Jiawei Xiang

Research on variational mode decomposition and its application in detecting rub-impact fault of the rotor system

Spectral kurtosis for fault detection, diagnosis and prognostics of rotating machines: A review with applications

A review of modelling and analysis of morphing wings

Convolutional neural network-based hidden Markov models for rolling element bearing fault identification

Wavelet‐Based Detection of Beam Cracks Using Modal Shape and Frequency Measurements

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