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1)  wavelet neuron
小波元
1.
The paper discusses a wavelet network for the ECG data compression and proposes the method for choosing its wavelet neuron.
介绍了用于心电数据压缩而构造的一种小波神经网络以及它的小波元选择的方法。
2)  wavelet element
小波单元
1.
Adopting the scaling functions of Daubechies wavelet as interpolation functions of element, a wavelet element used to analyze the deformation and proper vibration of beam on elastic foundations was constructed.
利用Daubechies小波尺度函数作为单元插值函数,构造了用于弹性地基梁弯曲变形和自振固有频率分析的小波单元,给出了单元矩阵的计算方法。
3)  multivariate wavelet
多元小波
1.
Non-tensor multivariate wavelets was wildly used in pattern recognition and texture analysis and edge detection.
非张量积多元小波被广泛地应用在模式识别、纹理分析和边缘检测等领域。
4)  Wavelet finite element
小波有限元
1.
Theory and application of wavelet finite element method for thin plate;
薄板小波有限元理论及其应用
2.
A method of solving plane problems based on B-Spline wavelet finite element;
基于小波有限元的平面问题求解方法
3.
The wavelet finite element stiffness matrix of crack is constructed and the algorithm for crack fault diagnosis based on wavelet finite elements is proposed, which overcomes the deterioration in the performance of classical finite element method caused by the crack top singularity.
从线弹性断裂力学的角度考虑裂纹引起的局部附加柔度,进而构造了小波有限元裂纹刚度矩阵,提出了基于小波有限元的裂纹故障诊断算法,克服了裂纹奇异性给传统有限元算法造成的困难。
5)  wavelet actuating wave
小波驱动元
1.
The principle of wavelet differential control is to alter the trajectory of actuating head of bimodal USM to obtain micro-nanometer displacement and to change the triggering frequency of wavelet actuating wave to get different step velocities of bimodal USM.
小波差动控制的机理是通过改变双模态USM驱动头的运行轨迹来实现双模态USM的微纳驱动,以及通过控制小波驱动元的触发频率以获取所需的双模态USM步进速度。
6)  wavelet finite element method
小波有限元
1.
Identification of crack for cantilever beams based on wavelet finite element method and genetic algorithm
基于小波有限元的悬臂梁裂纹遗传优化辨识
2.
A multivariable wavelet finite element method (FEM) is presented, which is based on Hellingger- Reissner variational principle.
提出了一种基于二类变量广义变分原理的多变量小波有限元方法。
3.
The model of the mold cavity was accurately simulated with the application of wavelet finite element method,this method overcome the deficiency in engineering singularity of the traditional finite element method.
分析了不可压缩、非等温、黏性非牛顿流体在型腔内的流动特点,应用小波有限元法准确地模拟出熔体型腔内充模流动模型,克服了传统有限元在工程奇异性问题求解中的不足。
补充资料:阿波波地狱
【阿波波地狱】
  梵语阿波波,或云唬唬婆(无翻),谓受罪众生,寒苦增极,舌不能动,唯于唇间作此声也。
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