1.
Multi-Resolution Time-Domain Schemes for Numerical Electromagnetic Calculations;
电磁场数值计算中的时域多分辨方法
2.
Comparison Study of MRTD and FDTD Methods for Analysis of 2-D Resonant Structure
基于时域多分辨和时域有限差分的二维谐振结构的分析
3.
Application of Wavelet and Multiresolution Time Domain (MRTD) on Electromagnetic Scattering;
小波与时域多分辨分析(MRTD)在电磁散射中的应用
4.
Application of W-MRTD in near-field optics
基于小波函数的时域多分辨分析在近场光学中的应用
5.
Weak Signal De-noising Based on Accumulated Average in Time-domain and Multi-resolution Analysis Methods
基于时域积累平均和小波多分辨率分析方法的弱信号去噪
6.
Segmentation of a Triangular Mesh Based on Multiresolution Model
多分辨率三角网格基础上的区域分割
7.
In the end, we introduce several main applications of a time reversal mirror and some new methods with TRM.
时间反转镜的时间分辨率和空间分辨率与很多因素有关。
8.
Spatial-Temporal Super Resolution Algorithm of Multi-Carrier-Frequency MIMO Radar
多载频MIMO雷达的空时超分辨算法
9.
Study of the Super-Resolution Reconstruction with Image Sequence of Simultaneous Scene;
同视域多帧视觉影像超分辨率重建技术研究
10.
Region-based Multiresolution Image Fusion Algorithms;
基于区域的多分辨率图像融合算法研究
11.
Study on Beamspace High-resolution Direction-finding Methods;
多目标方位估计的波束域高分辨方法研究
12.
Image enhancement algorithm of airspace gradient operator and wavelet-domain multiresolution analysis based
基于空域梯度算子和小波域多分辨分析的图像增强算法研究
13.
A Technique for Increasing the Resolution of the Subdomain in Finite-Different Time-Domain Method
时域有限差分法中提高局部区域空间分辨率的技术
14.
Fusion Algorithm of Multi-Spectral and High-Resolution Images Based on Region Feature in NSCT Domain
一种基于区域的NSCT域多光谱与高分辨率图像融合算法
15.
Research on the Theory of Multi-Resolutoin Time-Frequency Analysis and the System of Multi-Function Time-Frequency Analyzer
多分辨时频分析理论与多功能时频分析系统的研究
16.
Fourier Domain Multi-Resolution Analysis and Coherence Analysis for Symmetric Dual Channels EES;
对称双通道脑电信号频域多分辨分析和相干分析
17.
Research on Text Detection in Images and Frames Using Multi-Scale and Homogeneity;
基于多分辨分析和一致性的文本区域提取算法的研究
18.
Local Discrimination and Schmidt Decomposition of Multipartite Quantum States in Quantum Information Theory;
量子信息论中多体纠缠态的局域分辨与施密特分解