1.
Time reversal mirror-based underwater acoustic communication scheme
基于时间反转镜的水声通信方案分析
2.
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。
3.
A detection method for LFM signals based on TRM and Wigner-Hough transform
一种基于时间反转镜和Wigner-Hough变换的线性调频信号检测方法
4.
Research of Two-sensor-array Time Reversal Localization Technology Using of Adaptive Interference Counteraction
自适应干扰抵消应用于二元阵时间反转镜定位研究
5.
Study on Space-time Filtering Technology and Its Application in Acoustic Based on an Acoustic Vector Time-reversal Mirror;
矢量反转镜时空滤波技术及其在水声中的应用
6.
The TIME FACTOR is the most important. When TIME is up, Time or Space movements will reverse.
时间因素是最重要的。当时间到达时,时间或者空间变动将反转。
7.
Research on characteristic and Measurement of Switching Time for Automatic Wilding Filter
自动变光焊接滤光镜的转换时间的特性及测量
8.
Fine Structure Recognition of Video Shot Transitions Using Adaptive Gradient Slice
利用自适应时间片梯度谱对镜头转换进行精细识别
9.
Each reversal appears to have taken place in a very short time.
每一次反转看来都是在极短的时间内发生。
10.
Reflections on Business Decision-Making: Time for a Paradigm Shift?
(对商业决策作出的反映:转换模式的时间到了?
11.
The Evolution of Atomic Population Inversion in the Time-Dependent Jaynes-Cummings Model;
依赖于时间的Jaynes-Cummings模型中原子反转的演化
12.
Time Reversal Symmetry and Discrete Rotation Symmetry in Magnetic Particles
磁性粒子的时间反演对称性和旋转对称性效应
13.
Study on the Positioning Method of Damaged Materials with Ultrasonic Time Reversal Techniques
材料缺陷的超声波时间反转定位方法研究
14.
Bottom Target Detection with Iterative Time Reversal
利用时间反转迭代方法的沉底目标探测技术
15.
Underwater Multi-user Communication Based on Distributed Time Reversal
基于分布式时间反转法的水声组网通信
16.
Time reversal imaging method for composite delamination monitoring
复合材料板脱层损伤的时间反转成像监测
17.
Time-reversal multi-user underwater acoustics communication in shallow water
浅海环境中的时间反转多用户水声通信
18.
Utilizing the characteristic of reflection prism in automatic polarization compensation in this test system, which realizes spacial veer transmission of polarization-light.
在该测试系统中利用全反射棱镜的偏振自补偿特性,实现了偏振光的空间转向传输。