说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 句库 -> 时空滤波
1.
COMPARISON AMONG THREE SPATIOTEMPORAL FILTERING METHODS FOR REGIONAL GPS NETWORKS ANALYSIS
区域GPS网三种时空滤波方法的比较
2.
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
3.
Infrared Small Target Detection Based on Newly Spatial-Temporal Filtering
一种新的空时域滤波小目标检测方法
4.
Research on Optimization of Spatial and Temporal Prediction, In-loop Filtering for H.264/AVC Codec;
H.264/AVC时空域预测及环路滤波优化研究
5.
Research on Time-variant Spatial Filter of Brain-computer Interface
脑-机接口中时变公共空间滤波器的研究
6.
An Implementation of Space-time Adaptive Filter Based on 7-element Circular Array
7元圆阵高维空时自适应滤波的快速实现
7.
Detection of a Dim and Small Moving Target Using a Temporal-spatial Fusion Filtering Algorithm
基于时空域融合滤波的弱小运动目标检测算法
8.
Space-Time Separable Filter for Adaptive Clutter Suppression in Phased Array Airborne Radars
相控阵机载雷达杂波抑制的空时可分离自适应滤波
9.
Spatio-Temporal Inverse Filtering for Small Underwater Object Detection Based on Time Reversal Processing;
用时间反转处理实现水中小目标探测的空—时逆滤波
10.
Spatio-temporal filtering of real-time X-ray images for weld inspections
用于焊缝检测的X射线实时图像序列时空域滤波
11.
A Lattice Filter Implementation for Temporal-Spatial 2-D Signal Processing in AEW Radar
机载预警雷达时-空二维信号处理的格型滤波器的实现
12.
For use with AEW radar, a new space-time adaptive filter with recursive algorithm was proposed The recursive algorithm with M-LMS is adopted;
本文针对预警机雷达 ,提出了一种递推式空时二维自适应滤波器。
13.
The Forecast of Exchange Rate Time Series Based on the Combined Model of the Phase Space Reconstruction and Kalman;
基于相空间重构与卡尔曼滤波计算组合的汇率时间序列预测
14.
Superconducting filter and module for deep space network in China
深空探测用超导滤波器及滤波放大组件
15.
TVF Time Variable Filter
可随时间变化的滤波器
16.
Modified Kalman filter of TDOA in ultrasonic flow measurement
超声波流量测量时差改进卡尔曼滤波
17.
MAKING PROJECT OF THE ABBE'S THEORY OF IMAGE FORMATION AND SPATIAL FILTER MULTIMEDIA COURSEWARE
《阿贝成像与空间滤波》多媒体课件制作
18.
Realization of New Hole Filter Based on CNN
一种新的神经网络空洞滤波器的实现