同步
示波器
多普勒效应
职位(财务)
光学
测速
计算机科学
度量(数据仓库)
测距
物理
频道(广播)
激光器
激光多普勒测速
声学
探测器
电信
数据库
传输(电信)
内科学
医学
血流
经济
财务
天文
作者
Jing Wang,Shouxian Liu,Shixing Tao,J. Li,Qixian Peng
摘要
The accurate measurement of an object’s motion requires knowledge of both its position and its velocity. The commonly used photonic Doppler velocimetry and broadband laser ranging techniques are ideal for conducting simultaneous dynamic experiments. Instead of employing two distinct measurement systems, we developed a hybrid system that can simultaneously measure velocity and distance in dynamic experiments. This reduces cost and complexity, particularly for multi-channel tests, by using only one probe, photodetector, and oscilloscope channel. By precisely synchronizing the velocity and distance data in time, the system can assist with interpreting the target’s position and orientation.
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