测速雷达信号识别是进行辅助决策的关键。
The recognition of velocity radar is critical to the assistant strategy.
测速雷达是交通管理中监测车辆行驶速度的必备工具。
The speed radar detector is a necessity of monitoring vehicle speed for traffic control.
这种倍频器可以满意地用作为某型测速雷达的输出级。
This frequency multiplier may be used satisfactorily as the output-stage some velocity radar.
概述了精确获取测速雷达时间零点的重要性,分析了其对测速精度的影响。
This paper briefly introduces the importance of accurately determining time zero of a speed measuring radar, and discusses its effect on the accuracy of speed measuring.
这里将测速仪与被测对象集成在一个台面上,直观演示了测速雷达的工作原理。
The working principle of the speed radar detector is visually demonstrated by integrating the speed device with the potential objects to be tested.
为了实现高准确的测量对象的速度,激光多普勒测速雷达系统建立和频率估计算法研究。
In order to achieve high accurate measurement of object's velocity, a laser Doppler velocity radar system is established and the frequency estimation algorithm is investigated.
激光多普勒测速雷达技术利用激光多普勒效应测量固体目标的运动速度,或者流场速度分布。
Velocity of solid targets and velocity distribution of flowing fields can be measured by Laser Doppler Velocimeter (LDV) technology based on Doppler Effect.
变量施肥的控制实施系统包括差分gps系统、田间计算机、液压马达、测速雷达和排肥器总成。
The control and actualize system of variable rate fertilization consist of DGPS, Field Computer, Hydraulic Motor, Ground Sensing Radar and fertilizer assembly.
针对测速雷达实时数字信号处理系统的设计问题,提出了一种基于DSP与FPGA的设计新方法。
A new method is presented to implement the velocity radar real-time digital signal processing system based on DSP and FPGA.
本课题完成了基于超声波脉冲的测距雷达的硬件设计、软件设计及系统调试并且完成了测速雷达的硬件调试。
In this dissertation, the design of the hardware and software of the detecting radar based on the ultrasonic pulse are completed, including the debugging on the system and the hardware of CW radar.
本课题完成了基于超声波脉冲的测距雷达的硬件设计、软件设计及系统调试并且完成了测速雷达的硬件调试。
In this dissertation, the design of the hardware and software of the detecting radar based on the ultrasonic pulse are completed, including the debugging on the system and the hardware of CW radar.
应用推荐