其中一位设计师说:“现在手套上的超声波传感器相当大了。”
One of the designers said, "Now the ultrasonic sensor on the glove is quite large."
根据文章所说,图片显示了带超声波传感器的手套是如何工作的。
Picture shows how the glove with an ultrasonic sensor works according to the passage.
超声波传感器发射和接收超声波信号。
Ultrasonic sensors are transmitting and receiving ultrasonic signals.
介绍了超声波传感器及其焊缝跟踪工作原理。
The ultrasonic sensor and the working principle in the seam tracking are explained.
超声波传感器被广泛应用于机器人避障系统中。
对模拟量超声波传感器的输出信号进行了数字滤波。
The digital filter was done to the output signal of the analog ultrasonic sensor.
合理的超声波传感器网络分布是实现超声波网络导航的重要条件。
Rational distribution of the ultrasonic sensor net is very important to make it work well.
超声波传感器和摄像机组合可获得修剪平面几何中心线的绝对坐标。
World coordinates of geometric center line of pruned plane was acquired by combination of Ultrasonic sensor and CCD camera.
超声波传感器是实现声电转换的装置,所以,又称为超声波换能器。
Ultrasonic sensor is an instrument which transform sound into electricity, therefore, it is also called ultrasonic wave transducer.
对于危险地点,超声波传感器的额定本质安全的一个可选的安全屏障。
For hazardous locations, the ultrasonic sensor is rated Intrinsically safe with an optional safety barrier.
介绍了超声波的物理基础,研制了焊缝跟踪中的非接触超声波传感器。
The physical foundation of the ultrasonic waves is presented. A contactless ultrasonic sensor in seam tracing is developed.
超声波传感器的模拟输出与离散输出,并可以作为直接的检测传感器。
Ultrasonic sensors with discrete outputs and analog outputs are available as direct detection sensors.
分析了井下钻孔机器人避障中超声波传感器的局限性,并提出解决方案。
Analyzed the limitation of the ultrasonic sensor in the underground drilling robot avoids obstacle, put forward the scheme solved.
安装非接触式以上的液体被测量超声波传感器和安装水密电子外壳附近。
Mount the non-contacting ultrasonic sensor above the liquid being measured and install the watertight Electronics enclosure nearby.
超声波传感器的启动和停止、最大测量距离可以通过软件编程在线调整。
Sensors are triggered or stopped by software set and maximum of range reading is also set by program.
通过对超声波传感器频率特性的分析而求得一个十分简单的超声波匹配电路。
The very simple match circuits of the ultrasonic sensors were obtained by analyzing the frequency properties of the ultrasonic sensors.
超声波传感器的数据载体产生的可听范围内使用非常高的频率,不属于人类。
The ultrasonic sensor produces a data carrier utilizing very high frequencies that are outside the human's audible range.
设计采用超声波检测水位信息,分析矿用超声波传感器的测量原理与技术特点。
Adopting the designed ultrasonic transducer to detect water level, measuring principle and technical features of ultrasonic transducer used in mine were analyze.
所设计的多超声波传感器系统已成功地应用于数字农业研究平台车的实验研究中。
The multiple ultrasonic sensors system designed by us was successfully applied in the study and experimentation of digital agriculture research vehicle.
本实用新型涉及一种汽车倒退防撞报警装置,特别适用于超声波传感器的报警装置。
The utility model relates to an automobile falling back colliding preventing alarm device which is an alarm device especially suitable for ultrasonic sensors.
一种附有消毒功能的饮水机控制电路,包括超声波传感器电路和负离子发生器电路。
The utility model relates to a drinking water machine control circuit with sterilization function, comprising an ultrasonic wave sensor circuit and an anion generator circuit.
探头伸缩杆一端安有超声波传感器、流速测定仪、压力传感器和真空活塞水样采集器。
One end of a probe telescopic rod is provided with an ultrasonic sensor, a flow velocity determinator, a pressure sensor and a vacuum piston water sample collector.
试验结果表明,以超声波传感器测得的水平距离数据作为描述果树外形的依据基本可行。
The result showed that it was feasible to describe the fruiter shape by using the level distance data measured by ultrasonic sensor.
第三,提出了“基于相对误差的最小二乘法”,并将其应用超声波传感器标定的数据拟合。
Thirdly, the least-square method based on relative error is proposed and used to fit the calibration curve of the ultrasonic sensors.
为了解决数字农业平台车的障碍物判别问题,提出了一种基于多个超声波传感器的判别系统。
To solve the differentiating obstacle problem of digital agriculture research vehicle, this paper brought forward a differentiating system which based on multiple ultrasonic sensors.
首先,机器人的传感器(例如接触传感器、光线传感器和超声波传感器)从它的环境中获得信息。
First, the robot's sensors - for example, touch sensors, light sensors, and ultrasonic sensors - take in information from its environment.
水下机器人的定位系统利用超声波传感器获取距离信息,同时采用三点定位法计算出位置坐标。
The orientation system of underwater robot captures the distance information by the ultrasonic sensors, and uses thethree points location theory to compute the coordinate of the position.
在移动机器人可以完成行走任务之后,利用超声波传感器和光电传感器为机器人系统建立避障系统。
After the robots can implement motion tasks, the obstacle avoidance system is devised, using ultrasonic sensors and photoelectric sensors.
设计了超声波传感器及信号转换与处理电路,并设计了相应的检测软件,在此基础上进行了浓度检测实验。
The ultrasound sensor, the signal transform and treatment circuits are designed. The testing software is developed. Then the experiments for the concentration testing are made.
设计了超声波传感器及信号转换与处理电路,并设计了相应的检测软件,在此基础上进行了浓度检测实验。
The ultrasound sensor, the signal transform and treatment circuits are designed. The testing software is developed. Then the experiments for the concentration testing are made.
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