协调像素大小和传感器大小对于优化镜头的透光量来说是一项艰巨的任务,并且经常是说比做更容易。
It is a daunting task to reconcile between pixel size and sensor size with respect to lens light throughput optimization, and is often easily said than done.
飞行员可以在战区上空飞行,在地面上扔下数千个小型无线传感器,每个传感器只有一块小鹅卵石大小,价格为1美元。
Pilots can fly above a war zone and drop thousands of small wireless sensors, the size of a small pebble and costing a dollar apiece, over the terrain.
导弹仪器替代远程目标是以弹道导弹的相似大小和几何形状,但包括一系列传感器来记录和测量激光性能。
The Missile Alternative Range Target Instrument is similar in size and geometry to a ballistic missile, but with a section of sensors to record and measure the laser performance.
小一点如米粒大小的传感器可以被航空公司用于在飞机内部检查是否存在可能干扰线路的大昆虫或啮齿动物。
Smaller versions the size of grains of rice can be used by airlines in the innards of aircraft to check for the presence of large insects or rodents that might interfere with the wiring.
这个摄像头大小与5美分硬币相近,由镜头和传感器阵列两个主要部分组成。
The camera is about as wide as a nickel and has two main parts, a lens and a sensor array.
这两家研究机构组成的研究小组将使用流运算技术来分析高频电磁波传感器记录的数据。按照研究小组的说法:“明年,这项计划中每秒需要处理的数据量高达6GB,而每小时的数据量则多达21600GB,后者几乎是互联网上所有网页大小的总和。”
The organizations will use stream-computing technology to analyze data from sensors that track high-frequency radio waves, the Swedish Institute of Space Physics (IRF) said in a statement.
更小一点如盐粒大小的传感器可以被掺入油漆中,把整个表面变成无线传感器——可以侦测物体的运动或是担当烟雾警报器、安全系统。
Still smaller versions the size of specks of salt can be added to paint, turning entire surfaces into wireless sensors that can detect motion or act as smoke alarms or security systems.
致力于传感器的工程师认为这将最终导致“智能尘埃”的诞生,这是一种可被散布于战场上的尘埃微粒大小的传感器,用于暗中侦察敌方行动。
Engineers working on sensors think this will eventually lead to "smart dust" -sensors as small as dust particles that can be dispersed on a battlefield, say, to spy on the enemy's movements.
加州大学欧文分校的的科学家菲利普·科林斯说,尺寸如盐颗粒大小的电池能够给传感器提供动力,为那些用于检测病毒和化学物质等传感器提供动力。
Batteries that are the size of a grain of salt — or smaller — could power sensors that detect viruses, chemicals and more, said Philip Collins, a scientists at the University of California, Irvine.
这是由像素太多产生的,将过多的细节投射到仅仅只有指甲大小的传感器器上,会使一部分像素吸收的光线太少。
The problem lies in the pixels themselves; try and fit too many onto an imaging sensor the size of a pinkie nail and you’ll have some very small pixels that don’t absorb much light.
电测系统:主要功能是处理由传感器来的电信号,显示出转子不平衡量所处的位置和大小。
The electric measuring system: the main function is to process electrical signals by the sensor, shows the unbalance of rotor position and size.
通过调整传感器节点的通信半径,VGSR算法能够在保证网络不失连通性的同时最大限度地降低MAC地址大小。
By adjusting the communication range of sensor nodes, the VGSR algorithm can minimize the size of the MAC address and meanwhile guarantee the connectivity of the sensor network.
传感器类型,占用空间大小,频率的选择是成功神经阻滞的关键。
Selection of transducer type, footprint size, and frequency are critical to successful nerve block performance.
该系统通过红外雨量传感器检测雨量大小,使用模糊控制算法和脉宽调制技术调节雨刷器的速度;给出了系统的总体结构和具体设计方法。
This system senses the amount of rainfall by the infrared rain sensor, and adjusts the speed of wiper based on the fuzzy control algorithm and pulse width modulation technology.
通过计算机控制,加力机构可以对微小试件按力或位移控制方式加载,载荷大小通过传感器直接由计算机数字化。
The loading frame can work in either load-control or displacement-control mode, and signals from the load sensor are digitalized with the control computer.
利用温度传感器测到被控对象的温度信号与设定温度值进行PID调节,从而控制高频输出功率的大小。
Temperature sensor will be used to measure the temperature signal and build temperature for PID adjusting to realize the automatic output high frequency power.
在变包角板形测量系统中,无辊环式板形辊上传感器受力状态与包角大小有直接关系。
In varying wrap Angle flatness measurement system, the value of wrap Angle has a direct influence on the mechanics status of transducers.
用有限元方法模拟了恒流加热方式下气压对传感器温度分布和温度大小的影响。
Temperature distribution and its amplitude of the sensor under constant current excitation are simulated with finite element method.
结果表明,掺杂和热处理温度对薄膜晶粒尺寸的大小、薄膜的结构形态均有较大的影响,进而影响薄膜的电导及传感器的灵敏度。
The results indicates that doping and temperature of heat treatment greatly affectes the structure of thin film and its size of crystalline grain, thereby, influences its conduction and sensibility.
虚拟传感技术用于估计系统中不能或者难以直接放置传感器的位置处的物理量的大小。
The virtual sensing technology is applied to estimate signals where direct sensors can not be placed.
同时指出,该传感器的压力响应灵敏度随着膜片的大小、中间硬心的尺寸、材料的力学参量的改变而改变。
It is also indicated that the pressure sensitivity of the sensor varies with the size of the diaphragm, the mechanical parameters of the material.
这个设计比现有传感器设计重大地并且使用较少力量,是特别重要的在比较小的设备里象手机和数字式照相机电池大小是仅限于的。
The design also USES significantly less power than existing sensor designs, which is especially important in smaller devices like cell phones and digital cameras where battery size is restricted.
针对舱外自由移动机器人手爪,运用BP神经网络方法,对八个指力传感器的输出进行融合,得到手爪夹持力的大小。
According to outputs of eight finger force sensors the grasping force of gripper is obtained using the multi-sensor data fusion technique based on the BP artificial neural network.
在板形测量系统中,板形辊边部传感器受力状态与覆盖率大小有直接关系。
In flatness measurement system, at the edge of shape meter sensor has the direct relation between forced condition and the coverage fraction size.
其结果是,超薄传感器越来越多地被用在各种各样的健康,安全的,与环境的应用程序,其中大小当然重要的,更少是更,而“薄处于”。
As a result, ultra-thin sensors increasingly are being employed in a wide variety of health, safety, and environmental applications where size certainly matters, less is more, and "thin is in."
通过静态特性分析得到传感器的两个方向的应变的大小,并且通过比较决定应变片粘贴的方向,以获得较大的灵敏度。
Through the static analysis, we can get the strain of two directions, and decide the way to stick the strain foil to obtain better sensitivity.
传感器是列车测速仪的取样部分,而作为取样的传感器,其误差大小直接影响到列车测速仪测速的准确程度。
The sensor is the sample part of the train speed indicator. Being used for getting samples, the error of the sensor affects the accuracy of the result from the train speed indicator directly.
分析了微热板各层薄膜厚度、微热板下气隙高度、支撑桥尺寸、微热板面积大小对传感器加工、工作性能的影响,并结合实际工艺条件设计了一种采用不同支撑桥尺寸的传感器结构。
The effects of dimensions of MHP, gas gap, and supporting beams on fabrication and working performance of the sensor are analyzed, and a new sensor structure with unequal beams is designed.
平台(2)与传感器(3)相连,该传感器(3)感知平台(2)上的重量,并根据重量的大小产生电信号。
The platform (2) is connected to a transducer (3) which is sensitive to weight on the platform (2) and which produces an electrical signal dependant on the magnitude of that weight.
平台(2)与传感器(3)相连,该传感器(3)感知平台(2)上的重量,并根据重量的大小产生电信号。
The platform (2) is connected to a transducer (3) which is sensitive to weight on the platform (2) and which produces an electrical signal dependant on the magnitude of that weight.
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