现代的F1赛车上都有大量的传感器,传感器记录了海量的关键数据,像是油门、制动、加速度等等,并将这些数据传送到后方。
Modern F1 cars are fitted with hundreds of sensors that amass data on key parameters, such as throttle, braking and acceleration, and then send them back to the pits.
此外,还提供了传感器数据的可靠消息传递,用于使用通用格式和协议将数据传输回PremisesServer。
In addition, it provides a reliable messaging transport of the sensor data back to the Premises Server in a common format and protocol.
眼罩装有传感器,用于监测佩戴者的脑波、眼球运动、氧气水平及体温,然后将数据传到相连接的手机上的应用。
It is fitted with sensors that monitor brainwaves, eye movement, oxygen levels and the wearer's body temperature before sending this information to an app on their connected phone.
流程2捕捉传感器数据并把数据传递给EPCIS系统。
Capturing sensor data and moving it into the EPCIS system is described with Flow 2.
目前本设计已应用到光电器件CMOS图象传感器的数据传输并通过了FPGA原型验证。
The design has been used in the data transmission of CMOS image sensor and has passed the FPGA prototype verification correctly.
通过对常见的无线传感器网络(WSN)进行研究,分析了WSN中数据传输瓶颈节点形成的原因。
Through the research on wireless sensor networks, this paper analyzed the reasons which cause the bottleneck node of WSN in data transmission.
安装于住宅中的可靠的红外传感器提供被监护人的动态信息,并将数据传送至家庭电脑(作为服务器运行)。
Reliable infrared sensors installed in the house will supply information on the persons movements. This data is sent to the home computer (run as a server).
该传感器有32个10位数字低电压差分信号传输(LVDS)输出,使超过1在低功耗和低噪音标准工业协议的图像数据传输。
The sensor has 32 10-bit digital low Voltage Differential Signaling (LVDS) outputs that enable transfer of image data over a standard industry protocol at low power and low noise.
这种方法只能对电力线路的某些局部位置进行检测,同时传感器采集的数据传输距离也受到一定程度的限制。
So the traditional method can only measure the temperature of the fixed points, while the data collected by the sensors can only transmit a certain distance.
以上问题使得在无线传感器网络中数据传输的可靠性受到很大限制。
These problems make the reliability of data transmissions in wireless sensor network under great restriction.
一般来说,传感器节点由感应单元、处理器单元、数据传输单元和电源四部分组成。
Generally, sensor nodes are made of sensors units, processors units, data transmission units and power supply.
2005年,马航一架波音777出现故障,其中一个传感器在将数据传输给自动驾驶仪的时候出了问题。
In 2005, a Malaysia Airlines Boeing 777 experienced a malfunction with one of the sensors feeding data to the autopilots.
该文根据传感器信号输出的特点,进行数据采集的处理。
According to the characteristics of sensor signal output, data acquisition of treatment.
并可根据具体需要,选择不同的数据传输方式,实现数字传感器信号高速、实时传输。
Different data transmission mode can be selected according to specific needs. And signal transmission of digital sensor is realized with high-speed and in real-time.
然后介绍了单维力传感器的数据传输系统,其中的电感耦合传输能量、光电耦合传输信号是多维力传感器信号传输的基础。
Its electromagnetic induction couple for energy transmission and ray-electricity couple for signal transmission were still used in multi-component transducer data acquisition system.
再根据传感器检测的停车设备运行状态及车库结构参数,组织专家系统的综合数据库。
Then, the synthesis database of expert system is established according to the running status of parking equipments which detected by sensors and garage structure parameters.
设计了基于内部总线的同步周期触发,定义了一致的传感器、执行器单元执行时序,以及精确光纤链路数据传输模型,确保测控的高同步性。
Design of synchronous cycle trig based on internal bus, consensus definition of sensor sampling and actuator timing and precise data transmission model ensured the synchronization performance.
每个传感器都具有无线通信能力和一些信号处理和数据传输能力。
Each sensor has wireless communication capability and some level of intelligence for signal processing and networking of the data.
利用无线传感器网络中节点感知数据的相关性,提出了一种基于预测修正的动态数据传送机制。
A dynamic data transmission mechanism based on prediction revision is presented according to the inherent correlation of sampling data between nodes in WSNs.
系统由多类型传感器组成,单个传感器测量范围小,测量误差大,并且数据传输时延大。
The system is made up of several types of sensors, considering that a single sensor is characterized by small coverage, great measuring error and serious time delay of data propagation.
嵌入式飞行数据传感(FADS)系统是一种依靠嵌入在飞行器前端的压力传感器阵列来间接获得飞行参数的飞行数据传感系统。
The flush air data sensing (FADS) system USES a matrix of pressure transducer on the vehicle nose to estimate air data parameters.
由于传感器节点的能量主要消耗在传输数据上,所以减少节点数据传输量可以有效延长网络生命期。
As the energy of sensor nodes mainly is consumed in transmitting data, reducing the amount of data transmitted can extend the network lifetime.
系统利用分布式光纤光栅温度传感器对电力线路温度数据进行实时检测,然后将检测到的温度数据传送至数据处理部分。
The data acquisition sub-system USES distributed optical fiber grating temperature sensor system to measure the temperature of the cables, and transmits the data to the data processing sub-system.
综合考虑数据的可靠传输性和无线传感器网络的节点使用寿命,对网络节点的数据传输多跳路由协议进行分析与设计。
Considered a reliable data transmission and wireless sensor network nodes 'life, we analyze and design the data transmission network of node multi-hop routing protocol.
数据收集事件包括:从远程通信装置请求数据,将传感器数据传送到远程通信装置并处理传感器数据。
A data collection event includes a request for data from a remote communication device, a transfer of sensor data to the remote communication device and a processing of the sensor data.
对该系统的硬件连接、工作原理进行了论述,并重点讨论了系统中无线传感器网络节点的组成,CC 1000的通讯,蓝牙通信的建立以及数据传输等方面的问题。
The hardware connection and working principles of the system are discussed and focusing on key technologies such as the compose of node, the communication of CC1000, Bluetooth and data transmission.
测量是通过安装在教室墙上的隐蔽传感器装置实现的,并通过因特网把数据传送到远端的数据收集点。
Measurements were made using unobtrusive sensor packages mounted on classroom walls that transmitted data to a remote site using the Internet.
其中水平位移传感器数据是以无线数据传输的形式传送的,便于操作控制。
The data of the horizontal displacement sensor is transmitted by wireless transmission, so the sensor can be easily controlled.
该测温系统利用分布的多台下位机,通过选择合适的测温传感器,并采用调制解调器进行数据传输,解决了温度测量中的多点和分布的问题。
The system solves the temperature measuring problem of multi-points in distributed location by using a central computer and a lot of distributed computers.
因此,无线传感器网络路由协议设计的主要目的是在保证数据传输正常的前提下尽可能地延长网络的生存时间。
Therefore, the wireless sensor network routing protocol design the main objective is to ensure that data under the premise of a normal extension of the network as much as possible the survival time.
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