众文网1.无线传感网络 英文翻译
Abstract
This thesis provides a brief survey of the definition, constituent elements and features of wireless sensor network. Moreover, this thesis gives a brief sketch of the extensive using value and the future of wireless sensor network in light of its features.Finally, this thesis discusses the exsisting technique problems.
Key words: wireless sensor network, constituent elements,application,development
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2.跪求一篇“关于传感器的英语文献”最好有翻译成中文的
English name: transducer / sensor Sensor is a physical device or biological organ, can detect, feel the outside world signals, the physical conditions (such as light, heat, humidity) or the chemical composition (such as smoke), and finding out information to other devices or organs. The definition of sensor National Standard GB7665-87 under the definition of the sensor are: "can feel the provisions must be measured and in accordance with the law can be used to convert the signal device or devices, usually from sensitive components and conversion components." Sensor is a detection device, can be felt by measuring the information, and can feel Detected information, according to the law of transformation must be a signal or other form of information required for the output to meet the needs of information transmission, processing, storage, display, recording and control requirements. is the automatic detection and automatic implementation of the primary aspect. Sensor classification Different points of view can be used to classify the sensor: the principle of their conversion (sensor basic physical or chemical effect); their uses; their output signal type and the production of their materials and crafts. According to the sensor working principle, can be divided into physical sensors and chemical sensors two broad categories: Sensor working principle of the classification of the physical sensor applications are physical effects, such as the piezoelectric effect, magnetostriction phenomenon, ionization, polarization, thermoelectric, photovoltaic, magnetic effects, such as electricity. Measured the volume of small changes in signal will be converted to electrical signals. Chemical sensors, including those by chemical adsorption, electrochemical reaction, such as the situation for the causal relationship between sensors, the measured signal small changes in volume will also be converted into electrical signals. Some sensors can not divided into the physical category, it should not be divided into chemical categories. Most of the sensor is based on basic physical principles for the operation. Chemical sensor technology more questions, such as reliability issues, the possibility of mass production, prices etc., and have solved these problems, the application of chemical sensors will have 。
Common sensor applications and operating principle are presented in Table 1.1. In accordance with its purposes, the sensor can be classified as: Stress sensitivity and the force sensor position sensor。
3.无线传感器网络的国外期刊
我的研究方向也是WSN方面的,有很多WSN的文章发在AD HOC方面的期刊,这是我自己整理的期刊,大多是SCIE检索的:
ISSN 期刊名称
1556-4665 ACM TRANS ON Autonomous and Adaptive Systems
1550-4859 ACM TRANSACTIONS ON SENSOR NETWORKS
1570-8705 Ad Hoc Networks
1551-9899 AD HOC & SENSOR WIRELESS NETWORKS
1743-8225 International Journal of Ad Hoc and Ubiquitous Computing
1754-3916 International Journal of Communication Networks and Distributed Systems
1550-1329 INTERNATIONAL JOURNAL OF DISTRIBUTED SENSOR NETWORKS
1748-1279 International Journal of Sensor Networks
0914-4935 SENSORS AND MATERIALS
1424-8220 SENSORS
1546-198X SENSOR LETTERS
0260-2288 SENSOR REVIEW
1530-437X IEEE SENSORS JOURNAL
1341-8939 IEEE Transactions on Sensors and Micromachines
4.英语翻译随着社会的发展,科技的进步,一种新型的网络结构——无线
With the social development ,and advanced in technology ,a new structure of network -wireless sensor network emerged .wireless sensornetwork,combinedwith microelectric technology ,embeded computering technology,mordern network and wireless comunication technology, distribute information processing technology as well as other advanced technology ,can collaborate in real-time monitoring, sensing and gathering environment information where the network coveraged, and progress these information gathered .the processed information is sent via wireless, and self-group multi-hop network transmitted to the observer. Today, wireless sensor network initial used for military , slowly turned to civilian use ,into our daily life.This paper studies how to use GAINZ platform to create a single point temperature measurement is different from traditional distributed temperature measurement system, including ambient temperature feel part of some of the wireless data transmission and data processing, supply with more accurate and reliable measurement results, and based on these information a final decision was made.In essence, this is a WSN-based multi-point temperature measurement solution, the key is temperature data collection, transmission and processingKeywords: wireless sensor network, GAINZ, distributed temperature measurement。
5.有关传感器的外文资料及翻译
中文名称:传感器 英文名称:sensor;measuring element;transducer 定义1:能感受规定的被测量并按照一定的规律转换成可用输出信号的器件或装置。 应用学科:机械工程(一级学科);传感器(二级学科);传感器一般名词(三级学科) 定义2:接受物理或化学变量(输入变量)形式的信息,并按一定规律将其转换成同种或别种性质的输出信号的装置。 应用学科:煤炭科技(一级学科);矿山电气工程(二级学科);煤矿监测与控制(三级学科)
传感器是一种物理装置或生物器官,能够探测、感受外界的信号、物理条件(如光、热、湿度)或化学组成(如烟雾),并将探知的信息传递给其他装置或器官。
6.急求有关传感器的英文文献翻译,包括英文原文以及中文翻译
中,英己送出A transducer is a device that converts one type of energy to another. The conversion can be to/from electrical, electro-mechanical, electromagnetic, photonic, photovoltaic, or any other form of energy. While the term transducer commonly implies use as a sensor/detector, any device which converts energy can be considered a transducer.Transducers are electric or electronic devices that transform energy from one manifestation into another. Most people, when they think of transducers, think specifically of devices that perform this transformation in order to gather or transfer information, but really, anything that converts energy can be considered a transducer.Transducers that detect or transmit information include common items such as microphones, Geiger meters, potentiometers, pressure sensors, thermometers, and antennae. A microphone, for example, converts sound waves that strike its diaphragm into an analogous electrical signal that can be transmitted over wires. A pressure sensor turns the physical force being exerted on the sensing apparatus into an analog reading that can be easily represented. While many people think of transducers as being some sort of technical device, once you start looking for them, you will find transducers everywhere in your everyday life.Most transducers have an inverse that allows for the energy to be returned to its original form. Audio cassettes, for example, are created by using a transducer to turn the electrical signal from the microphone pick-up – which in turn went through a transducer to convert the sound waves into electrical signal – into magnetic fluctuations on the tape head. These magnetic fluctuations are then read and converted by another transducer – in this case a stereo system – to be turned back into an electrical signal, which is then fed by wire to speakers, which act as yet another transducer to turn the electrical signal back into audio wavesOther transducers turn one type of energy into another form, not for the purpose of measuring something in the external environment or to communicate information, but rather to make use of that energy in a more productive manner. A light bulb, for example, one of the many transducers around us in our day-to-day lives, converts electrical energy into visible light. Electric motors are another common form of electromechanical transducer, converting electrical energy into kinetic energy to perform a mechanical task. The inverse of an electric motor – a generator – is also a transducer, turning kinetic energy into electrical energy that can then be used by other devices.As in all energy conversions, some energy is lost when transducers operate. The efficiency of a transducer is found by comparing the total energy put into it to the total energy coming out of the system. Some transducers are very efficient, while others are extraordinarily inefficient. A radio antenna, for example, acts as a transducer to turn radio frequency power into an electromagnetic field; when operating well, this process is upwards of 80% efficient. Most electrical motors, by contrast, are well under 50% efficient, and a common light bulb, because of the amount of energy lost as heat, is less than 10% efficient.What is the Difference Between Transducers and SensorsTransducers are machines used to change one type of energy into another. They can often be found as a component of more complex devices. Sensors are explicitly intended to measure and express levels of measurement. Quite often, sensors are composed of transducers; therefore, one can see how easy it can be to confuse the two.Generally, transducers come in basic varieties of which there are almost endless applications. The first variety is contact transducers. This type is categorized by a single point of contact used to detect energy. There is generally a coupling material, such as water or oil, employed in order to prevent distortion between the source of energy and the point of detection.Many sensors utilize contact transducers in order to detect energy levels and convert that into an electrical energy which would then influence a display meter. One type of contact transducer that was almost ubiquitous in the late 1980s and early 1990s were tape heads. These were found in any cassette player, touching the magnetic tape and reading the magnetic information that was on it. This information was then converted to an electric signal that was carried by wire to speakers or headphones and then converted back into sound waves.The second most common type of transducers is the immersion type. These are intended to work in liquid 。
7.无线传感器网络的国外期刊
我的研究方向也是WSN方面的,有很多WSN的文章发在AD HOC方面的期刊,这是我自己整理的期刊,大多是SCIE检索的: ISSN 期刊名称 1556-4665 ACM TRANS ON Autonomous and Adaptive Systems 1550-4859 ACM TRANSACTIONS ON SENSOR NETWORKS 1570-8705 Ad Hoc Networks 1551-9899 AD HOC & SENSOR WIRELESS NETWORKS 1743-8225 International Journal of Ad Hoc and Ubiquitous Computing 1754-3916 International Journal of Communication Networks and Distributed Systems 1550-1329 INTERNATIONAL JOURNAL OF DISTRIBUTED SENSOR NETWORKS 1748-1279 International Journal of Sensor Networks 0914-4935 SENSORS AND MATERIALS 1424-8220 SENSORS 1546-198X SENSOR LETTERS 0260-2288 SENSOR REVIEW 1530-437X IEEE SENSORS JOURNAL 1341-8939 IEEE Transactions on Sensors and Micromachines。
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