無線感測器網路的英文文獻

1. 翻譯一個英語小論，關於無線感測器網路的，論文不長

論文呢？看了才可以翻譯

2. 急求有關感測器的外文文獻翻譯，包括英文全文和中文翻譯

節能機制無線感測器網路

Bonuccelli毛主管:

論文commettee:保羅·Ferraggina,皮耶羅Maestrini

外部裁判Basagni,摩尼Srivastava:斯蒂法諾

國家commettee:Bugliesi,Panzieri,Meo

2005年12月27日起,

文摘

本文解決這個問題降低能耗的無線感測器網路。我們提出一套技術和

進口策略研究領域,可以應用於設計節能協議感測器網路。他們包括

時間序列預測,quorums系統的感測器性能和相互作用的協議設計的。我們運用這些技術能有效時間同步問題,從感測器網路數據收集,並確保較強的數據一致性保證在移動網路。

我們表現出[1、2、3、4]時間序列預測技術,特別是AR模型,可適用於感測器網路,以節省能源。我們學習一個簡單的類型的時間序列模型的構建與短預測的窗口。我們已經選擇了這個模式,它很能幹

預測的數據得到了真實世界的感測器測量的物理現象,它非常容易加工的在modern-generation感測器網路。我們運用這些模式,解決兩個有關問題進行感測器網路:問題能有效地收集感測器的數據在水槽,和時間同步的問題。

提出了一種節能框架,叫愛相似-通過適應性強的查詢框架[1,2]),為近似查詢及檢測孤立點價值在感測器網路。這個想法是基於「增大化現實」技術結合當地建立在每個節點模型成為一個全球性的模型存儲的根源,網路

(庫),用來大約回答用戶的查詢。我們的方法使用顯著比以前更少的傳輸採用基於「增大化現實」技術近似方法模型和組織網路集群基於數據之間的相似節點。數據定義基於相似系數模型的地方基於「增大化現實」技術,在水槽儲存在技術,降低了能耗直接比較數據值,讓我們可以得到有效的聚類演算法大概是最佳的,總分組數所形成的網路。我們的集群建設有幾個有趣的特點,使適宜也針對移動網路:首先,他們可以捕捉相似性地理相鄰節點;二、聚類成員,不需要額外消耗適應節點;三、集群內不需要跟蹤加入其他節點在產業集群。此外,大概正確的誤差界愛提供並允許用戶動態調整回答質量解答疑問在能源和資源有效地進行。

此外,我們運用AR模型來解決時間同步問題的一種新的視角生物系的互補時鍾同步問題[3,4]。更確切地說,我們分析的案例感測節點決定跳過一個或多個時鍾調整,達到節能效果,或是暫時孤立的,但仍需要一個精確計算時間。提出了一種基於大概正確的時鍾返回一個模型,是基於「增大化現實」技術一時間估計在一個常數(可調誤差概率約束和問題。該方法是高度適應性強,並允許感測器來決定有多少

時鍾調整它可以跳過同時保持精度,從而節約能源。此外,我們提出一套確定方法,降低了時間估計誤差由至少一個因素2。更確切地說,我們提出大概正確的確定性時鍾讀數方法,叫做DCR方法,利用相關信息時鍾偏差的標志,可應用於減少一半時鍾周期的頻率調整,同時還保持了同樣的錯誤一定[3,4]。

該方法的實踐和理論兩個方面的興趣。事實上,它導致了一個明顯的節能,並詳細地說明了較強的現實時鍾模型可以導致精化的最優開往最大偏差時鍾的定時同步。此外,我們還提出了一種廣義版本的DCR方法,以提高其精度取決於穩定的時鍾,一個方法的單調性,保證了生產的時間值。

第一次我們分析系統技術背景法定感測器網路:我們改造,並向自己的利益能耗方面[6]。法定人數系統有潛力在節約能源方面感測器網路,因為他們可以減少的數量明顯的溝通,提高感測器節點之間的負載平衡,提高系統的可擴充性。然而,以前的法定人數系統和法定人數的度量標准,有線網路提出了,不適合感測器網路,因為他們並沒有解決它們的性能特點和局限性。這些觀察推動了我們重新設計的法定人數系統及相應的度量標准,考慮到限制和特點的感測器(例如,傳輸成本,有限的能量

源、物理的無線電廣播),網路拓撲結構。更確切地說,我們重新定義下列法定度量標准:負載均衡、訪問成本和法定人數能力,並設計策略的一些特點的基礎上,對感測器網路的溝通量減少的人數系統設計時感測器網路。我們運用這些策略設計一個家庭的人數系統節能高彈性。特別是,我們提出一種法定人數減少建設成本,提出了一個訪問數據擴散協議建立在節能上面減少能源消費的傳輸,縮短了碰撞產生的。

此外,我們分析的情況下的人數系統高節點移動性。更確切地說,我們學習困難的問題保證在兩個quorums十字路口時不斷移動路徑沿著未知節點[7]。我們解決這個問題,並定義了一小說,提供流動性模型最低約束集推導出足夠強勁的經濟數據保證在高機動性的網路。在這種情況下,我們會告訴名校以前的法定人數系統,並提供一個條件是必要的,以保證數據的可用性和原子一致性在高節點移動性。我們還提出了一種新的班

法定人數的系統,被叫做移動傳播(苦鹹水淡化,適合於高度quorums移動網路,提出了一種最優建設法定人數方面,大小(例如,通信傳輸)[7]。然後,我們運用總經理法定人數體系,實行大概正確的原子讀/寫共享內存移動、稀疏的網路。

書目

[1],國立台灣Tulone·d·馬登上尉。PAQ:時間序列預測為近似查詢回答

在感測器網路。在第三Proc.歐洲研討會,第1 - 11頁。無線感測器網路21-37 2006年2月。

[2],國立台灣Tulone·d·馬登上尉。查詢框架了節能檢測感測器網路中節點相似之處。

提交會議。

[3]·d·Tulone。全球的可行性評價隔離條件下的無線感測器網路。

出現在Algorithmica。

[4]·d·Tulone。節約型時間估計的無線感測器網路。在Proc.的第四屆車間的原則下,第1 - 11頁。52-59移動計算,2004年10月。

Tulone >[5]。如何能有效率及准確地得到參考時間之間的過程嗎?國際。Symp.分布式計算,10月

2003年。簡短的聲明。25-32頁。

[6]D。Demaine Tulone > >。重新設計的法定人數系統的無線感測器網路。提交會議。

Tulone >[7]。是否有可能確保強勁的經濟數據保證在高機動性的網有關嗎?提交會議。

3. 無線網路優化的參考英文文獻有哪些

無線網路優化的參考英文文獻
關於信息優化主題相關的外文文獻，在《WirelessCommunications,IEEETransactionson》、《Renewableenergy》、《》、《IEEETransactionsonComputer-》、《》等期刊中都有相關的內容，小編為大家整理出了的10篇外文畢業論文文獻，其中包括5篇期刊論文，5篇學位論文，希望能對還在為尋找信息優化選題的相關人員撰寫論文提供參考幫助。

4. 無線感測網路 英文翻譯

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

咕~~(╯﹏╰)b，頭痛發燒中。。。開始不想翻了，後來想你肯定急用，就翻了。

5. 無線感測器網路的國外期刊

我的研究方向也是WSN方面的，有很多WSN的文章發在AD HOC方面的期刊，這是我自己整理的期刊，大多是SCIE檢索的：
ISSN 期刊名稱
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

6. 哪位大神有關於無線感測器網路方面的英文文獻。擺脫了

文獻很多，具體要哪方面的？綜述還是別的什麼？我是搞無線感測器網路故障管理的。

7. 跪求一篇「關於感測器的英語文獻」最好有翻譯成中文的！

給你一個網址，收集了很多關於無線感測器網路的文獻。
Related to Wireless Sensor Networks:
TinyOS、NesC程序開發經驗談
Location in Wireless Sensor Networks_06-07Year(無線感測器網路定位06-07年)
Survey on Wireless Sensor Networks(無線感測器網路綜述)
Hardware on Wireless Sensor Networks(無線感測器網路硬體)
Security in Wireless Sensor Networks(無線感測器網路安全)
Time Synchronization in Wireless Sensor Networks(無線感測器網路時間同步)
Target Tracking in Wireless Sensor Networks(無線感測器網路目標跟蹤)
Location in Wireless Sensor Networks_1/3(無線感測器網路定位1/3)
Location in Wireless Sensor Networks_2/3(無線感測器網路定位2/3)
Location on Wireless Sensor Networks_3/3(無線感測器網路定位3/3)
參考資料：http://chinawangquan.spaces.live.com
再到http://www.hao123.com/ss/fy.htm 去翻譯

8. 是這樣的：中國知網上沒有賬號 想搜索關於無線感測器網路監測的英文，以及中文翻譯~求發送過來

額·放假了 要不在學校的話 能給你下幾篇

文獻
期刊
博碩士
會議
報紙
外文文獻
年鑒
網路
詞典
統計數據
專利

你要以上哪種的呢？

還有個笨方法 你可以試試 在網路搜索
無線感測器網路監測
然後找到你需要的文章 用翻譯器翻譯成英文 ，不過可能不會太准確。

9. 急求有關感測器的英文文獻翻譯，包括英文原文以及中文翻譯

中，英己送出
A transcer 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 transcer commonly implies use as a sensor/detector, any device which converts energy can be considered a transcer.

Transcers are electric or electronic devices that transform energy from one manifestation into another. Most people, when they think of transcers, 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 transcer.

Transcers 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 transcers as being some sort of technical device, once you start looking for them, you will find transcers everywhere in your everyday life.
Most transcers have an inverse that allows for the energy to be returned to its original form. Audio cassettes, for example, are created by using a transcer to turn the electrical signal from the microphone pick-up – which in turn went through a transcer 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 transcer – 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 transcer to turn the electrical signal back into audio waves
Other transcers 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 proctive manner. A light bulb, for example, one of the many transcers around us in our day-to-day lives, converts electrical energy into visible light. Electric motors are another common form of electromechanical transcer, converting electrical energy into kinetic energy to perform a mechanical task. The inverse of an electric motor – a generator – is also a transcer, turning kinetic energy into electrical energy that can then be used by other devices.
As in all energy conversions, some energy is lost when transcers operate. The efficiency of a transcer is found by comparing the total energy put into it to the total energy coming out of the system. Some transcers are very efficient, while others are extraordinarily inefficient. A radio antenna, for example, acts as a transcer 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 Transcers and Sensors

Transcers 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 transcers; therefore, one can see how easy it can be to confuse the two.

Generally, transcers come in basic varieties of which there are almost endless applications. The first variety is contact transcers. 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 transcers in order to detect energy levels and convert that into an electrical energy which would then influence a display meter. One type of contact transcer 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 transcers is the immersion type. These are intended to work in liquid environments. This type is effective at measuring sound, pressure, or other forms of mechanical energy. Paintbrush transcers are used like immersion types are, but they work in open environments and have highly sensitive crystals to detect even the faintest levels of energy. Antennae for radio waves are paintbrush types as they collect the broadcast radio waves and convert them into electrical energy that is converted back into sound by a radio』s speakers.
Vibration Transcer Current Transcer Capacitive Transcers MEMS Sensors