物理層協議 的英文怎麼說

中文拼音 [céngxié]
物理層協議 英文
phphysical-layer protocol
  • : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
  • : Ⅰ名詞1 (物質組織的條紋) texture; grain (in wood skin etc ) 2 (道理;事理) reason; logic; tru...
  • : i 量詞1 (用於重疊、積累的東西 如樓層、階層、地層) storey; tier; stratum 2 (用於可以分項分步的...
  • : Ⅰ形容詞(共同) joint; common Ⅱ動詞(協助) assist; help; aid
  • : Ⅰ名詞(意見; 言論) opinion; view Ⅱ動詞(商議) discuss; exchange views on; talk over
  • 物理 : 1. (事物的內在規律) innate laws of things2. (物理學) physics
  1. Firstly, hart protocol is illustrated, its fsk physical layer specifies the transmittal manner of signal and voltage of signal. data link layer specifies the device type and data transport protocols

    Hart採用iso osi簡化模型, iso osi分為七個功能, hart只用了第一、二、七,即,數據鏈路和應用
  2. This thesis has introduced the development of the traditional wireless sensor network and current situation at first, then analyzed the principle an framework of the wireless sensor network, and the challenge to the traditional wireless sensor network technology for environmental monitoring, put forward the novel environmental monitoring system based on wireless sensor network technology, have recommended a kind of brand - new wireless node design plan of framework of wireless sensor network and node hardware to be designed and realized, then based on ieee 802. 15. 4 standard, this thesis analysed the design faces the wireless communication protocol stack used in environmental monitoring, have introduced the realize of physics layer, data chain layer, network layer, application layer. have solved the wireless sensor network data sampling, systematic energy - conservation optimize, this thesis summarized the preceding work finally, have looked forward to the development, application and commoditization in the future

    本文首先介紹了傳統無線傳感器網路的發展概況及現狀,然後分析了無線傳感器網路的原與架構及其在環境監測對傳統無線傳感器網路技術的挑戰,接著本文提出了新穎的基於無線傳感器網路技術的環境監測系統架構設計,介紹了一種針對大氣環境監測的全新的無線傳感器網路節點的構架設計方案以及節點的硬體設計和實現,然後本文以ieee802 . 15 . 4標準為基礎分析設計了面向環境監測應用的無線通信網路棧,從工程角度介紹了、數據鏈路、網路、應用的設計實現,解決了無線傳感器網路節點的數據採集、節點互聯以及系統節能優化等問題,最後本文總結了前面的工作,展望了基於無線傳感器網路技術的環境監測系統在未來的發展方向和應用方式等幾個方面的發展遠景。
  3. ( 2 ) resolute correlatively key technical problems, such as : embedded modem, embedded tcp / ip protocol, embedded webserver, gateway rg mode, lan inside network communication protocol, physical interface technology, total system miniaturization design and so on

    ( 2 )解決相關關鍵技術難點,主要包括:嵌入式modem 、嵌入式tcp / ip棧、嵌入式webserver 、家居網關rg模型、局域網內部網路通信介面技術、智能應用終端改造途徑、整個系統小型化設計等。
  4. Consequently, the author presents the basic principle of ofdm, and the process how to utilize the certain technology based on fft & ifft to realize the ofdm system

    描述了802 . 11介質訪問控制的操作及幀結構。接著,作者論述了ofdm的基本原,以及如何用基於fft和ifft的技術實現ofdm系統。
  5. The theory of direct sequence and cck is described. the mechanism of tdm is established. then, a method to maintain the synchronization of the tdm is proposed

    在介紹了ieee802 . 11用到的直序擴頻技術和補碼鍵控技術后,對系統的時分雙工工作機制的建立與維護進行了詳細的分析。
  6. In order to save the energy and based on the protocol of ieee 802. 15. 4, we add a timer to maintain the physical and mac layer automatically. our mac protocol can sleep and listen circularly to satisfy the goal of energy saving. in the consideration of the design the software of layers of network and application, we bring forward an idea to fulfill the function of routing and data fusion

    在設計過程中,本文首先基於ieee802 . 15 . 4標準,對和mac需要符合的標準的ieee802 . 15 . 4增加了定時器的自動維護工作,從而形成了我們自己的、 mac,解決了節點的媒體訪問和定時休眠、監聽控制,達到了節能的目的;本文在網路和應用設計中,提出了路由表維護和數據融合的思想,並進行了設計的實現。
  7. The content of this article is the research on the protocols for wireless communications on the media access control ( mac ) layer, which is a sublayer of the link layer, one of the five layers ( the physics layer, the link layer, the network layer, the transmission layer and the application layer ) which construct the stack of protocols for wireless communications. the emphasis of the research is on the applicability and superiority of two protocols on the mac layer

    本文的研究內容是mac ( mediaaccesscontrol )? ?無線傳輸的五棧結構(、鏈路、網路、傳輸、應用)中數據鏈路的媒體接入控制子? ?無線通信,重點研究兩種在傳感器網路應用中的適用性和優越性。
  8. At first, author researched into the electric characteristic of physical layer of the protocol and how to process the mpeg packet in its transmission convergence sublayer, and protracted the sdligr of cable mode initialization

    作者首先研究了docsis規范的電氣特徵、傳輸匯聚子mpeg包的處以及mac的通道共享機制,並繪制出了cablemodem初始化的sdl gr 。
  9. Many network users use tcp / ip protocols that were composed of a series of protocol layers to finish their communication tasks. the user ' s data information is divided into a great many of data blocks. when the data blocks are transported through the layers of the protocols, they are added the controlled information in their headers

    網路用戶終端大多使用tcp / ip通信完成信息的傳輸任務, tcp / ip次結構的通信,用戶數據信息被劃分成一個個的數據分段,經過各時,添加上各的控制信息,作為數據分段的頭部信息,這個頭部信息說明了各相應通信的規則,數據分段經各封裝后最終形成數據幀通過鏈路送到通信網路上傳輸。
  10. The layer 3 switching technology, which combines the advantages of layer 2 switching and layer 3 routing is discussed. the general principles and implementation methods of ethernet layer 3 switch are described, and its advantages and applications are also introduced. in the later part of the thesis, detailed analysis is made for the realization principles of the switching structure and internal function modules of multiplayer

    該部分重點解釋了千兆以太網的體系結構和規范,對pcs 、 pma和pmd子的實現技術和有關演算法的設計思想進行了深入的分析;並對設計中用到的幾種晶元進行了介紹;此外該部分還分析了傳統第二交換機和路由器的局限性,對集第二交換和第三路由優點於一身的第三交換技術進行了討論,闡述了以太網第三交換機的一般原和實現,並介紹了其優點和應用。
  11. Phy physical layer protocol

    物理層協議
  12. Physical layer protocols

    物理層協議
  13. Information processing systems - fibre distributed data interface - part 1 : token ring physical layer protocol

    信息處系統光纖分散式數據介面fddi第1部分:令牌環物理層協議phy
  14. In this report, a thorough analysis and research on the special multiplexing and channel coding project of wcdma system is presented firstly based on 3gpp physical layer protocol

    本文在3gpp物理層協議的基礎上,首先對第三代移動通信wcdma系統中獨特的通道編碼復用方案進行了深入分析和研究。
  15. On the other hand, recent advances in communication and modulation methodologice, as well as in adaptive digital signal processing and error detection and correction, have opened the way for the development of effective medium access control and physical layer protocols that support power line communications ( plc ) networks operating at speeds comparable to those obtained from specially wired and more recent wireless local area network in mid - 2001, an industrial standards organization called the homeplug powerline alliance, originally founded by 13 companies including cisco, motorola, intel, panasonic, and texas instruments, announced the completion of the homeplugl. o specification for a l. 0mb / s class in - home power line networking technology based on orthogonal frequency - division multiplexing ( ofdm )

    但是,近年來通信和調制技術的發展,特別是自適應數字信號處和錯誤檢測及糾正技術,使電力線通信技術出現新的mac物理層協議,其性能可以和一些專用有線網路以及最近十年流行的無線局域網技術想媲美。在2001年,一個由13個公司(包括cisco , motorola , intel , panasonic , andtexasinstruments )組成的組成的標準組織? ? homeplugpowerline聯盟,頒布了完整的homeplug1 . 0規范,改規范使基於正交頻分復用技術,主要針對10mb s室內電力線網路技術。
  16. The physical structure, physical layer protocol and multiple optimized opto - electronic and electronic to electronic design schemes for the next generation of cable digital tv optic packet switching network are discussed in the light of the generation of optic packets, coding scheme, regeneration of optic packets, synchronization of optic packets and flux allotment in optic packet switching

    摘要從光分組的產生、編碼方案、光分組的再生、光分組同步以及光分組交換的流量分配等入手,討論了下一代有線數字電視光分組交換網路的結構、物理層協議配置及光電、電電的多種優化設計方案。
  17. In the gsm system, error - control is the key - technology of the wireless - interface. combining the error - control technology with the software and hardware, in the baseband transmit part of the gsm mobile station test set, i ' ll provide a module which can accomplish the physical layer ' s protocol of the wireless - interface., and the fec technologies, such as cyclic code, convolutional code and viterbi decode, can be achieved by the baseband module, too

    差錯控制技術是gsm移動通信系統無線介面的核心內容,本課題的任務是將差錯控制技術的原與相關的軟、硬體結合起來,在gsm移動電話綜合測試儀的數字基帶模塊中實現gsm無線介面的物理層協議,完成差錯控制技術中的循環碼、卷積碼、交織、 viterbi譯碼等前向糾錯技術。
  18. The difference is from the realization, based on different hardware networks. it " s physical layer radically result in the difference of the protocol stacks, for example, a system based on el and a system based on ethernet network

    差異來自於實現。基於不同的硬體網路,其物理層協議從根本上決定了棧的差別。譬如,一個基於e1的系統和一個基於以太網的系統。
  19. The communication channels are so few in this kind of cell station that we developed 1c7t cell station to provide more channels. this paper introduced the realization of layer 1 standards to 1c7t cell station air interface, and then found out the content of the system

    本文介紹了phs的發展概況,在研究phs物理層協議的基礎上,提出實現1c7t型基站物理層協議的方法,並在dsp和fpga構成的硬體上實現了的功能。
  20. This thesis describes the relationship between the physical level of dvb - c and that of docsis, and demonstrates the feasibility of using cm to transmit the digital tv signal to pc. this thesis also provides the conditions for the cm that can be used to transmit dvb - c signal

    本文通過對dvb和docsis1 . 1的深刻了解,比較了dvb c的物理層協議與歐洲docsis的相關性,論證了可以通過電纜數據機接收並轉發dvb c數據的可行性。
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