signal multiplexing 中文意思是什麼
signal multiplexing
解釋
記錄裝置中的信號轉換- signal : n 1 信號,暗號;信號器。2 動機,導火線 (for)。3 預兆,徵象。adj 1 暗號的,作信號用的。2 顯著的...
- multiplexing : 倍加
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Multiplexing and conversion of mpeg - 2 are important technology in present broadcasting network. mpeg - 2 is a generic standard about motive video and associated audio signal coding, which has been described by motive picture expert group
Iso發布的mpeg系列標準為廣播電視節目格式的規范提供了可能,其中, mpeg - 2碼流的合成與轉換是目前廣播電視行業的重要技術。 -
Although stb just is a sort of terminal equipments of the tv signal transmission system, however pivotal technique involves the data demodulation, channel decode, transport stream de - multiplexing, audio and video signal decompression technique and real - time software technique with upriver data coding technique etc. therefore, software and hardware technology research and development of stb, which can increase usefulness with dependable of digital video signal and audio signal for study later make the theories preparation and backlog experience
機頂盒雖然只是數字電視傳輸系統的終端設備,但所用到的關鍵技術涉及到數據解調、通道解碼、傳輸流的解復用、音視頻信號解壓縮技術以及實時軟體技術和上行數據的編碼技術等。因此,通過對機頂盒軟、硬體的研究開發,既能為以後研究如何提高信息傳輸的有效性和可靠性作理論上的準備,也為圖像信號和音頻信號的數字化處理積累經驗。 -
In this paper, on the basis of increasingly mature fabrication technologies of planar integrated waveguide and the optical fiber grating, we make use of not only the ( de ) multiplexing and wavelength router characteristic of arrayed waveguide grating ( awg ), but also the dispersion peculiarity of uniform fiber bragg grating ( ufbg ). then a kind of dispersion compensator, which can compensate the dispersion of the optic signal in every channel in the wdm system respectively, is devised. the method makes the compensation efficiency maximum theoretically
本文結合近幾年來日益成熟起來的平面集成波導製作工藝和光纖光柵製作技術,利用陣列波導光柵( awg )的復用特性和波長路由選擇特性與均勻光纖光柵( ufbg )的色散特性,提出了一種能對wdm系統中各分波光信號分別進行有針對性色散補償的補償器件,該器件使wdm系統中各分波光信號所得到的色散補償在理論上達到很高效率。 -
The input data of the multiplexing adopts 8 channels with the speed of 2mb / s, and those of the last two channels are " 0 " and " 1 " respectively, in order to improve the transimision effeciency and deminish the complexity of encode and electronic circuit concerned, furthermore, it makes the synchronous signal acquisition more easier
數字復接中採用八路2m口數據輸入,其中后兩路採用直接輸入「 0 」碼或「 1 」碼的方法,提高了信息傳輸的有效性,便於提取幀同步碼,降低了編譯碼過程的復雜性,同時也降低了系統的電路復雜程度。 -
Raman fiber amplifier ( rfa ) is a kind of optical amplifier that can amplify signal light directly through nonlinear interaction of high intensity pump and signal light in fiber. whereas the spectrum of raman gain coefficient of optical fiber is not flat, the gain of signal light with different wavelength induced by a single pump is rather different, when wavelength division multiplexing ( wdm ) signal light is amplified by a single pump, the gain spectrum of the wdm signal light is not flat. the flatness of the wdm signal light has important impact on the optical signal - to - noise ratio ( osnr )
拉曼光纖放大器( ramanfiberamplifier ,簡稱rfa )利用高強度的泵浦光與信號光在光纖中的非線性相互作用實現信號光的直接放大,但是由於光纖的拉曼增益系數譜很不平坦,所以同一泵浦光源對不同波長信號光的增益就存在很大的差別,因此,用單泵浦光源來放大波分復用( wavelengthdivisionmulti - plexing ,簡稱wdm )信號光時,各信號光的增益值就有很大差異, wdm信號增益的平坦度對光信噪比( opticalsignal - noiseratio ,簡稱osnr )有重要影響。 -
On physical layer, it consists of a variety of ne ( network elements ) with different functions connected by optical fibre cables. compared with pdh, sdh is more widely used in fibre optical communication system these days. the reasons of the wide applicability of sdh are : first, it provides worldwide standards for electrical interface and optical interface, which can promote multi - vendor interoperability ; second, it has the feature of synchronous multiplexing and flexible mapping mechanism, so it can use stm - 1 signal to bundle atm cells, fddi signals as well as pdh signals
Sdh之所以具有強大的生命力和廣泛的適應性,主要有兩個原因:提供統一標準的光介面和電介面,使不同廠家設備實現橫向兼容;採用同步復用方式和靈活的映射結構,以基本傳輸模塊stm - 1為橋梁,與原有的pdh信號實現縱向的前向兼容,與atm 、 fddi等數字體制實現後向兼容。 -
The article lays emphasis on signal multiplexing and demultiplexing technique of transmission system
文章重點敘述了傳輸系統中數字信號的復接與分接技術。 -
There are a lot of signals transmitted in the optic fiber communication system, such as : video, audio, data, telephone or other user - defined signals. if one fiber transmites one signal, it will take a lot of money. it is necessary to take multiplexing in order to make use of optic fiber effectively and reduce the cost
在光纖通信系統中要傳輸的信號有許多種,如視頻圖象、音頻、數據、電話或其他用戶自定義的信號,每種信號分別用一條光纖線路來傳輸,必然價格昂貴,所以為了提高光纖的利用率,降低成本,必須將各種信號進行復用。 -
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理和錯誤檢測及糾正技術,使電力線通信技術出現新的mac層和物理層協議,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。 -
In addition, the simple sdh multiplexer has special use because of its small and exquisite character. the e1 multiplexer which the dissertation focuses on is a subsystem of the 2. 5g terminal multiplexer ( the specific demultiplexer of sdh ). its function is tapping e1 signal from stm - 1 and multiplexing e1 signal into stm - 1
本文所研究的e1映射復用模塊,是2 . 5g終端復用器( sdh專用分接器)的一個子系統,它所實現的功能就是從stm - 1中分接出e1信號以及把e1信號復用進stm - 1 。 -
This paper gives an overview on the development of wireless communication and the orthogonal frequency division multiplexing ( ofdm ) technique. basic characters of wireless channel, transmission principles and signal frame structure design of ofdm are introduced. main non synchronization factors between ofdm transceivers are pointed out
本文介紹了無線通信與多載波正交頻分復用( ofdm )技術的發展概況,闡述了無線通道的基本特性、 ofdm的調制解調原理與信號幀結構的設計,指出了導致ofdm收發信機間不同步的主要因素。 -
In this paper, firstly the origin and research significance of the project were introduced, the general design of the rtmaad system wes introduced as follow. then, we discussed and analyzed in detail the rtmaad system " s key technologies such as digital signal processing and wave division multiplexing of optical fiber communication system, etc. lastly, engineering " s realization of the rtmaad system was introduced
本文首先介紹了課題的來源及研究意義,接著介紹了rtmaad系統的總體設計,然後詳細分析和論述了本研究項目的關鍵技術:數字信號處理技術和光纖波分復用技術等,最後介紹了rtmaad系統的工程實現。 -
The rtmaad system was integrated with digital signal processing ( dsp ), global information system ( cis ), optic time domain reflective ( otdr ) meter technology, wave division multiplexing ( wdm ) technology, etc. the rtmaad system made a realization that optical cable " s abort is auto located exactly. at the same time, the rtmaad system can monitor and diagnose both the optical terminal " s fault and power " s error of the stations of the fiber optical transmission network
Rtmaad系統綜合應用了數字信號處理、地理信息系統、光時域反射測量和波分復用等技術,實現了光纜中斷故障的自動準確定位,同時將光纖系統傳輸站的光端設備和電源設備的監測融合到一起進行故障實時監測和診斷。 -
Introduction to communication systems ? analysis and design of communication systems ; analog and digital modulation and demodulation, frequency conversion, multiplexing, noise and distortion ; spectral and signal - to - noise ratio analysis, probability of error in digital systems, spread spectrum
通信系統基礎:通信系統分析和設計,模擬和數字調制和解調,頻率轉換,統計復用,噪聲和失真;譜分析和信噪比分析,數字系統誤碼率,擴展頻譜。 -
Agrawal ' s theory model of soa ca n ' t simulate accurately the amplified signal pulse shape in soa when the pulse width is as short as several picosecond. so we simulate accurately the peak power, full width half maximum, rising time and falling time of amplified pulse after considering the gain compression, gain asymmetry, gain shift, gain variable with situation and time. with ultrahigh velocity dense wavelength division multiplexing ( dwdm ) and optical time division multiplexing ( otdm ) developing, we demand more and more short signal pulse and more signal channels
但當信號脈沖的寬度只有幾個皮秒時, soa傳統的agrawal理論模型已經不能完全準確地模擬soa對信號脈沖的放大情況,在此基礎上,我們在全面考慮soa的增益壓縮、增益非對稱和漂移、增益隨位置和時間變化的載流子壽命等物理機制的情況下,對皮秒超短高斯信號光脈沖經soa放大后的脈沖的峰值功率、脈沖半值全寬度、脈沖的上升時間和下降時間等重要物理參量進行了準確模擬和詳細研究。
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